// Copyright 2019 The Waku Library Authors. // // The Waku library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The Waku library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty off // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the Waku library. If not, see . // // This software uses the go-ethereum library, which is licensed // under the GNU Lesser General Public Library, version 3 or any later. package wakuv2 import ( "bytes" "context" "crypto/ecdsa" "crypto/sha256" "database/sql" "errors" "fmt" "math" "net" "runtime" "strings" "sync" "time" "github.com/jellydator/ttlcache/v3" "github.com/libp2p/go-libp2p/core/peer" "github.com/libp2p/go-libp2p/core/peerstore" "github.com/multiformats/go-multiaddr" "go.uber.org/zap" mapset "github.com/deckarep/golang-set" "golang.org/x/crypto/pbkdf2" gethcommon "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/event" "github.com/ethereum/go-ethereum/p2p" "github.com/ethereum/go-ethereum/p2p/enode" "github.com/ethereum/go-ethereum/rpc" "github.com/libp2p/go-libp2p" pubsub "github.com/libp2p/go-libp2p-pubsub" "github.com/libp2p/go-libp2p/core/metrics" "github.com/waku-org/go-waku/waku/v2/dnsdisc" "github.com/waku-org/go-waku/waku/v2/onlinechecker" "github.com/waku-org/go-waku/waku/v2/peermanager" wps "github.com/waku-org/go-waku/waku/v2/peerstore" "github.com/waku-org/go-waku/waku/v2/protocol" "github.com/waku-org/go-waku/waku/v2/protocol/filter" "github.com/waku-org/go-waku/waku/v2/protocol/legacy_store" storepb "github.com/waku-org/go-waku/waku/v2/protocol/legacy_store/pb" "github.com/waku-org/go-waku/waku/v2/protocol/lightpush" "github.com/waku-org/go-waku/waku/v2/protocol/peer_exchange" "github.com/waku-org/go-waku/waku/v2/protocol/relay" "github.com/waku-org/go-waku/waku/v2/protocol/store" "github.com/status-im/status-go/connection" "github.com/status-im/status-go/eth-node/types" "github.com/status-im/status-go/logutils" "github.com/status-im/status-go/timesource" "github.com/status-im/status-go/wakuv2/common" "github.com/status-im/status-go/wakuv2/persistence" node "github.com/waku-org/go-waku/waku/v2/node" "github.com/waku-org/go-waku/waku/v2/protocol/pb" ) const messageQueueLimit = 1024 const requestTimeout = 30 * time.Second const bootnodesQueryBackoffMs = 200 const bootnodesMaxRetries = 7 const cacheTTL = 20 * time.Minute const maxHashQueryLength = 100 const hashQueryInterval = 3 * time.Second const messageSentPeriod = 3 // in seconds const messageExpiredPerid = 10 // in seconds const maxRelayPeers = 300 const randomPeersKeepAliveInterval = 5 * time.Second const allPeersKeepAliveInterval = 5 * time.Minute type SentEnvelope struct { Envelope *protocol.Envelope PublishMethod PublishMethod } type ErrorSendingEnvelope struct { Error error SentEnvelope SentEnvelope } type ITelemetryClient interface { PushReceivedEnvelope(receivedEnvelope *protocol.Envelope) PushSentEnvelope(sentEnvelope SentEnvelope) PushErrorSendingEnvelope(errorSendingEnvelope ErrorSendingEnvelope) } // Waku represents a dark communication interface through the Ethereum // network, using its very own P2P communication layer. type Waku struct { node *node.WakuNode // reference to a libp2p waku node appDB *sql.DB dnsAddressCache map[string][]dnsdisc.DiscoveredNode // Map to store the multiaddresses returned by dns discovery dnsAddressCacheLock *sync.RWMutex // lock to handle access to the map // Filter-related filters *common.Filters // Message filters installed with Subscribe function filterManager *FilterManager privateKeys map[string]*ecdsa.PrivateKey // Private key storage symKeys map[string][]byte // Symmetric key storage keyMu sync.RWMutex // Mutex associated with key stores envelopeCache *ttlcache.Cache[gethcommon.Hash, *common.ReceivedMessage] // Pool of envelopes currently tracked by this node expirations map[uint32]mapset.Set // Message expiration pool poolMu sync.RWMutex // Mutex to sync the message and expiration pools bandwidthCounter *metrics.BandwidthCounter protectedTopicStore *persistence.ProtectedTopicsStore sendQueue chan *protocol.Envelope msgQueue chan *common.ReceivedMessage // Message queue for waku messages that havent been decoded topicInterest map[string]TopicInterest // Track message verification requests and when was the last time a pubsub topic was verified for missing messages topicInterestMu sync.Mutex ctx context.Context cancel context.CancelFunc wg sync.WaitGroup cfg *Config options []node.WakuNodeOption envelopeFeed event.Feed storeMsgIDs map[gethcommon.Hash]bool // Map of the currently processing ids storeMsgIDsMu sync.RWMutex sendMsgIDs map[string]map[gethcommon.Hash]uint32 sendMsgIDsMu sync.RWMutex storePeerID peer.ID topicHealthStatusChan chan peermanager.TopicHealthStatus connectionNotifChan chan node.PeerConnection connStatusSubscriptions map[string]*types.ConnStatusSubscription connStatusMu sync.Mutex onlineChecker *onlinechecker.DefaultOnlineChecker logger *zap.Logger // NTP Synced timesource timesource *timesource.NTPTimeSource // seededBootnodesForDiscV5 indicates whether we manage to retrieve discovery // bootnodes successfully seededBootnodesForDiscV5 bool // goingOnline is channel that notifies when connectivity has changed from offline to online goingOnline chan struct{} // discV5BootstrapNodes is the ENR to be used to fetch bootstrap nodes for discovery discV5BootstrapNodes []string onHistoricMessagesRequestFailed func([]byte, peer.ID, error) onPeerStats func(types.ConnStatus) statusTelemetryClient ITelemetryClient defaultShardInfo protocol.RelayShards } func (w *Waku) SetStatusTelemetryClient(client ITelemetryClient) { w.statusTelemetryClient = client } func newTTLCache() *ttlcache.Cache[gethcommon.Hash, *common.ReceivedMessage] { cache := ttlcache.New[gethcommon.Hash, *common.ReceivedMessage](ttlcache.WithTTL[gethcommon.Hash, *common.ReceivedMessage](cacheTTL)) go cache.Start() return cache } // New creates a WakuV2 client ready to communicate through the LibP2P network. func New(nodeKey *ecdsa.PrivateKey, fleet string, cfg *Config, logger *zap.Logger, appDB *sql.DB, ts *timesource.NTPTimeSource, onHistoricMessagesRequestFailed func([]byte, peer.ID, error), onPeerStats func(types.ConnStatus)) (*Waku, error) { var err error if logger == nil { logger, err = zap.NewDevelopment() if err != nil { return nil, err } } if ts == nil { ts = timesource.Default() } cfg = setDefaults(cfg) if err = cfg.Validate(logger); err != nil { return nil, err } logger.Info("starting wakuv2 with