nwaku/waku/node/peer_manager/peer_manager.nim

713 lines
28 KiB
Nim
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

when (NimMajor, NimMinor) < (1, 4):
{.push raises: [Defect].}
else:
{.push raises: [].}
import
std/[options, sets, sequtils, times, strutils, math],
chronos,
chronicles,
metrics,
libp2p/multistream,
libp2p/muxers/muxer,
libp2p/nameresolving/nameresolver
import
../../common/nimchronos,
../../waku_core,
../../waku_relay,
../../waku_enr/sharding,
./peer_store/peer_storage,
./waku_peer_store
export waku_peer_store, peer_storage, peers
declareCounter waku_peers_dials, "Number of peer dials", ["outcome"]
# TODO: Populate from PeerStore.Source when ready
declarePublicCounter waku_node_conns_initiated, "Number of connections initiated", ["source"]
declarePublicGauge waku_peers_errors, "Number of peer manager errors", ["type"]
declarePublicGauge waku_connected_peers, "Number of physical connections per direction and protocol", labels = ["direction", "protocol"]
declarePublicGauge waku_streams_peers, "Number of streams per direction and protocol", labels = ["direction", "protocol"]
declarePublicGauge waku_peer_store_size, "Number of peers managed by the peer store"
declarePublicGauge waku_service_peers, "Service peer protocol and multiaddress ", labels = ["protocol", "peerId"]
logScope:
topics = "waku node peer_manager"
const
# TODO: Make configurable
DefaultDialTimeout = chronos.seconds(10)
# Max attempts before removing the peer
MaxFailedAttempts = 5
# Time to wait before attempting to dial again is calculated as:
# initialBackoffInSec*(backoffFactor^(failedAttempts-1))
# 120s, 480s, 1920, 7680s
InitialBackoffInSec = 120
BackoffFactor = 4
# Limit the amount of paralel dials
MaxParalelDials = 10
# Delay between consecutive relayConnectivityLoop runs
ConnectivityLoopInterval = chronos.seconds(15)
# How often the peer store is pruned
PrunePeerStoreInterval = chronos.minutes(10)
# How often metrics and logs are shown/updated
LogAndMetricsInterval = chronos.minutes(3)
# Max peers that we allow from the same IP
ColocationLimit = 5
type
PeerManager* = ref object of RootObj
switch*: Switch
peerStore*: PeerStore
initialBackoffInSec*: int
backoffFactor*: int
maxFailedAttempts*: int
storage: PeerStorage
serviceSlots*: Table[string, RemotePeerInfo]
maxRelayPeers*: int
outRelayPeersTarget: int
inRelayPeersTarget: int
ipTable*: Table[string, seq[PeerId]]
colocationLimit*: int
started: bool
proc protocolMatcher*(codec: string): Matcher =
## Returns a protocol matcher function for the provided codec
proc match(proto: string): bool {.gcsafe.} =
## Matches a proto with any postfix to the provided codec.
## E.g. if the codec is `/vac/waku/filter/2.0.0` it matches the protos:
## `/vac/waku/filter/2.0.0`, `/vac/waku/filter/2.0.0-beta3`, `/vac/waku/filter/2.0.0-actualnonsense`
return proto.startsWith(codec)
return match
proc calculateBackoff(initialBackoffInSec: int,
backoffFactor: int,
failedAttempts: int): timer.Duration =
if failedAttempts == 0:
return chronos.seconds(0)
return chronos.seconds(initialBackoffInSec*(backoffFactor^(failedAttempts-1)))
####################
# Helper functions #
####################
proc insertOrReplace(ps: PeerStorage,
