go-waku/waku/v2/peermanager/peer_manager.go

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package peermanager
import (
"context"
"time"
"github.com/libp2p/go-libp2p/core/host"
"github.com/libp2p/go-libp2p/core/network"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/libp2p/go-libp2p/core/peerstore"
"github.com/libp2p/go-libp2p/core/protocol"
ma "github.com/multiformats/go-multiaddr"
"github.com/waku-org/go-waku/logging"
wps "github.com/waku-org/go-waku/waku/v2/peerstore"
wenr "github.com/waku-org/go-waku/waku/v2/protocol/enr"
"github.com/waku-org/go-waku/waku/v2/protocol/relay"
"github.com/waku-org/go-waku/waku/v2/utils"
"go.uber.org/zap"
)
// PeerManager applies various controls and manage connections towards peers.
type PeerManager struct {
peerConnector *PeerConnectionStrategy
maxRelayPeers int
logger *zap.Logger
InRelayPeersTarget int
OutRelayPeersTarget int
host host.Host
serviceSlots *ServiceSlots
ctx context.Context
}
const peerConnectivityLoopSecs = 15
// 80% relay peers 20% service peers
func relayAndServicePeers(maxConnections int) (int, int) {
return maxConnections - maxConnections/5, maxConnections / 5
}
// 66% inRelayPeers 33% outRelayPeers
func inAndOutRelayPeers(relayPeers int) (int, int) {
outRelayPeers := relayPeers / 3
//
const minOutRelayConns = 10
if outRelayPeers < minOutRelayConns {
outRelayPeers = minOutRelayConns
}
return relayPeers - outRelayPeers, outRelayPeers
}
// NewPeerManager creates a new peerManager instance.
func NewPeerManager(maxConnections int, logger *zap.Logger) *PeerManager {
maxRelayPeers, _ := relayAndServicePeers(maxConnections)
inRelayPeersTarget, outRelayPeersTarget := inAndOutRelayPeers(maxRelayPeers)
pm := &PeerManager{
logger: logger.Named("peer-manager"),
maxRelayPeers: maxRelayPeers,
InRelayPeersTarget: inRelayPeersTarget,
OutRelayPeersTarget: outRelayPeersTarget,
serviceSlots: NewServiceSlot(),
}
logger.Info("PeerManager init values", zap.Int("maxConnections", maxConnections),
zap.Int("maxRelayPeers", maxRelayPeers),
zap.Int("outRelayPeersTarget", outRelayPeersTarget),
zap.Int("inRelayPeersTarget", pm.InRelayPeersTarget))
return pm
}
// SetHost sets the host to be used in order to access the peerStore.
func (pm *PeerManager) SetHost(host host.Host) {
pm.host = host
}
// SetPeerConnector sets the peer connector to be used for establishing relay connections.
func (pm *PeerManager) SetPeerConnector(pc *PeerConnectionStrategy) {
pm.peerConnector = pc
}
// Start starts the processing to be done by peer manager.
func (pm *PeerManager) Start(ctx context.Context) {
pm.ctx = ctx
go pm.connectivityLoop(ctx)
}
// This is a connectivity loop, which currently checks and prunes inbound connections.
func (pm *PeerManager) connectivityLoop(ctx context.Context) {
t := time.NewTicker(peerConnectivityLoopSecs * time.Second)
defer t.Stop()
for {
select {
case <-ctx.Done():
return
case <-t.C:
pm.connectToRelayPeers()
}
}
}
// GroupPeersByDirection returns all the connected peers in peer store grouped by Inbound or outBound direction
func (pm *PeerManager) GroupPeersByDirection() (inPeers peer.IDSlice, outPeers peer.IDSlice, err error) {
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peers := pm.host.Network().Peers()
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for _, p := range peers {
direction, err := pm.host.Peerstore().(wps.WakuPeerstore).Direction(p)
if err == nil {
if direction == network.DirInbound {
inPeers = append(inPeers, p)
} else if direction == network.DirOutbound {
outPeers = append(outPeers, p)
}
} else {
pm.logger.Error("Failed to retrieve peer direction",
logging.HostID("peerID", p), zap.Error(err))
}
}
return inPeers, outPeers, nil
}
func (pm *PeerManager) getRelayPeers() (inRelayPeers peer.IDSlice, outRelayPeers peer.IDSlice) {
//Group peers by their connected direction inbound or outbound.
inPeers, outPeers, err := pm.GroupPeersByDirection()
if err != nil {
return
}
pm.logger.Debug("Number of peers connected", zap.Int("inPeers", inPeers.Len()),
zap.Int("outPeers", outPeers.Len()))
//Need to filter peers to check if they support relay
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if inPeers.Len() != 0 {
inRelayPeers, _ = utils.FilterPeersByProto(pm.host, inPeers, relay.WakuRelayID_v200)
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}
if outPeers.Len() != 0 {
outRelayPeers, _ = utils.FilterPeersByProto(pm.host, outPeers, relay.WakuRelayID_v200)
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}
return
}
func (pm *PeerManager) connectToRelayPeers() {
//Check for out peer connections and connect to more peers.