config", zap.Any("config", cfg)) ctx, cancel := context.WithCancel(context.Background()) waku := &Waku{ appDB: appDB, cfg: cfg, privateKeys: make(map[string]*ecdsa.PrivateKey), symKeys: make(map[string][]byte), envelopeCache: newTTLCache(), expirations: make(map[uint32]mapset.Set), msgQueue: make(chan *common.ReceivedMessage, messageQueueLimit), sendQueue: make(chan *protocol.Envelope, 1000), topicHealthStatusChan: make(chan peermanager.TopicHealthStatus, 100), connectionNotifChan: make(chan node.PeerConnection), connStatusSubscriptions: make(map[string]*types.ConnStatusSubscription), topicInterest: make(map[string]TopicInterest), ctx: ctx, cancel: cancel, wg: sync.WaitGroup{}, dnsAddressCache: make(map[string][]dnsdisc.DiscoveredNode), dnsAddressCacheLock: &sync.RWMutex{}, storeMsgIDs: make(map[gethcommon.Hash]bool), timesource: ts, storeMsgIDsMu: sync.RWMutex{}, sendMsgIDs: make(map[string]map[gethcommon.Hash]uint32), sendMsgIDsMu: sync.RWMutex{}, logger: logger, discV5BootstrapNodes: cfg.DiscV5BootstrapNodes, onHistoricMessagesRequestFailed: onHistoricMessagesRequestFailed, onPeerStats: onPeerStats, onlineChecker: onlinechecker.NewDefaultOnlineChecker(false).(*onlinechecker.DefaultOnlineChecker), } waku.filters = common.NewFilters(waku.cfg.DefaultShardPubsubTopic, waku.logger) waku.bandwidthCounter = metrics.NewBandwidthCounter() if nodeKey == nil { // No nodekey is provided, create an ephemeral key nodeKey, err = crypto.GenerateKey() if err != nil { return nil, fmt.Errorf("failed to generate a random go-waku private key: %v", err) } } hostAddr, err := net.ResolveTCPAddr("tcp", fmt.Sprint(cfg.Host, ":", cfg.Port)) if err != nil { return nil, fmt.Errorf("failed to setup the network interface: %v", err) } libp2pOpts := node.DefaultLibP2POptions libp2pOpts = append(libp2pOpts, libp2p.BandwidthReporter(waku.bandwidthCounter)) libp2pOpts = append(libp2pOpts, libp2p.NATPortMap()) opts := []node.WakuNodeOption{ node.WithLibP2POptions(libp2pOpts...), node.WithPrivateKey(nodeKey), node.WithHostAddress(hostAddr), node.WithConnectionNotification(waku.connectionNotifChan), node.WithTopicHealthStatusChannel(waku.topicHealthStatusChan), node.WithKeepAlive(randomPeersKeepAliveInterval, allPeersKeepAliveInterval), node.WithLogger(logger), node.WithLogLevel(logger.Level()), node.WithClusterID(cfg.ClusterID), node.WithMaxMsgSize(1024 * 1024), } if cfg.EnableDiscV5 { bootnodes, err := waku.getDiscV5BootstrapNodes(waku.ctx, cfg.DiscV5BootstrapNodes) if err != nil { logger.Error("failed to get bootstrap nodes", zap.Error(err)) return nil, err } opts = append(opts, node.WithDiscoveryV5(uint(cfg.UDPPort), bootnodes, cfg.AutoUpdate)) } shards, err := protocol.TopicsToRelayShards(cfg.DefaultShardPubsubTopic) if err != nil { logger.Error("FATAL ERROR: failed to parse relay shards", zap.Error(err)) return nil, errors.New("failed to parse relay shard, invalid pubsubTopic configuration") } if len(shards) == 0 { //Hack so that tests don't fail. TODO: Need to remove this once tests are changed to use proper cluster and shard. shardInfo := protocol.RelayShards{ClusterID: 0, ShardIDs: []uint16{0}} shards = append(shards, shardInfo) } waku.defaultShardInfo = shards[0] if cfg.LightClient { opts = append(opts, node.WithWakuFilterLightNode()) waku.defaultShardInfo = shards[0] opts = append(opts, node.WithMaxPeerConnections(cfg.DiscoveryLimit)) } else { relayOpts := []pubsub.Option{ pubsub.WithMaxMessageSize(int(waku.cfg.MaxMessageSize)), } if waku.logger.Level() == zap.DebugLevel { relayOpts = append(relayOpts, pubsub.WithEventTracer(waku)) } opts = append(opts, node.WithWakuRelayAndMinPeers(waku.cfg.MinPeersForRelay, relayOpts...)) opts = append(opts, node.WithMaxPeerConnections(maxRelayPeers)) cfg.EnablePeerExchangeClient = true //Enabling this until discv5 issues are resolved. This will enable more peers to be connected for relay mesh. } if cfg.EnableStore { if appDB == nil { return nil, errors.New("appDB is required for store") } opts = append(opts, node.WithWakuStore()) dbStore, err := persistence.NewDBStore(logger, persistence.WithDB(appDB), persistence.WithRetentionPolicy(cfg.StoreCapacity, time.Duration(cfg.StoreSeconds)*time.Second)) if err != nil { return nil, err } opts = append(opts, node.WithMessageProvider(dbStore)) } if !cfg.LightClient { opts = append(opts, node.WithWakuFilterFullNode(filter.WithMaxSubscribers(20))) opts = append(opts, node.WithLightPush()) } if appDB != nil { waku.protectedTopicStore, err = persistence.NewProtectedTopicsStore(logger, appDB) if err != nil { return nil, err } } waku.options = opts waku.logger.Info("setup the go-waku node successfully") return waku, nil } func (w *Waku) SubscribeToConnStatusChanges() *types.ConnStatusSubscription { w.connStatusMu.Lock() defer w.connStatusMu.Unlock() subscription := types.NewConnStatusSubscription() w.connStatusSubscriptions[subscription.ID] = subscription return subscription } func (w *Waku) GetNodeENRString() (string, error) { if w.node == nil { return "", errors.New("node not initialized") } return w.node.ENR().String(), nil } func (w *Waku) getDiscV5BootstrapNodes(ctx context.Context, addresses []string) ([]*enode.Node, error) { wg := sync.WaitGroup{} mu := sync.Mutex{} var result []*enode.Node w.seededBootnodesForDiscV5 = true retrieveENR := func(d dnsdisc.DiscoveredNode, wg *sync.WaitGroup) { mu.Lock() defer mu.Unlock() defer wg.Done() if d.ENR != nil { result = append(result, d.ENR) } } for _, addrString := range addresses { if addrString == "" { continue } if strings.HasPrefix(addrString, "enrtree://") { // Use DNS Discovery wg.Add(1) go func(addr string) { defer wg.Done() if err := w.dnsDiscover(ctx, addr, retrieveENR); err != nil { mu.Lock() w.seededBootnodesForDiscV5 = false mu.Unlock() } }(addrString) } else { // It's a normal enr bootnode, err := enode.Parse(enode.ValidSchemes, addrString) if err != nil { return nil, err } result = append(result, bootnode) } } wg.Wait() return result, nil } type fnApplyToEachPeer func(d dnsdisc.DiscoveredNode, wg *sync.WaitGroup) func (w *Waku) dnsDiscover(ctx context.Context, enrtreeAddress string, apply fnApplyToEachPeer) error { w.logger.Info("retrieving nodes", zap.String("enr", enrtreeAddress)) ctx, cancel := context.WithTimeout(ctx, requestTimeout) defer cancel() w.dnsAddressCacheLock.Lock() defer w.dnsAddressCacheLock.Unlock() discNodes, ok := w.dnsAddressCache[enrtreeAddress] if !ok { nameserver := w.cfg.Nameserver resolver := w.cfg.Resolver var opts []dnsdisc.DNSDiscoveryOption if nameserver != "" { opts = append(opts, dnsdisc.WithNameserver(nameserver)) } if resolver != nil { opts = append(opts, dnsdisc.WithResolver(resolver)) } discoveredNodes, err := dnsdisc.RetrieveNodes(ctx, enrtreeAddress, opts...) if err != nil { w.logger.Warn("dns discovery error ", zap.Error(err)) return err } if len(discoveredNodes) != 0 { w.dnsAddressCache[enrtreeAddress] = append(w.dnsAddressCache[enrtreeAddress], discoveredNodes...) discNodes = w.dnsAddressCache[enrtreeAddress] } } wg := &sync.WaitGroup{} wg.Add(len(discNodes)) for _, d := range discNodes { apply(d, wg) } wg.Wait() return nil } func (w *Waku) discoverAndConnectPeers() error { fnApply := func(d dnsdisc.DiscoveredNode, wg *sync.WaitGroup) { defer wg.Done() if len(d.PeerInfo.Addrs) != 0 { go w.connect(d.PeerInfo, d.ENR, wps.DNSDiscovery) } } for _, addrString := range w.cfg.WakuNodes { addrString := addrString if strings.HasPrefix(addrString, "enrtree://") { // Use DNS Discovery go func() { if err := w.dnsDiscover(w.ctx, addrString, fnApply); err != nil { w.logger.Error("could not obtain dns discovery peers for ClusterConfig.WakuNodes", zap.Error(err), zap.String("dnsDiscURL", addrString)) } }() } else { // It is a normal multiaddress addr, err := multiaddr.NewMultiaddr(addrString) if err != nil { w.logger.Warn("invalid peer multiaddress", zap.String("ma", addrString), zap.Error(err)) continue } peerInfo, err := peer.AddrInfoFromP2pAddr(addr) if err != nil { w.logger.Warn("invalid peer multiaddress", zap.Stringer("addr", addr), zap.Error(err)) continue } go w.connect(*peerInfo, nil, wps.Static) } } return nil } func (w *Waku) connect(peerInfo peer.AddrInfo, enr *enode.Node, origin wps.Origin) { // Connection will be prunned eventually by the connection manager if needed // The peer connector in go-waku uses Connect, so it will execute identify as part of its w.node.AddDiscoveredPeer(peerInfo.ID, peerInfo.Addrs, origin, w.cfg.DefaultShardedPubsubTopics, enr, true) } func (w *Waku) telemetryBandwidthStats(telemetryServerURL string) { if telemetryServerURL == "" { return } telemetry := NewBandwidthTelemetryClient(w.logger, telemetryServerURL) ticker := time.NewTicker(time.Second * 20) defer ticker.Stop() today := time.Now() for { select { case <-w.ctx.Done(): return case now := <-ticker.C: // Reset totals when day changes if now.Day() != today.Day() { today = now w.bandwidthCounter.Reset() } storeStats := w.bandwidthCounter.GetBandwidthForProtocol(legacy_store.StoreID_v20beta4) relayStats := w.bandwidthCounter.GetBandwidthForProtocol(relay.WakuRelayID_v200) go telemetry.PushProtocolStats(relayStats, storeStats) } } } func (w *Waku) GetStats() types.StatsSummary { stats := w.bandwidthCounter.GetBandwidthTotals() return types.StatsSummary{ UploadRate: uint64(stats.RateOut), DownloadRate: uint64(stats.RateIn), } } func (w *Waku) runPeerExchangeLoop() { defer w.wg.Done() if !w.cfg.EnablePeerExchangeClient { // Currently peer exchange client is only used for light nodes return } ticker := time.NewTicker(time.Second * 5) defer ticker.Stop() for { select { case <-w.ctx.Done(): w.logger.Debug("Peer exchange loop stopped") return case <-ticker.C: w.logger.Info("Running peer exchange loop") // We select only the nodes discovered via DNS Discovery that support peer exchange // We assume that those peers are running peer exchange according to infra config, // If not, the peer selection process in go-waku will filter them out anyway w.dnsAddressCacheLock.RLock() var peers []peer.ID for _, record := range w.dnsAddressCache { for _, discoveredNode := range record { if len(discoveredNode.PeerInfo.Addrs) == 0 { continue } // Attempt to connect to the peers. // Peers will be added to the libp2p peer store thanks to identify go w.connect(discoveredNode.PeerInfo, discoveredNode.ENR, wps.DNSDiscovery) peers = append(peers, discoveredNode.PeerID) } } w.dnsAddressCacheLock.RUnlock() if len(peers) != 0 { err := w.node.PeerExchange().Request(w.ctx, w.cfg.DiscoveryLimit, peer_exchange.WithAutomaticPeerSelection(peers...), peer_exchange.FilterByShard(int(w.defaultShardInfo.ClusterID), int(w.defaultShardInfo.ShardIDs[0]))) if err != nil { w.logger.Error("couldnt request peers via peer exchange", zap.Error(err)) } } } } } func (w *Waku) GetPubsubTopic(topic string) string { if topic == "" || !w.cfg.UseShardAsDefaultTopic { topic = w.cfg.DefaultShardPubsubTopic } return topic } func (w *Waku) unsubscribeFromPubsubTopicWithWakuRelay(topic string) error { topic = w.GetPubsubTopic(topic) if !w.node.Relay().IsSubscribed(topic) { return nil } contentFilter := protocol.NewContentFilter(topic) return w.node.Relay().Unsubscribe(w.ctx, contentFilter) } func (w *Waku) subscribeToPubsubTopicWithWakuRelay(topic string, pubkey *ecdsa.PublicKey) error { if w.cfg.LightClient { return errors.New("only available for full nodes") } topic = w.GetPubsubTopic(topic) if w.node.Relay().IsSubscribed(topic) { return nil } if pubkey != nil { err := w.node.Relay().AddSignedTopicValidator(topic, pubkey) if err != nil { return err } } contentFilter := protocol.NewContentFilter(topic) sub, err := w.node.Relay().Subscribe(w.ctx, contentFilter) if err != nil { return err } w.wg.Add(1) go func() { defer w.wg.Done() for { select { case <-w.ctx.Done(): err := w.node.Relay().Unsubscribe(w.ctx, contentFilter) if err != nil && !errors.Is(err, context.Canceled) { w.logger.Error("could not unsubscribe", zap.Error(err)) } return case env := <-sub[0].Ch: err := w.OnNewEnvelopes(env, common.RelayedMessageType, false) if err != nil { w.logger.Error("OnNewEnvelopes error", zap.Error(err)) } } } }() return nil } // MaxMessageSize returns the maximum accepted message size. func (w *Waku) MaxMessageSize() uint32 { return w.cfg.MaxMessageSize } // CurrentTime returns current time. func (w *Waku) CurrentTime() time.Time { return w.timesource.Now() } // APIs returns the RPC descriptors the Waku implementation offers func (w *Waku) APIs() []rpc.API { return []rpc.API{ { Namespace: Name, Version: VersionStr, Service: NewPublicWakuAPI(w), Public: false, }, } } // Protocols returns the waku sub-protocols ran by this particular client. func (w *Waku) Protocols() []p2p.Protocol { return []p2p.Protocol{} } func (w *Waku) SendEnvelopeEvent(event common.EnvelopeEvent) int { return w.envelopeFeed.Send(event) } // SubscribeEnvelopeEvents subscribes to envelopes feed. // In order to prevent blocking waku producers events must be amply buffered. func (w *Waku) SubscribeEnvelopeEvents(events chan<- common.EnvelopeEvent) event.Subscription { return w.envelopeFeed.Subscribe(events) } // NewKeyPair generates a new cryptographic identity for the client, and injects // it into the known identities for message decryption. Returns ID of the new key pair. func (w *Waku) NewKeyPair() (string, error) { key, err := crypto.GenerateKey() if err != nil || !validatePrivateKey(key) { key, err = crypto.GenerateKey() // retry once } if err != nil { return "", err } if !validatePrivateKey(key) { return "", fmt.Errorf("failed to generate valid key") } id, err := toDeterministicID(hexutil.Encode(crypto.FromECDSAPub(&key.PublicKey)), common.KeyIDSize) if err != nil { return "", err } w.keyMu.Lock() defer w.keyMu.Unlock() if w.privateKeys[id] != nil { return "", fmt.Errorf("failed to generate unique ID") } w.privateKeys[id] = key return id, nil } // DeleteKeyPair deletes the specified key if it exists. func (w *Waku) DeleteKeyPair(key string) bool { deterministicID, err := toDeterministicID(key, common.KeyIDSize) if err != nil { return false } w.keyMu.Lock() defer w.keyMu.Unlock() if w.privateKeys[deterministicID] != nil { delete(w.privateKeys, deterministicID) return true } return false } // AddKeyPair imports a asymmetric private key and returns it identifier. func (w *Waku) AddKeyPair(key *ecdsa.PrivateKey) (string, error) { id, err := makeDeterministicID(hexutil.Encode(crypto.FromECDSAPub(&key.PublicKey)), common.KeyIDSize) if err != nil { return "", err } if w.HasKeyPair(id) { return id, nil // no need to re-inject } w.keyMu.Lock() w.privateKeys[id] = key w.keyMu.Unlock() return id, nil } // SelectKeyPair adds cryptographic identity, and makes sure // that it is the only private key known to the node. func (w *Waku) SelectKeyPair(key *ecdsa.PrivateKey) error { id, err := makeDeterministicID(hexutil.Encode(crypto.FromECDSAPub(&key.PublicKey)), common.KeyIDSize) if err != nil { return err } w.keyMu.Lock() defer w.keyMu.Unlock() w.privateKeys = make(map[string]*ecdsa.PrivateKey) // reset key store w.privateKeys[id] = key return nil } // DeleteKeyPairs removes all cryptographic identities known to the node func (w *Waku) DeleteKeyPairs() error { w.keyMu.Lock() defer w.keyMu.Unlock() w.privateKeys = make(map[string]*ecdsa.PrivateKey) return nil } // HasKeyPair checks if the waku node is configured with the private key // of the specified public pair. func (w *Waku) HasKeyPair(id string) bool { deterministicID, err := toDeterministicID(id, common.KeyIDSize) if err != nil { return false } w.keyMu.RLock() defer w.keyMu.RUnlock() return w.privateKeys[deterministicID] != nil } // GetPrivateKey retrieves the private key of the specified identity. func (w *Waku) GetPrivateKey(id string) (*ecdsa.PrivateKey, error) { deterministicID, err := toDeterministicID(id, common.KeyIDSize) if err != nil { return nil, err } w.keyMu.RLock() defer w.keyMu.RUnlock() key := w.privateKeys[deterministicID] if key == nil { return nil, fmt.Errorf("invalid id") } return key, nil } // GenerateSymKey generates a random symmetric key and stores it under id, // which is then returned. Will be used in the future for session key exchange. func (w *Waku) GenerateSymKey() (string, error) { key, err := common.GenerateSecureRandomData(common.AESKeyLength) if err != nil { return "", err } else if !common.ValidateDataIntegrity(key, common.AESKeyLength) { return "", fmt.Errorf("error in GenerateSymKey: crypto/rand failed to generate random data") } id, err := common.GenerateRandomID() if err != nil { return "", fmt.Errorf("failed to generate ID: %s", err) } w.keyMu.Lock() defer w.keyMu.Unlock() if w.symKeys[id] != nil { return "", fmt.Errorf("failed to generate unique ID") } w.symKeys[id] = key return id, nil } // AddSymKey stores the key with a given id. func (w *Waku) AddSymKey(id string, key []byte) (string, error) { deterministicID, err := toDeterministicID(id, common.KeyIDSize) if err != nil { return "", err } w.keyMu.Lock() defer w.keyMu.Unlock() if w.symKeys[deterministicID] != nil { return "", fmt.Errorf("key already exists: %v", id) } w.symKeys[deterministicID] = key return deterministicID, nil } // AddSymKeyDirect stores the key, and returns its id. func (w *Waku) AddSymKeyDirect(key []byte) (string, error) { if len(key) != common.AESKeyLength { return "", fmt.Errorf("wrong key size: %d", len(key)) } id, err := common.GenerateRandomID() if err != nil { return "", fmt.Errorf("failed to generate ID: %s", err) } w.keyMu.Lock() defer w.keyMu.Unlock() if w.symKeys[id] != nil { return "", fmt.Errorf("failed to generate unique ID") } w.symKeys[id] = key return id, nil } // AddSymKeyFromPassword generates the key from password, stores it, and returns its id. func (w *Waku) AddSymKeyFromPassword(password string) (string, error) { id, err := common.GenerateRandomID() if err != nil { return "", fmt.Errorf("failed to generate ID: %s", err) } if w.HasSymKey(id) { return "", fmt.Errorf("failed to generate unique ID") } // kdf should run no less than 0.1 seconds on an average computer, // because it's an once in a session experience derived := pbkdf2.Key([]byte(password), nil, 65356, common.AESKeyLength, sha256.New) w.keyMu.Lock() defer w.keyMu.Unlock() // double check is necessary, because deriveKeyMaterial() is very slow if w.symKeys[id] != nil { return "", fmt.Errorf("critical error: failed to generate unique ID") } w.symKeys[id] = derived return id, nil } // HasSymKey returns true if there is a key associated with the given id. // Otherwise returns false. func (w *Waku) HasSymKey(id string) bool { w.keyMu.RLock() defer w.keyMu.RUnlock() return w.symKeys[id] != nil } // DeleteSymKey deletes the key associated with the name string if it exists. func (w *Waku) DeleteSymKey(id string) bool { w.keyMu.Lock() defer w.keyMu.Unlock() if w.symKeys[id] != nil { delete(w.symKeys, id) return true } return false } // GetSymKey returns the symmetric key associated with the given id. func (w *Waku) GetSymKey(id string) ([]byte, error) { w.keyMu.RLock() defer w.keyMu.RUnlock() if w.symKeys[id] != nil { return w.symKeys[id], nil } return nil, fmt.Errorf("non-existent key ID") } // Subscribe installs a new message handler used for filtering, decrypting // and subsequent storing of incoming messages. func (w *Waku) Subscribe(f *common.Filter) (string, error) { f.PubsubTopic = w.GetPubsubTopic(f.PubsubTopic) id, err := w.filters.Install(f) if err != nil { return id, err } if