peerId: PeerID,
remotePeerInfo: RemotePeerInfo,
connectedness: Connectedness,
disconnectTime: int64 = 0) =
# Insert peer entry into persistent storage, or replace existing entry with updated info
let res = ps.put(peerId, remotePeerInfo, connectedness, disconnectTime)
if res.isErr:
warn "failed to store peers", err = res.error
waku_peers_errors.inc(labelValues = ["storage_failure"])
proc addPeer*(pm: PeerManager, remotePeerInfo: RemotePeerInfo, origin = UnknownOrigin) =
# Adds peer to manager for the specified protocol
if remotePeerInfo.peerId == pm.switch.peerInfo.peerId:
# Do not attempt to manage our unmanageable self
return
# ...public key
var publicKey: PublicKey
discard remotePeerInfo.peerId.extractPublicKey(publicKey)
if pm.peerStore[AddressBook][remotePeerInfo.peerId] == remotePeerInfo.addrs and
pm.peerStore[KeyBook][remotePeerInfo.peerId] == publicKey and
pm.peerStore[ENRBook][remotePeerInfo.peerId].raw.len > 0:
# Peer already managed and ENR info is already saved
return
trace "Adding peer to manager", peerId = remotePeerInfo.peerId, addresses = remotePeerInfo.addrs
pm.peerStore[AddressBook][remotePeerInfo.peerId] = remotePeerInfo.addrs
pm.peerStore[KeyBook][remotePeerInfo.peerId] = publicKey
pm.peerStore[SourceBook][remotePeerInfo.peerId] = origin
if remotePeerInfo.enr.isSome():
pm.peerStore[ENRBook][remotePeerInfo.peerId] = remotePeerInfo.enr.get()
# Add peer to storage. Entry will subsequently be updated with connectedness information
if not pm.storage.isNil:
pm.storage.insertOrReplace(remotePeerInfo.peerId, pm.peerStore.get(remotePeerInfo.peerId), NotConnected)
# Connects to a given node. Note that this function uses `connect` and
# does not provide a protocol. Streams for relay (gossipsub) are created
# automatically without the needing to dial.
proc connectRelay*(pm: PeerManager,
peer: RemotePeerInfo,
dialTimeout = DefaultDialTimeout,
source = "api"): Future[bool] {.async.} =
let peerId = peer.peerId
# Do not attempt to dial self
if peerId == pm.switch.peerInfo.peerId:
return false
if not pm.peerStore.hasPeer(peerId, WakuRelayCodec):
pm.addPeer(peer)
let failedAttempts = pm.peerStore[NumberFailedConnBook][peerId]
debug "Connecting to relay peer", wireAddr=peer.addrs, peerId=peerId, failedAttempts=failedAttempts
var deadline = sleepAsync(dialTimeout)
var workfut = pm.switch.connect(peerId, peer.addrs)
var reasonFailed = ""
try:
await workfut or deadline
if workfut.finished():
if not deadline.finished():
deadline.cancel()
waku_peers_dials.inc(labelValues = ["successful"])
waku_node_conns_initiated.inc(labelValues = [source])
pm.peerStore[NumberFailedConnBook][peerId] = 0
return true
else:
reasonFailed = "timed out"
await cancelAndWait(workfut)
except CatchableError as exc:
reasonFailed = "remote peer failed"
# Dial failed
pm.peerStore[NumberFailedConnBook][peerId] = pm.peerStore[NumberFailedConnBook][peerId] + 1
pm.peerStore[LastFailedConnBook][peerId] = Moment.init(getTime().toUnix, Second)
pm.peerStore[ConnectionBook][peerId] = CannotConnect
debug "Connecting relay peer failed",
peerId = peerId,
reason = reasonFailed,
failedAttempts = pm.peerStore[NumberFailedConnBook][peerId]
waku_peers_dials.inc(labelValues = [reasonFailed])
