diff --git a/waku/node/peer_manager/peer_manager.nim b/waku/node/peer_manager/peer_manager.nim index 11c9898e93..0edddad7b5 100644 --- a/waku/node/peer_manager/peer_manager.nim +++ b/waku/node/peer_manager/peer_manager.nim @@ -159,7 +159,7 @@ proc connectRelay*(pm: PeerManager, pm.addPeer(peer) let failedAttempts = pm.peerStore[NumberFailedConnBook][peerId] - debug "Connecting to relay peer", + trace "Connecting to relay peer", wireAddr=peer.addrs, peerId=peerId, failedAttempts=failedAttempts var deadline = sleepAsync(dialTimeout) @@ -189,7 +189,7 @@ proc connectRelay*(pm: PeerManager, pm.peerStore[LastFailedConnBook][peerId] = Moment.init(getTime().toUnix, Second) pm.peerStore[ConnectionBook][peerId] = CannotConnect - debug "Connecting relay peer failed", + trace "Connecting relay peer failed", peerId = peerId, reason = reasonFailed, failedAttempts = pm.peerStore[NumberFailedConnBook][peerId] @@ -215,7 +215,7 @@ proc dialPeer(pm: PeerManager, error "dial shall not be used to connect to relays" return none(Connection) - debug "Dialing peer", wireAddr=addrs, peerId=peerId, proto=proto + trace "Dialing peer", wireAddr=addrs, peerId=peerId, proto=proto # Dial Peer let dialFut = pm.switch.dial(peerId, addrs, proto) @@ -229,14 +229,14 @@ proc dialPeer(pm: PeerManager, if res.isOk: "timed out" else: res.error.msg - debug "Dialing peer failed", peerId=peerId, reason=reasonFailed, proto=proto + trace "Dialing peer failed", peerId=peerId, reason=reasonFailed, proto=proto return none(Connection) proc loadFromStorage(pm: PeerManager) = ## Load peers from storage, if available - debug "loading peers from storage" + trace "loading peers from storage" var amount = 0 @@ -276,7 +276,7 @@ proc loadFromStorage(pm: PeerManager) = waku_peers_errors.inc(labelValues = ["storage_load_failure"]) return - debug "recovered peers from storage", amount = amount + trace "recovered peers from storage", amount = amount proc canBeConnected*(pm: PeerManager, peerId: PeerId): bool = @@ -489,10 +489,10 @@ proc new*(T: type PeerManager, pm.ipTable = initTable[string, seq[PeerId]]() if not storage.isNil(): - debug "found persistent peer storage" + trace "found persistent peer storage" pm.loadFromStorage() # Load previously managed peers. else: - debug "no peer storage found" + trace "no peer storage found" return pm @@ -520,13 +520,13 @@ proc reconnectPeers*(pm: PeerManager, ## 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 + trace "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 + error "Not reconnecting to unreachable or non-existing peer", peerId=peerInfo.peerId continue # Respect optional backoff period where applicable. @@ -540,7 +540,7 @@ proc reconnectPeers*(pm: PeerManager, # 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 + trace "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) @@ -700,7 +700,7 @@ proc manageRelayPeers*(pm: PeerManager) {.async.} = let relayCount = connectablePeers.len - debug "Sharded Peer Management", + trace "Sharded Peer Management", shard = shard, connectable = $connectableCount & "/" & $shardCount, relayConnectable = $relayCount & "/" & $shardCount, @@ -731,7 +731,7 @@ proc prunePeerStore*(pm: PeerManager) = if numPeers <= capacity: return - debug "Peer store capacity exceeded", numPeers = numPeers, capacity = capacity + trace "Peer store capacity exceeded", numPeers = numPeers, capacity = capacity let pruningCount = numPeers - capacity var peersToPrune: HashSet[PeerId] @@ -793,13 +793,13 @@ proc prunePeerStore*(pm: PeerManager) = let afterNumPeers = pm.peerStore[AddressBook].book.len - debug "Finished pruning peer store", beforeNumPeers = numPeers, + trace "Finished pruning peer store", beforeNumPeers = numPeers, afterNumPeers = afterNumPeers, capacity = capacity, pruned = peersToPrune.len proc selectPeer*(pm: PeerManager, proto: string, shard: Option[PubsubTopic] = none(PubsubTopic)): Option[RemotePeerInfo] = - debug "Selecting peer from peerstore", protocol=proto + trace "Selecting peer from peerstore", protocol=proto # Selects the best peer for a given protocol var peers = pm.peerStore.getPeersByProtocol(proto) @@ -811,33 +811,33 @@ proc selectPeer*(pm: PeerManager, proto: string, shard: Option[PubsubTopic] = no 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 + trace "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 + trace "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 + trace "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 + trace "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 + trace "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" + trace "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" + trace "Starting relay connectivity loop" while pm.started: await pm.manageRelayPeers() await sleepAsync(ConnectivityLoopInterval)