w.cfg.LightClient { w.filterManager.addFilter(id, f) } return id, nil } // Unsubscribe removes an installed message handler. func (w *Waku) Unsubscribe(ctx context.Context, id string) error { ok := w.filters.Uninstall(id) if !ok { return fmt.Errorf("failed to unsubscribe: invalid ID '%s'", id) } if w.cfg.LightClient { w.filterManager.removeFilter(id) } return nil } // GetFilter returns the filter by id. func (w *Waku) GetFilter(id string) *common.Filter { return w.filters.Get(id) } // Unsubscribe removes an installed message handler. func (w *Waku) UnsubscribeMany(ids []string) error { for _, id := range ids { w.logger.Info("cleaning up filter", zap.String("id", id)) ok := w.filters.Uninstall(id) if !ok { w.logger.Warn("could not remove filter with id", zap.String("id", id)) } } return nil } func (w *Waku) SkipPublishToTopic(value bool) { w.cfg.SkipPublishToTopic = value } type PublishMethod int const ( LightPush PublishMethod = iota Relay ) func (pm PublishMethod) String() string { switch pm { case LightPush: return "LightPush" case Relay: return "Relay" default: return "Unknown" } } func (w *Waku) broadcast() { for { select { case envelope := <-w.sendQueue: logger := w.logger.With(zap.Stringer("envelopeHash", envelope.Hash()), zap.String("pubsubTopic", envelope.PubsubTopic()), zap.String("contentTopic", envelope.Message().ContentTopic), zap.Int64("timestamp", envelope.Message().GetTimestamp())) var fn publishFn var publishMethod PublishMethod if w.cfg.SkipPublishToTopic { // For now only used in testing to simulate going offline publishMethod = LightPush fn = func(env *protocol.Envelope, logger *zap.Logger) error { return errors.New("test send failure") } } else if w.cfg.LightClient { publishMethod = LightPush fn = func(env *protocol.Envelope, logger *zap.Logger) error { logger.Info("publishing message via lightpush") _, err := w.node.Lightpush().Publish(w.ctx, env.Message(), lightpush.WithPubSubTopic(env.PubsubTopic())) return err } } else { publishMethod = Relay fn = func(env *protocol.Envelope, logger *zap.Logger) error { peerCnt := len(w.node.Relay().PubSub().ListPeers(env.PubsubTopic())) logger.Info("publishing message via relay", zap.Int("peerCnt", peerCnt)) _, err := w.node.Relay().Publish(w.ctx, env.Message(), relay.WithPubSubTopic(env.PubsubTopic())) return err } } // Wraps the publish function with a call to the telemetry client if w.statusTelemetryClient != nil { sendFn := fn fn = func(env *protocol.Envelope, logger *zap.Logger) error { err := sendFn(env, logger) if err == nil { w.statusTelemetryClient.PushSentEnvelope(SentEnvelope{Envelope: env, PublishMethod: publishMethod}) } else { w.statusTelemetryClient.PushErrorSendingEnvelope(ErrorSendingEnvelope{Error: err, SentEnvelope: SentEnvelope{Envelope: env, PublishMethod: publishMethod}}) } return err } } w.wg.Add(1) go w.publishEnvelope(envelope, fn, logger) case <-w.ctx.Done(): return } } } func (w *Waku) checkIfMessagesStored() { ticker := time.NewTicker(hashQueryInterval) defer ticker.Stop() for { select { case <-w.ctx.Done(): w.logger.Debug("stop the look for message stored check") return case <-ticker.C: w.sendMsgIDsMu.Lock() w.logger.Debug("running loop for messages stored check", zap.Any("messageIds", w.sendMsgIDs)) pubsubTopics := make([]string, 0, len(w.sendMsgIDs)) pubsubMessageIds := make([][]gethcommon.Hash, 0, len(w.sendMsgIDs)) pubsubMessageTime := make([][]uint32, 0, len(w.sendMsgIDs)) for pubsubTopic, subMsgs := range w.sendMsgIDs { var queryMsgIds []gethcommon.Hash var queryMsgTime []uint32 for msgID, sendTime := range subMsgs { if len(queryMsgIds) >= maxHashQueryLength { break } // message is sent 5 seconds ago, check if it's stored if uint32(w.timesource.Now().Unix()) > sendTime+messageSentPeriod { queryMsgIds = append(queryMsgIds, msgID) queryMsgTime = append(queryMsgTime, sendTime) } } w.logger.Debug("store query for message hashes", zap.Any("queryMsgIds", queryMsgIds), zap.String("pubsubTopic", pubsubTopic)) if len(queryMsgIds) > 0 { pubsubTopics = append(pubsubTopics, pubsubTopic) pubsubMessageIds = append(pubsubMessageIds, queryMsgIds) pubsubMessageTime = append(pubsubMessageTime, queryMsgTime) } } w.sendMsgIDsMu.Unlock() pubsubProcessedMessages := make([][]gethcommon.Hash, len(pubsubTopics)) for i, pubsubTopic := range pubsubTopics { processedMessages := w.messageHashBasedQuery(w.ctx, pubsubMessageIds[i], pubsubMessageTime[i], pubsubTopic) pubsubProcessedMessages[i] = processedMessages } w.sendMsgIDsMu.Lock() for i, pubsubTopic := range pubsubTopics { subMsgs, ok := w.sendMsgIDs[pubsubTopic] if !ok { continue } for _, hash := range pubsubProcessedMessages[i] { delete(subMsgs, hash) if len(subMsgs) == 0 { delete(w.sendMsgIDs, pubsubTopic) } else { w.sendMsgIDs[pubsubTopic] = subMsgs } } } w.logger.Debug("messages for next store hash query", zap.Any("messageIds", w.sendMsgIDs)) w.sendMsgIDsMu.Unlock() } } } func (w *Waku) ConfirmMessageDelivered(hashes []gethcommon.Hash) { w.sendMsgIDsMu.Lock() defer w.sendMsgIDsMu.Unlock() for pubsubTopic, subMsgs := range w.sendMsgIDs { for _, hash := range hashes { delete(subMsgs, hash) if len(subMsgs) == 0 { delete(w.sendMsgIDs, pubsubTopic) } else { w.sendMsgIDs[pubsubTopic] = subMsgs } } } } func (w *Waku) SetStorePeerID(peerID peer.ID) { w.storePeerID = peerID } type publishFn = func(envelope *protocol.Envelope, logger *zap.Logger) error func (w *Waku) publishEnvelope(envelope *protocol.Envelope, publishFn publishFn, logger *zap.Logger) { defer w.wg.Done() if err := publishFn(envelope, logger); err != nil { logger.Error("could not send message", zap.Error(err)) w.SendEnvelopeEvent(common.EnvelopeEvent{ Hash: gethcommon.BytesToHash(envelope.Hash().Bytes()), Event: common.EventEnvelopeExpired, }) } } // Send injects a message into the waku send queue, to be distributed in the // network in the coming cycles. func (w *Waku) Send(pubsubTopic string, msg *pb.WakuMessage) ([]byte, error) { pubsubTopic = w.GetPubsubTopic(pubsubTopic) if w.protectedTopicStore != nil { privKey, err := w.protectedTopicStore.FetchPrivateKey(pubsubTopic) if err != nil { return nil, err } if privKey != nil { err = relay.SignMessage(privKey, msg, pubsubTopic) if err != nil { return nil, err } } } envelope := protocol.NewEnvelope(msg, msg.GetTimestamp(), pubsubTopic) w.sendQueue <- envelope w.poolMu.Lock() alreadyCached := w.envelopeCache.Has(gethcommon.BytesToHash(envelope.Hash().Bytes())) w.poolMu.Unlock() if !alreadyCached { recvMessage := common.NewReceivedMessage(envelope, common.SendMessageType) w.postEvent(recvMessage) // notify the local node about the new message w.addEnvelope(recvMessage) } return envelope.Hash().Bytes(), nil } // ctx, peer, r.PubsubTopic, contentTopics, uint64(r.From), uint64(r.To), options, processEnvelopes func (w *Waku) messageHashBasedQuery(ctx context.Context, hashes []gethcommon.Hash, relayTime []uint32, pubsubTopic string) []gethcommon.Hash { selectedPeer := w.storePeerID if selectedPeer == "" { w.logger.Error("no store peer id available", zap.String("pubsubTopic", pubsubTopic)) return []gethcommon.Hash{} } var opts []store.RequestOption requestID := protocol.GenerateRequestID() opts = append(opts, store.WithRequestID(requestID)) opts = append(opts, store.WithPeer(selectedPeer)) opts = append(opts, store.WithPaging(false, maxHashQueryLength)) opts = append(opts, store.IncludeData(false)) messageHashes := make([]pb.MessageHash, len(hashes)) for i, hash := range hashes { messageHashes[i] = pb.ToMessageHash(hash.Bytes()) } w.logger.Debug("store.queryByHash request", zap.String("requestID", hexutil.Encode(requestID)), zap.Stringer("peerID", selectedPeer), zap.Any("messageHashes", messageHashes)) result, err := w.node.Store().QueryByHash(ctx, messageHashes, opts...) if err != nil { w.logger.Error("store.queryByHash failed", zap.String("requestID", hexutil.Encode(requestID)), zap.Stringer("peerID", selectedPeer), zap.Error(err)) return []gethcommon.Hash{} } w.logger.Debug("store.queryByHash result", zap.String("requestID", hexutil.Encode(requestID)), zap.Int("messages", len(result.Messages()))) var ackHashes []gethcommon.Hash var missedHashes []gethcommon.Hash for i, hash := range hashes { found := false for _, msg := range result.Messages() { if bytes.Equal(msg.GetMessageHash(), hash.Bytes()) { found = true break } } if found { ackHashes = append(ackHashes, hash) w.SendEnvelopeEvent(common.EnvelopeEvent{ Hash: hash, Event: common.EventEnvelopeSent, }) } if !found && uint32(w.timesource.Now().Unix()) > relayTime[i]+messageExpiredPerid { missedHashes = append(missedHashes, hash) w.SendEnvelopeEvent(common.EnvelopeEvent{ Hash: hash, Event: common.EventEnvelopeExpired, }) } } w.logger.Debug("ack message hashes", zap.Any("ackHashes", ackHashes)) w.logger.Debug("missed message hashes", zap.Any("missedHashes", missedHashes)) return append(ackHashes, missedHashes...) } func (w *Waku) Query(ctx context.Context, peerID peer.ID, query legacy_store.Query, cursor *storepb.Index, opts []legacy_store.HistoryRequestOption, processEnvelopes bool) (*storepb.Index, int, error) { requestID := protocol.GenerateRequestID() opts = append(opts, legacy_store.WithRequestID(requestID), legacy_store.WithPeer(peerID), legacy_store.WithCursor(cursor)) logger := w.logger.With(zap.String("requestID", hexutil.Encode(requestID)), zap.Stringer("peerID", peerID)) logger.Debug("store.query", logutils.WakuMessageTimestamp("startTime", query.StartTime), logutils.WakuMessageTimestamp("endTime", query.EndTime), zap.Strings("contentTopics", query.ContentTopics), zap.String("pubsubTopic", query.PubsubTopic), zap.Stringer("cursor", cursor), ) queryStart := time.Now() result, err := w.node.LegacyStore().Query(ctx, query, opts...) queryDuration := time.Since(queryStart) if err != nil { logger.Error("error querying storenode", zap.Error(err)) if w.onHistoricMessagesRequestFailed != nil { w.onHistoricMessagesRequestFailed(requestID, peerID, err) } return nil, 0, err } logger.Debug("store.query response", zap.Duration("queryDuration", queryDuration), zap.Int("numMessages", len(result.Messages)), zap.Stringer("cursor", result.Cursor())) for _, msg := range result.Messages { // Temporarily setting RateLimitProof to nil so it matches the WakuMessage protobuffer we are sending // See https://github.com/vacp2p/rfc/issues/563 msg.RateLimitProof = nil envelope := protocol.NewEnvelope(msg, msg.GetTimestamp(), query.PubsubTopic) logger.Info("received waku2 store message", zap.Stringer("envelopeHash", envelope.Hash()), zap.String("pubsubTopic", query.PubsubTopic), zap.Int64p("timestamp", envelope.Message().Timestamp), ) err = w.OnNewEnvelopes(envelope, common.StoreMessageType, processEnvelopes) if err != nil { return nil, 0, err } } return result.Cursor(), len(result.Messages), nil } // Start implements node.Service, starting the background data propagation thread // of the Waku protocol. func (w *Waku) Start() error { if w.ctx == nil { w.ctx, w.cancel = context.WithCancel(context.Background()) } var err error if w.node, err = node.New(w.options...); err != nil { return fmt.Errorf("failed to create a go-waku node: %v", err) } w.goingOnline = make(chan struct{}) if err = w.node.Start(w.ctx); err != nil { return fmt.Errorf("failed to start go-waku node: %v", err) } w.logger.Info("WakuV2 PeerID", zap.Stringer("id", w.node.Host().ID())) if err = w.discoverAndConnectPeers(); err != nil { return fmt.Errorf("failed to add wakuv2 peers: %v", err) } if w.cfg.EnableDiscV5 { err := w.node.DiscV5().Start(w.ctx) if err != nil { return err } } if w.cfg.EnablePeerExchangeServer { err := w.node.PeerExchange().Start(w.ctx) if err != nil { return err } } w.wg.Add(2) go func() { defer w.wg.Done() for { select { case <-w.ctx.Done(): return case <-w.topicHealthStatusChan: // TODO: https://github.com/status-im/status-go/issues/4628 case <-w.connectionNotifChan: isOnline := len(w.node.Host().Network().Peers()) > 0 if w.cfg.LightClient { // TODO: Temporary changes for lightNodes to have health check based on connected peers. //This needs to be enhanced to be based on healthy Filter and lightPush peers available for each shard. //This would get fixed as part of https://github.com/waku-org/go-waku/issues/1114 subs := w.node.FilterLightnode().Subscriptions() w.logger.Debug("filter subs count", zap.Int("count", len(subs))) //TODO: needs fixing, right now invoking everytime. //Trigger FilterManager to take care of any pending filter subscriptions //TODO: Pass pubsubTopic based on topicHealth notif received. go w.filterManager.onConnectionStatusChange(w.cfg.DefaultShardPubsubTopic, isOnline) } w.connStatusMu.Lock() latestConnStatus := types.ConnStatus{ IsOnline: isOnline, Peers: FormatPeerStats(w.node), } w.logger.Debug("peer stats", zap.Int("peersCount", len(latestConnStatus.Peers)), zap.Any("stats", latestConnStatus)) for k, subs := range w.connStatusSubscriptions { if !subs.Send(latestConnStatus) { delete(w.connStatusSubscriptions, k) } } w.connStatusMu.Unlock() if