return false
# Dialing should be used for just protocols that require a stream to write and read
# This shall not be used to dial Relay protocols, since that would create
# unneccesary unused streams.
proc dialPeer(pm: PeerManager,
peerId: PeerID,
addrs: seq[MultiAddress],
proto: string,
dialTimeout = DefaultDialTimeout,
source = "api"): Future[Option[Connection]] {.async.} =
if peerId == pm.switch.peerInfo.peerId:
error "could not dial self"
return none(Connection)
if proto == WakuRelayCodec:
error "dial shall not be used to connect to relays"
return none(Connection)
debug "Dialing peer", wireAddr=addrs, peerId=peerId, proto=proto
# Dial Peer
let dialFut = pm.switch.dial(peerId, addrs, proto)
var reasonFailed = ""
try:
if (await dialFut.withTimeout(dialTimeout)):
return some(dialFut.read())
else:
reasonFailed = "timeout"
await cancelAndWait(dialFut)
except CatchableError as exc:
reasonFailed = "failed"
debug "Dialing peer failed", peerId=peerId, reason=reasonFailed, proto=proto
return none(Connection)
proc loadFromStorage(pm: PeerManager) =
debug "loading peers from storage"
# Load peers from storage, if available
proc onData(peerId: PeerID, remotePeerInfo: RemotePeerInfo, connectedness: Connectedness, disconnectTime: int64) =
trace "loading peer", peerId=peerId, connectedness=connectedness
if peerId == pm.switch.peerInfo.peerId:
# Do not manage self
return
# nim-libp2p books
pm.peerStore[AddressBook][peerId] = remotePeerInfo.addrs
pm.peerStore[ProtoBook][peerId] = remotePeerInfo.protocols
pm.peerStore[KeyBook][peerId] = remotePeerInfo.publicKey
pm.peerStore[AgentBook][peerId] = remotePeerInfo.agent
pm.peerStore[ProtoVersionBook][peerId] = remotePeerInfo.protoVersion
# custom books
pm.peerStore[ConnectionBook][peerId] = NotConnected # Reset connectedness state
pm.peerStore[DisconnectBook][peerId] = disconnectTime
pm.peerStore[SourceBook][peerId] = remotePeerInfo.origin
let res = pm.storage.getAll(onData)
if res.isErr:
warn "failed to load peers from storage", err = res.error
waku_peers_errors.inc(labelValues = ["storage_load_failure"])
else:
debug "successfully queried peer storage"
proc canBeConnected*(pm: PeerManager,
peerId: PeerId): bool =
# Returns if we can try to connect to this peer, based on past failed attempts
# It uses an exponential backoff. Each connection attempt makes us
# wait more before trying again.
let failedAttempts = pm.peerStore[NumberFailedConnBook][peerId]
# if it never errored, we can try to connect
if failedAttempts == 0:
return true
# if there are too many failed attempts, do not reconnect
if failedAttempts >= pm.maxFailedAttempts:
return false
# If it errored we wait an exponential backoff from last connection
# the more failed attempts, the greater the backoff since last attempt
let now = Moment.init(getTime().toUnix, Second)
let lastFailed = pm.peerStore[LastFailedConnBook][peerId]
let backoff = calculateBackoff(pm.initialBackoffInSec, pm.backoffFactor, failedAttempts)
if now >= (lastFailed + backoff):
return true
return false
##################
# Initialisation #
##################
proc getPeerIp(pm: PeerManager, peerId: PeerId): Option[string] =
if pm.switch.connManager.getConnections().hasKey(peerId):
let conns = pm.switch.connManager.getConnections().getOrDefault(peerId)
if conns.len != 0:
let observedAddr = conns[0].connection.observedAddr
let ip = observedAddr.get.getHostname()
if observedAddr.isSome:
# TODO: think if circuit relay ips should be handled differently
let ip = observedAddr.get.getHostname()
return some(ip)
return none(string)
# called when a connection i) is created or ii) is closed
proc onConnEvent(pm: PeerManager, peerId: PeerID, event: ConnEvent) {.async.} =
case event.kind
of ConnEventKind.Connected:
let direction = if event.incoming: Inbound else: Outbound
discard
of ConnEventKind.Disconnected:
discard
# called when a peer i) first connects to us ii) disconnects all connections from us
proc onPeerEvent(pm: PeerManager, peerId: PeerId, event: PeerEvent) {.async.} =
var direction: PeerDirection
var connectedness: Connectedness
if event.kind == PeerEventKind.Joined:
direction = if event.initiator: Outbound else: Inbound