inRelayPeers, outRelayPeers := pm.getRelayPeers()
pm.logger.Info("Number of Relay peers connected", zap.Int("inRelayPeers", inRelayPeers.Len()),
zap.Int("outRelayPeers", outRelayPeers.Len()))
if inRelayPeers.Len() > 0 &&
inRelayPeers.Len() > pm.InRelayPeersTarget {
pm.pruneInRelayConns(inRelayPeers)
}
if outRelayPeers.Len() > pm.OutRelayPeersTarget {
return
}
totalRelayPeers := inRelayPeers.Len() + outRelayPeers.Len()
// Establish additional connections connected peers are lesser than target.
//What if the not connected peers in peerstore are not relay peers???
if totalRelayPeers < pm.maxRelayPeers {
//Find not connected peers.
notConnectedPeers := pm.getNotConnectedPers()
if notConnectedPeers.Len() == 0 {
return
}
//Connect to eligible peers.
numPeersToConnect := pm.maxRelayPeers - totalRelayPeers
if numPeersToConnect > notConnectedPeers.Len() {
numPeersToConnect = notConnectedPeers.Len()
}
pm.connectToPeers(notConnectedPeers[0:numPeersToConnect])
} //Else: Should we raise some sort of unhealthy event??
}
func addrInfoToPeerData(origin wps.Origin, peerID peer.ID, host host.Host) PeerData {
return PeerData{
Origin: origin,
AddrInfo: peer.AddrInfo{
ID: peerID,
Addrs: host.Peerstore().Addrs(peerID),
},
}
}
func (pm *PeerManager) connectToPeers(peers peer.IDSlice) {
for _, peerID := range peers {
peerData := addrInfoToPeerData(wps.PeerManager, peerID, pm.host)
pm.peerConnector.PushToChan(peerData)
}
}
func (pm *PeerManager) getNotConnectedPers() (notConnectedPeers peer.IDSlice) {
for _, peerID := range pm.host.Peerstore().Peers() {
if pm.host.Network().Connectedness(peerID) != network.Connected {
notConnectedPeers = append(notConnectedPeers, peerID)
}
}
return
}
func (pm *PeerManager) pruneInRelayConns(inRelayPeers peer.IDSlice) {
//Start disconnecting peers, based on what?
//For now, just disconnect most recently connected peers
//TODO: Need to have more intelligent way of doing this, maybe peer scores.
pm.logger.Info("Number of in peer connections exceed targer relay peers, hence pruning",
zap.Int("inRelayPeers", inRelayPeers.Len()), zap.Int("inRelayPeersTarget", pm.InRelayPeersTarget))
for pruningStartIndex := pm.InRelayPeersTarget; pruningStartIndex < inRelayPeers.Len(); pruningStartIndex++ {
p := inRelayPeers[pruningStartIndex]
err := pm.host.Network().ClosePeer(p)
if err != nil {
pm.logger.Warn("Failed to disconnect connection towards peer",
logging.HostID("peerID", p))
}
pm.logger.Debug("Successfully disconnected connection towards peer",
logging.HostID("peerID", p))
}
}
// AddDiscoveredPeer to add dynamically discovered peers.
// Note that these peers will not be set in service-slots.
// TODO: It maybe good to set in service-slots based on services supported in the ENR
func (pm *PeerManager) AddDiscoveredPeer(p PeerData) {
// Try to fetch shard info from ENR to arrive at pubSub topics.
if len(p.PubSubTopics) == 0 && p.ENR != nil {
shards, err := wenr.RelaySharding(p.ENR.Record())
if err != nil {
pm.logger.Error("Could not derive relayShards from ENR", zap.Error(err),
logging.HostID("peer", p.AddrInfo.ID), zap.String("enr", p.ENR.String()))
} else {
if shards != nil {
p.PubSubTopics = make([]string, 0)
topics := shards.Topics()
for _, topic := range topics {
topicStr := topic.String()
p.PubSubTopics = append(p.PubSubTopics, topicStr)
}
} else {
pm.logger.Info("ENR doesn't have relay shards", logging.HostID("peer", p.AddrInfo.ID))
}
}
}
_ = pm.addPeer(p.AddrInfo.ID, p.AddrInfo.Addrs, p.Origin, p.PubSubTopics)
if p.ENR != nil {
err := pm.host.Peerstore().(wps.WakuPeerstore).SetENR(p.AddrInfo.ID, p.ENR)
if err != nil {
pm.logger.Error("could not store enr", zap.Error(err),
logging.HostID("peer", p.AddrInfo.ID), zap.String("enr", p.ENR.String()))
}
}
}
// addPeer adds peer to only the peerStore.