w.onPeerStats != nil { w.onPeerStats(latestConnStatus) } //TODO: analyze if we need to discover and connect to peers with peerExchange loop enabled. if !w.onlineChecker.IsOnline() && isOnline { if err := w.discoverAndConnectPeers(); err != nil { w.logger.Error("failed to add wakuv2 peers", zap.Error(err)) } } w.ConnectionChanged(connection.State{ Offline: !latestConnStatus.IsOnline, }) } } }() go w.telemetryBandwidthStats(w.cfg.TelemetryServerURL) //TODO: commenting for now so that only fleet nodes are used. //Need to uncomment once filter peer scoring etc is implemented. go w.runPeerExchangeLoop() if w.cfg.EnableMissingMessageVerification { w.wg.Add(1) go w.checkForMissingMessages() } if w.cfg.LightClient { // Create FilterManager that will main peer connectivity // for installed filters w.filterManager = newFilterManager(w.ctx, w.logger, w.cfg, func(env *protocol.Envelope) error { return w.OnNewEnvelopes(env, common.RelayedMessageType, false) }, w.node.FilterLightnode()) } err = w.setupRelaySubscriptions() if err != nil { return err } numCPU := runtime.NumCPU() for i := 0; i < numCPU; i++ { go w.processQueueLoop() } go w.broadcast() go w.checkIfMessagesStored() // we should wait `seedBootnodesForDiscV5` shutdown smoothly before set w.ctx to nil within `w.Stop()` w.wg.Add(1) go w.seedBootnodesForDiscV5() return nil } func (w *Waku) setupRelaySubscriptions() error { if w.cfg.LightClient { return nil } if w.protectedTopicStore != nil { protectedTopics, err := w.protectedTopicStore.ProtectedTopics() if err != nil { return err } for _, pt := range protectedTopics { // Adding subscription to protected topics err = w.subscribeToPubsubTopicWithWakuRelay(pt.Topic, pt.PubKey) if err != nil { return err } } } err := w.subscribeToPubsubTopicWithWakuRelay(w.cfg.DefaultShardPubsubTopic, nil) if err != nil { return err } return nil } // Stop implements node.Service, stopping the background data propagation thread // of the Waku protocol. func (w *Waku) Stop() error { w.cancel() w.envelopeCache.Stop() w.node.Stop() if w.protectedTopicStore != nil { err := w.protectedTopicStore.Close() if err != nil { return err } } close(w.goingOnline) w.wg.Wait() w.ctx = nil w.cancel = nil return nil } func (w *Waku) OnNewEnvelopes(envelope *protocol.Envelope, msgType common.MessageType, processImmediately bool) error { if envelope == nil { return nil } recvMessage := common.NewReceivedMessage(envelope, msgType) if recvMessage == nil { return nil } if w.statusTelemetryClient != nil { w.statusTelemetryClient.PushReceivedEnvelope(envelope) } logger := w.logger.With( zap.Any("messageType", msgType), zap.Stringer("envelopeHash", envelope.Hash()), zap.String("contentTopic", envelope.Message().ContentTopic), zap.Int64("timestamp", envelope.Message().GetTimestamp()), ) logger.Debug("received new envelope") trouble := false _, err := w.add(recvMessage, processImmediately) if err != nil { logger.Info("invalid envelope received", zap.Error(err)) trouble = true } common.EnvelopesValidatedCounter.Inc() if trouble { return errors.New("received invalid envelope") } return nil } // addEnvelope adds an envelope to the envelope map, used for sending func (w *Waku) addEnvelope(envelope *common.ReceivedMessage) { w.poolMu.Lock() w.envelopeCache.Set(envelope.Hash(), envelope, ttlcache.DefaultTTL) w.poolMu.Unlock() } func (w *Waku) add(recvMessage *common.ReceivedMessage, processImmediately bool) (bool, error) { common.EnvelopesReceivedCounter.Inc() w.poolMu.Lock() envelope := w.envelopeCache.Get(recvMessage.Hash()) alreadyCached := envelope != nil w.poolMu.Unlock() if !alreadyCached { recvMessage.Processed.Store(false) w.addEnvelope(recvMessage) } logger := w.logger.With(zap.String("envelopeHash", recvMessage.Hash().Hex())) if alreadyCached { logger.Debug("w envelope already cached") common.EnvelopesCachedCounter.WithLabelValues("hit").Inc() } else { logger.Debug("cached w envelope") common.EnvelopesCachedCounter.WithLabelValues("miss").Inc() common.EnvelopesSizeMeter.Observe(float64(len(recvMessage.Envelope.Message().Payload))) } if !alreadyCached || !envelope.Value().Processed.Load() { if processImmediately { logger.Debug("immediately processing envelope") w.processMessage(recvMessage) } else { logger.Debug("posting event") w.postEvent(recvMessage) // notify the local node about the new message } } return true, nil } // postEvent queues the message for further processing. func (w *Waku) postEvent(envelope *common.ReceivedMessage) { w.msgQueue <- envelope } // processQueueLoop delivers the messages to the watchers during the lifetime of the waku node. func (w *Waku) processQueueLoop() { if w.ctx == nil { return } for { select { case <-w.ctx.Done(): return case e := <-w.msgQueue: w.processMessage(e) } } } func (w *Waku) processMessage(e *common.ReceivedMessage) { logger := w.logger.With( zap.Stringer("envelopeHash", e.Envelope.Hash()), zap.String("pubsubTopic", e.PubsubTopic), zap.String("contentTopic", e.ContentTopic.ContentTopic()), zap.Int64("timestamp", e.Envelope.Message().GetTimestamp()), ) if e.MsgType == common.StoreMessageType { // We need to insert it first, and then remove it if not matched, // as messages are processed asynchronously w.storeMsgIDsMu.Lock() w.storeMsgIDs[e.Hash()] = true w.storeMsgIDsMu.Unlock() } ephemeral := e.Envelope.Message().Ephemeral if e.MsgType == common.SendMessageType && (ephemeral == nil || !*ephemeral) { w.sendMsgIDsMu.Lock() subMsgs, ok := w.sendMsgIDs[e.PubsubTopic] if !ok { subMsgs = make(map[gethcommon.Hash]uint32) } subMsgs[e.Hash()] = e.Sent w.sendMsgIDs[e.PubsubTopic] = subMsgs w.sendMsgIDsMu.Unlock() } matched := w.filters.NotifyWatchers(e) // If not matched we remove it if !matched { logger.Debug("filters did not match") w.storeMsgIDsMu.Lock() delete(w.storeMsgIDs, e.Hash()) w.storeMsgIDsMu.Unlock() } else { logger.Debug("filters did match") e.Processed.Store(true) } w.envelopeFeed.Send(common.EnvelopeEvent{ Topic: e.ContentTopic, Hash: e.Hash(), Event: common.EventEnvelopeAvailable, }) } // GetEnvelope retrieves an envelope from the message queue by its hash. // It returns nil if the envelope can not be found. func (w *Waku) GetEnvelope(hash gethcommon.Hash) *common.ReceivedMessage { w.poolMu.RLock() defer w.poolMu.RUnlock() envelope := w.envelopeCache.Get(hash) if envelope == nil { return nil } return envelope.Value() } // isEnvelopeCached checks if envelope with specific hash has already been received and cached. func (w *Waku) IsEnvelopeCached(hash