connectedness = Connected
let ip = pm.getPeerIp(peerId)
if ip.isSome:
pm.ipTable.mgetOrPut(ip.get, newSeq[PeerId]()).add(peerId)
let peersBehindIp = pm.ipTable[ip.get]
if peersBehindIp.len > pm.colocationLimit:
# in theory this should always be one, but just in case
for peerId in peersBehindIp[0..<(peersBehindIp.len - pm.colocationLimit)]:
debug "Pruning connection due to ip colocation", peerId = peerId, ip = ip
asyncSpawn(pm.switch.disconnect(peerId))
pm.peerStore.delete(peerId)
elif event.kind == PeerEventKind.Left:
direction = UnknownDirection
connectedness = CanConnect
# note we cant access the peerId ip here as the connection was already closed
for ip, peerIds in pm.ipTable.pairs:
if peerIds.contains(peerId):
pm.ipTable[ip] = pm.ipTable[ip].filterIt(it != peerId)
if pm.ipTable[ip].len == 0:
pm.ipTable.del(ip)
break
pm.peerStore[ConnectionBook][peerId] = connectedness
pm.peerStore[DirectionBook][peerId] = direction
if not pm.storage.isNil:
pm.storage.insertOrReplace(peerId, pm.peerStore.get(peerId), connectedness, getTime().toUnix)
proc new*(T: type PeerManager,
switch: Switch,
maxRelayPeers: Option[int] = none(int),
storage: PeerStorage = nil,
initialBackoffInSec = InitialBackoffInSec,
backoffFactor = BackoffFactor,
maxFailedAttempts = MaxFailedAttempts,
colocationLimit = ColocationLimit,): PeerManager =
let capacity = switch.peerStore.capacity
let maxConnections = switch.connManager.inSema.size
if maxConnections > capacity:
error "Max number of connections can't be greater than PeerManager capacity",
capacity = capacity,
maxConnections = maxConnections
raise newException(Defect, "Max number of connections can't be greater than PeerManager capacity")
var maxRelayPeersValue = 0
if maxRelayPeers.isSome():
if maxRelayPeers.get() > maxConnections:
error "Max number of relay peers can't be greater than the max amount of connections",
maxConnections = maxConnections,
maxRelayPeers = maxRelayPeers.get()
raise newException(Defect, "Max number of relay peers can't be greater than the max amount of connections")
if maxRelayPeers.get() == maxConnections:
warn "Max number of relay peers is equal to max amount of connections, peer won't be contributing to service peers",
maxConnections = maxConnections,
maxRelayPeers = maxRelayPeers.get()
maxRelayPeersValue = maxRelayPeers.get()
else:
# Leave by default 20% of connections for service peers
maxRelayPeersValue = maxConnections - (maxConnections div 5)
# attempt to calculate max backoff to prevent potential overflows or unreasonably high values
let backoff = calculateBackoff(initialBackoffInSec, backoffFactor, maxFailedAttempts)
if backoff.weeks() > 1:
error "Max backoff time can't be over 1 week",
maxBackoff=backoff
raise newException(Defect, "Max backoff time can't be over 1 week")
let outRelayPeersTarget = max(maxRelayPeersValue div 3, 10)
let pm = PeerManager(switch: switch,
peerStore: switch.peerStore,
storage: storage,
initialBackoffInSec: initialBackoffInSec,
backoffFactor: backoffFactor,
outRelayPeersTarget: outRelayPeersTarget,
inRelayPeersTarget: maxRelayPeersValue - outRelayPeersTarget,
maxRelayPeers: maxRelayPeersValue,
maxFailedAttempts: maxFailedAttempts,
colocationLimit: colocationLimit)
proc connHook(peerId: PeerID, event: ConnEvent): Future[void] {.gcsafe.} =
onConnEvent(pm, peerId, event)
proc peerHook(peerId: PeerId, event: PeerEvent): Future[void] {.gcsafe.} =
onPeerEvent(pm, peerId, event)
proc peerStoreChanged(peerId: PeerId) {.gcsafe.} =
waku_peer_store_size.set(toSeq(pm.peerStore[AddressBook].book.keys).len.int64)
# currently disabled
#pm.switch.addConnEventHandler(connHook, ConnEventKind.Connected)
#pm.switch.addConnEventHandler(connHook, ConnEventKind.Disconnected)
pm.switch.addPeerEventHandler(peerHook, PeerEventKind.Joined)
pm.switch.addPeerEventHandler(peerHook, PeerEventKind.Left)
# called every time the peerstore is updated
pm.peerStore[AddressBook].addHandler(peerStoreChanged)
pm.serviceSlots = initTable[string, RemotePeerInfo]()
pm.ipTable = initTable[string, seq[PeerId]]()
if not storage.isNil():
debug "found persistent peer storage"
pm.loadFromStorage() # Load previously managed peers.