// It also sets additional metadata such as origin, ENR and supported protocols
func (pm *PeerManager) addPeer(ID peer.ID, addrs []ma.Multiaddr, origin wps.Origin, pubSubTopics []string, protocols ...protocol.ID) error {
pm.logger.Info("adding peer to peerstore", logging.HostID("peer", ID))
pm.host.Peerstore().AddAddrs(ID, addrs, peerstore.AddressTTL)
err := pm.host.Peerstore().(wps.WakuPeerstore).SetOrigin(ID, origin)
if err != nil {
pm.logger.Error("could not set origin", zap.Error(err), logging.HostID("peer", ID))
return err
}
if len(protocols) > 0 {
err = pm.host.Peerstore().AddProtocols(ID, protocols...)
if err != nil {
return err
}
}
if len(pubSubTopics) == 0 {
// Probably the peer is discovered via DNSDiscovery (for which we don't have pubSubTopic info)
//If pubSubTopic and enr is empty or no shard info in ENR,then set to defaultPubSubTopic
pubSubTopics = []string{relay.DefaultWakuTopic}
}
err = pm.host.Peerstore().(wps.WakuPeerstore).SetPubSubTopics(ID, pubSubTopics)
if err != nil {
pm.logger.Error("could not store pubSubTopic", zap.Error(err),
logging.HostID("peer", ID), zap.Strings("topics", pubSubTopics))
}
return nil
}
// AddPeer adds peer to the peerStore and also to service slots
func (pm *PeerManager) AddPeer(address ma.Multiaddr, origin wps.Origin, pubSubTopics []string, protocols ...protocol.ID) (peer.ID, error) {
//Assuming all addresses have peerId
info, err := peer.AddrInfoFromP2pAddr(address)
if err != nil {
return "", err
}
//Add Service peers to serviceSlots.
for _, proto := range protocols {
pm.addPeerToServiceSlot(proto, info.ID)
}
//Add to the peer-store
err = pm.addPeer(info.ID, info.Addrs, origin, pubSubTopics, protocols...)
if err != nil {
return "", err
}
return info.ID, nil
}
// RemovePeer deletes peer from the peerStore after disconnecting it.
// It also removes the peer from serviceSlot.
func (pm *PeerManager) RemovePeer(peerID peer.ID) {
pm.host.Peerstore().RemovePeer(peerID)
//Search if this peer is in serviceSlot and if so, remove it from there
// TODO:Add another peer which is statically configured to the serviceSlot.
pm.serviceSlots.removePeer(peerID)
}
// addPeerToServiceSlot adds a peerID to serviceSlot.
// Adding to peerStore is expected to be already done by caller.
// If relay proto is passed, it is not added to serviceSlot.
func (pm *PeerManager) addPeerToServiceSlot(proto protocol.ID, peerID peer.ID) {
if proto == relay.WakuRelayID_v200 {
pm.logger.Warn("Cannot add Relay peer to service peer slots")
return
}
//For now adding the peer to serviceSlot which means the latest added peer would be given priority.
//TODO: Ideally we should sort the peers per service and return best peer based on peer score or RTT etc.
pm.logger.Info("Adding peer to service slots", logging.HostID("peer", peerID),
zap.String("service", string(proto)))
// getPeers returns nil for WakuRelayIDv200 protocol, but we don't run this ServiceSlot code for WakuRelayIDv200 protocol
pm.serviceSlots.getPeers(proto).add(peerID)
}
// SelectPeer is used to return a random peer that supports a given protocol.
// If a list of specific peers is passed, the peer will be chosen from that list assuming
// it supports the chosen protocol, otherwise it will chose a peer from the service slot.
// If a peer cannot be found in the service slot, a peer will be selected from node peerstore
func (pm *PeerManager) SelectPeer(proto protocol.ID, specificPeers []peer.ID) (peer.ID, error) {
// @TODO We need to be more strategic about which peers we dial. Right now we just set one on the service.
// Ideally depending on the query and our set of peers we take a subset of ideal peers.
// This will require us to check for various factors such as:
// - which topics they track
// - latency?
//Try to fetch from serviceSlot
if slot := pm.serviceSlots.getPeers(proto); slot != nil {
if peerID, err := slot.getRandom(); err == nil {
return peerID, nil
}
}
// if not found in serviceSlots or proto == WakuRelayIDv200
filteredPeers, err := utils.FilterPeersByProto(pm.host, specificPeers, proto)
if err != nil {
return "", err
}
return utils.SelectRandomPeer(filteredPeers, pm.logger)
}