else:
debug "no peer storage found"
return pm
#####################
# Manager interface #
#####################
proc addServicePeer*(pm: PeerManager, remotePeerInfo: RemotePeerInfo, proto: string) =
# Do not add relay peers
if proto == WakuRelayCodec:
warn "Can't add relay peer to service peers slots"
return
info "Adding peer to service slots", peerId = remotePeerInfo.peerId, addr = remotePeerInfo.addrs[0], service = proto
waku_service_peers.set(1, labelValues = [$proto, $remotePeerInfo.addrs[0]])
# Set peer for service slot
pm.serviceSlots[proto] = remotePeerInfo
pm.addPeer(remotePeerInfo)
proc reconnectPeers*(pm: PeerManager,
proto: string,
backoff: chronos.Duration = chronos.seconds(0)) {.async.} =
## Reconnect to peers registered for this protocol. This will update connectedness.
## Especially useful to resume connections from persistent storage after a restart.
debug "Reconnecting peers", proto=proto
# Proto is not persisted, we need to iterate over all peers.
for peerInfo in pm.peerStore.peers(protocolMatcher(proto)):
# Check that the peer can be connected
if peerInfo.connectedness == CannotConnect:
debug "Not reconnecting to unreachable or non-existing peer", peerId=peerInfo.peerId
continue
# Respect optional backoff period where applicable.
let
# TODO: Add method to peerStore (eg isBackoffExpired())
disconnectTime = Moment.init(peerInfo.disconnectTime, Second) # Convert
currentTime = Moment.init(getTime().toUnix, Second) # Current time comparable to persisted value
backoffTime = disconnectTime + backoff - currentTime # Consider time elapsed since last disconnect
trace "Respecting backoff", backoff=backoff, disconnectTime=disconnectTime, currentTime=currentTime, backoffTime=backoffTime
# TODO: This blocks the whole function. Try to connect to another peer in the meantime.
if backoffTime > ZeroDuration:
debug "Backing off before reconnect...", peerId=peerInfo.peerId, backoffTime=backoffTime
# We disconnected recently and still need to wait for a backoff period before connecting
await sleepAsync(backoffTime)
discard await pm.connectRelay(peerInfo)
####################
# Dialer interface #
####################
proc dialPeer*(pm: PeerManager,
remotePeerInfo: RemotePeerInfo,
proto: string,
dialTimeout = DefaultDialTimeout,
source = "api",
): Future[Option[Connection]] {.async.} =
# Dial a given peer and add it to the list of known peers
# TODO: check peer validity and score before continuing. Limit number of peers to be managed.
# First add dialed peer info to peer store, if it does not exist yet..
# TODO: nim libp2p peerstore already adds them
if not pm.peerStore.hasPeer(remotePeerInfo.peerId, proto):
trace "Adding newly dialed peer to manager", peerId= $remotePeerInfo.peerId, address= $remotePeerInfo.addrs[0], proto= proto
pm.addPeer(remotePeerInfo)
return await pm.dialPeer(remotePeerInfo.peerId,remotePeerInfo.addrs, proto, dialTimeout, source)
proc dialPeer*(pm: PeerManager,
peerId: PeerID,
proto: string,
dialTimeout = DefaultDialTimeout,
source = "api",
): Future[Option[Connection]] {.async.} =
# Dial an existing peer by looking up it's existing addrs in the switch's peerStore
# TODO: check peer validity and score before continuing. Limit number of peers to be managed.
let addrs = pm.switch.peerStore[AddressBook][peerId]
return await pm.dialPeer(peerId, addrs, proto, dialTimeout, source)
proc connectToNodes*(pm: PeerManager,
nodes: seq[string]|seq[RemotePeerInfo],
dialTimeout = DefaultDialTimeout,
source = "api") {.async.} =
if nodes.len == 0:
return
info "Dialing multiple peers", numOfPeers = nodes.len
var futConns: seq[Future[bool]]
for node in nodes:
let node = parsePeerInfo(node)
if node.isOk():
futConns.add(pm.connectRelay(node.value))
else:
error "Couldn't parse node info", error = node.error
await allFutures(futConns)
let successfulConns = futConns.mapIt(it.read()).countIt(it == true)
info "Finished dialing multiple peers", successfulConns=successfulConns, attempted=nodes.len
# The issue seems to be around peers not being fully connected when
# trying to subscribe. So what we do is sleep to guarantee nodes are
# fully connected.
#
# This issue was known to Dmitiry on nim-libp2p and may be resolvable
# later.
await sleepAsync(chronos.seconds(5))
# Returns the peerIds of physical connections (in and out)
# containing at least one stream with the given protocol.
proc connectedPeers*(pm: PeerManager, protocol: string): (seq[PeerId], seq[PeerId]) =
var inPeers: seq[PeerId]
var outPeers: seq[PeerId]
for peerId, muxers in pm.switch.connManager.getConnections():
for peerConn in muxers:
let streams = peerConn.getStreams()
if streams.anyIt(it.protocol == protocol):
if peerConn.connection.transportDir == Direction.In:
inPeers.add(peerId)
elif peerConn.connection.transportDir == Direction.Out:
outPeers.add(peerId)
return (inPeers, outPeers)
proc getNumStreams*(pm: PeerManager, protocol: string): (int, int) =
var
numStreamsIn = 0
numStreamsOut = 0
for peerId, muxers in pm.switch.connManager.getConnections():
for peerConn in muxers:
for stream in peerConn.getStreams():
if stream.protocol == protocol:
if stream.dir == Direction.In:
numStreamsIn += 1
elif stream.dir == Direction.Out:
numStreamsOut += 1
return (numStreamsIn, numStreamsOut)
proc pruneInRelayConns(pm: PeerManager, amount: int) {.async.} =
let (inRelayPeers, outRelayPeers) = pm.connectedPeers(WakuRelayCodec)
let connsToPrune = min(amount, inRelayPeers.len)
for p in inRelayPeers[0..<connsToPrune]:
asyncSpawn(pm.switch.disconnect(p))
proc connectToRelayPeers*(pm: PeerManager) {.async.} =
let (inRelayPeers, outRelayPeers) = pm.connectedPeers(WakuRelayCodec)
let maxConnections = pm.switch.connManager.inSema.size
let totalRelayPeers = inRelayPeers.len + outRelayPeers.len
let inPeersTarget = maxConnections - pm.outRelayPeersTarget
# TODO: Temporally disabled. Might be causing connection issues
#if inRelayPeers.len > pm.inRelayPeersTarget:
# await pm.pruneInRelayConns(inRelayPeers.len - pm.inRelayPeersTarget)
if outRelayPeers.len >= pm.outRelayPeersTarget:
return
let notConnectedPeers = pm.peerStore.getNotConnectedPeers().mapIt(RemotePeerInfo.init(it.peerId, it.addrs))
let outsideBackoffPeers = notConnectedPeers.filterIt(pm.canBeConnected(it.peerId))
let numPeersToConnect = min(outsideBackoffPeers.len, MaxParalelDials)
await pm.connectToNodes(outsideBackoffPeers[0..<numPeersToConnect])
proc prunePeerStore*(pm: PeerManager) =
let numPeers = toSeq(pm.peerStore[AddressBook].book.keys).len
let capacity = pm.peerStore.capacity
if numPeers < capacity:
return
debug "Peer store capacity exceeded", numPeers = numPeers, capacity = capacity
let peersToPrune = numPeers - capacity
# prune peers with too many failed attempts
var pruned = 0
# copy to avoid modifying the book while iterating
let peerKeys = toSeq(pm.peerStore[NumberFailedConnBook].book.keys)
for peerId in peerKeys:
if peersToPrune - pruned == 0:
break
if pm.peerStore[NumberFailedConnBook][peerId] >= pm.maxFailedAttempts:
pm.peerStore.del(peerId)
pruned += 1
# if we still need to prune, prune peers that are not connected
let notConnected = pm.peerStore.getNotConnectedPeers().mapIt(it.peerId)
for peerId in notConnected:
if peersToPrune - pruned == 0:
break
pm.peerStore.del(peerId)
pruned += 1
let afterNumPeers = toSeq(pm.peerStore[AddressBook].book.keys).len
debug "Finished pruning peer store", beforeNumPeers = numPeers,
afterNumPeers = afterNumPeers,
capacity = capacity,
pruned = pruned
proc selectPeer*(pm: PeerManager, proto: string, shard: Option[PubsubTopic] = none(PubsubTopic)): Option[RemotePeerInfo] =
debug "Selecting peer from peerstore", protocol=proto
# Selects the best peer for a given protocol
var peers = pm.peerStore.getPeersByProtocol(proto)
if shard.isSome():
peers.keepItIf((it.enr.isSome() and it.enr.get().containsShard(shard.get())))
# No criteria for selecting a peer for WakuRelay, random one
if proto == WakuRelayCodec:
# TODO: proper heuristic here that compares peer scores and selects "best" one. For now the first peer for the given protocol is returned
if peers.len > 0:
debug "Got peer from peerstore", peerId=peers[0].peerId, multi=peers[0].addrs[0], protocol=proto
return some(peers[0])
debug "No peer found for protocol", protocol=proto
return none(RemotePeerInfo)
# For other protocols, we select the peer that is slotted for the given protocol
pm.serviceSlots.withValue(proto, serviceSlot):
debug "Got peer from service slots", peerId=serviceSlot[].peerId, multi=serviceSlot[].addrs[0], protocol=proto
return some(serviceSlot[])
# If not slotted, we select a random peer for the given protocol
if peers.len > 0:
debug "Got peer from peerstore", peerId=peers[0].peerId, multi=peers[0].addrs[0], protocol=proto
return some(peers[0])
debug "No peer found for protocol", protocol=proto
return none(RemotePeerInfo)
# Prunes peers from peerstore to remove old/stale ones
proc prunePeerStoreLoop(pm: PeerManager) {.async.} =
debug "Starting prune peerstore loop"
while pm.started:
pm.prunePeerStore()
await sleepAsync(PrunePeerStoreInterval)
# Ensures a healthy amount of connected relay peers
proc relayConnectivityLoop*(pm: PeerManager) {.async.} =
debug "Starting relay connectivity loop"
while pm.started:
await pm.connectToRelayPeers()
await sleepAsync(ConnectivityLoopInterval)
proc logAndMetrics(pm: PeerManager) {.async.} =
heartbeat "Scheduling log and metrics run", LogAndMetricsInterval:
# log metrics
let (inRelayPeers, outRelayPeers) = pm.connectedPeers(WakuRelayCodec)
let maxConnections = pm.switch.connManager.inSema.size
let totalRelayPeers = inRelayPeers.len + outRelayPeers.len
let notConnectedPeers = pm.peerStore.getNotConnectedPeers().mapIt(RemotePeerInfo.init(it.peerId, it.addrs))
let outsideBackoffPeers = notConnectedPeers.filterIt(pm.canBeConnected(it.peerId))
let totalConnections = pm.switch.connManager.getConnections().len
info "Relay peer connections",
inRelayConns = $inRelayPeers.len & "/" & $pm.inRelayPeersTarget,
outRelayConns = $outRelayPeers.len & "/" & $pm.outRelayPeersTarget,
totalConnections = $totalConnections & "/" & $maxConnections,
notConnectedPeers = notConnectedPeers.len,
outsideBackoffPeers = outsideBackoffPeers.len
# update prometheus metrics
for proto in pm.peerStore.getWakuProtos():
let (protoConnsIn, protoConnsOut) = pm.connectedPeers(proto)
let (protoStreamsIn, protoStreamsOut) = pm.getNumStreams(proto)
waku_connected_peers.set(protoConnsIn.len.float64, labelValues = [$Direction.In, proto])
waku_connected_peers.set(protoConnsOut.len.float64, labelValues = [$Direction.Out, proto])
waku_streams_peers.set(protoStreamsIn.float64, labelValues = [$Direction.In, proto])
waku_streams_peers.set(protoStreamsOut.float64, labelValues = [$Direction.Out, proto])
proc start*(pm: PeerManager) =
pm.started = true
asyncSpawn pm.relayConnectivityLoop()
asyncSpawn pm.prunePeerStoreLoop()
asyncSpawn pm.logAndMetrics()
proc stop*(pm: PeerManager) =
pm.started = false