gethcommon.Hash) bool { w.poolMu.Lock() defer w.poolMu.Unlock() return w.envelopeCache.Has(hash) } func (w *Waku) ClearEnvelopesCache() { w.poolMu.Lock() defer w.poolMu.Unlock() w.envelopeCache.Stop() w.envelopeCache = newTTLCache() } func (w *Waku) PeerCount() int { return w.node.PeerCount() } func (w *Waku) Peers() map[string]types.WakuV2Peer { return FormatPeerStats(w.node) } func (w *Waku) RelayPeersByTopic(topic string) (*types.PeerList, error) { if w.cfg.LightClient { return nil, errors.New("only available in relay mode") } return &types.PeerList{ FullMeshPeers: w.node.Relay().PubSub().MeshPeers(topic), AllPeers: w.node.Relay().PubSub().ListPeers(topic), }, nil } func (w *Waku) ListenAddresses() []string { addrs := w.node.ListenAddresses() var result []string for _, addr := range addrs { result = append(result, addr.String()) } return result } func (w *Waku) ENR() (string, error) { enr := w.node.ENR() if enr == nil { return "", errors.New("enr not available") } return enr.String(), nil } func (w *Waku) SubscribeToPubsubTopic(topic string, pubkey *ecdsa.PublicKey) error { topic = w.GetPubsubTopic(topic) if !w.cfg.LightClient { err := w.subscribeToPubsubTopicWithWakuRelay(topic, pubkey) if err != nil { return err } } return nil } func (w *Waku) UnsubscribeFromPubsubTopic(topic string) error { topic = w.GetPubsubTopic(topic) if !w.cfg.LightClient { err := w.unsubscribeFromPubsubTopicWithWakuRelay(topic) if err != nil { return err } } return nil } func (w *Waku) RetrievePubsubTopicKey(topic string) (*ecdsa.PrivateKey, error) { topic = w.GetPubsubTopic(topic) if w.protectedTopicStore == nil { return nil, nil } return w.protectedTopicStore.FetchPrivateKey(topic) } func (w *Waku) StorePubsubTopicKey(topic string, privKey *ecdsa.PrivateKey) error { topic = w.GetPubsubTopic(topic) if w.protectedTopicStore == nil { return nil } return w.protectedTopicStore.Insert(topic, privKey, &privKey.PublicKey) } func (w *Waku) RemovePubsubTopicKey(topic string) error { topic = w.GetPubsubTopic(topic) if w.protectedTopicStore == nil { return nil } return w.protectedTopicStore.Delete(topic) } func (w *Waku) StartDiscV5() error { if w.node.DiscV5() == nil { return errors.New("discv5 is not setup") } return w.node.DiscV5().Start(w.ctx) } func (w *Waku) StopDiscV5() error { if w.node.DiscV5() == nil { return errors.New("discv5 is not setup") } w.node.DiscV5().Stop() return nil } func (w *Waku) ConnectionChanged(state connection.State) { if !state.Offline && !w.onlineChecker.IsOnline() { select { case w.goingOnline <- struct{}{}: default: w.logger.Warn("could not write on connection changed channel") } } w.onlineChecker.SetOnline(!state.Offline) } // seedBootnodesForDiscV5 tries to fetch bootnodes // from an ENR periodically. // It backs off exponentially until maxRetries, at which point it restarts from 0 // It also restarts if there's a connection change signalled from the client func (w *Waku) seedBootnodesForDiscV5() { if !w.cfg.EnableDiscV5 || w.node.DiscV5() == nil { w.wg.Done() return } ticker := time.NewTicker(500 * time.Millisecond) defer ticker.Stop() var retries = 0 now := func() int64 { return time.Now().UnixNano() / int64(time.Millisecond) } var lastTry = now() canQuery := func() bool { backoff := bootnodesQueryBackoffMs * int64(math.Exp2(float64(retries))) return lastTry+backoff < now() } for { select { case <-ticker.C: if w.seededBootnodesForDiscV5 && len(w.node.Host().Network().Peers()) > 3 { w.logger.Debug("not querying bootnodes", zap.Bool("seeded", w.seededBootnodesForDiscV5), zap.Int("peer-count", len(w.node.Host().Network().Peers()))) continue } if canQuery() { w.logger.Info("querying bootnodes to restore connectivity", zap.Int("peer-count", len(w.node.Host().Network().Peers()))) err := w.restartDiscV5() if err != nil { w.logger.Warn("failed to restart discv5", zap.Error(err)) } lastTry = now() retries++ // We reset the retries after a while and restart if retries > bootnodesMaxRetries { retries = 0 } } else { w.logger.Info("can't query bootnodes", zap.Int("peer-count", len(w.node.Host().Network().Peers())), zap.Int64("lastTry", lastTry), zap.Int64("now", now()), zap.Int64("backoff", bootnodesQueryBackoffMs*int64(math.Exp2(float64(retries)))), zap.Int("retries", retries)) } // If we go online, trigger immediately case <-w.goingOnline: if w.cfg.EnableDiscV5 { if canQuery() { err := w.restartDiscV5() if err != nil { w.logger.Warn("failed to restart discv5", zap.Error(err)) } } retries = 0 lastTry = now() } case <-w.ctx.Done(): w.wg.Done() w.logger.Debug("bootnode seeding stopped") return } } } // Restart discv5, re-retrieving bootstrap nodes func (w *Waku) restartDiscV5() error { ctx, cancel := context.WithTimeout(w.ctx, 30*time.Second) defer cancel() bootnodes, err := w.getDiscV5BootstrapNodes(ctx, w.discV5BootstrapNodes) if err != nil { return err } if len(bootnodes) == 0 { return errors.New("failed to fetch bootnodes") } if w.node.DiscV5().ErrOnNotRunning() != nil { w.logger.Info("is not started restarting") err := w.node.DiscV5().Start(w.ctx) if err != nil { w.logger.Error("Could not start DiscV5", zap.Error(err)) } } else { w.node.DiscV5().Stop() w.logger.Info("is started restarting") select { case <-w.ctx.Done(): // Don't start discv5 if we are stopping waku return nil default: } err := w.node.DiscV5().Start(w.ctx) if err != nil { w.logger.Error("Could not start DiscV5", zap.Error(err)) } } w.logger.Info("restarting discv5 with nodes", zap.Any("nodes", bootnodes)) return w.node.SetDiscV5Bootnodes(bootnodes) } func (w *Waku) AddStorePeer(address string) (peer.ID, error) { addr, err := multiaddr.NewMultiaddr(address) if err != nil { return "", err } peerID, err := w.node.AddPeer(addr, wps.Static, []string{}, legacy_store.StoreID_v20beta4) if err != nil { return "", err } return peerID, nil } func (w *Waku) timestamp() int64 { return w.timesource.Now().UnixNano() } func (w *Waku) AddRelayPeer(address string) (peer.ID, error) { addr, err := multiaddr.NewMultiaddr(address) if err != nil { return "", err } peerID, err := w.node.AddPeer(addr, wps.Static, []string{}, relay.WakuRelayID_v200) if err != nil { return "", err } return peerID, nil } func (w *Waku) DialPeer(address string) error { ctx, cancel := context.WithTimeout(w.ctx, requestTimeout) defer cancel() return w.node.DialPeer(ctx, address) } func (w *Waku) DialPeerByID(peerID string) error { ctx, cancel := context.WithTimeout(w.ctx, requestTimeout) defer cancel() pid, err := peer.Decode(peerID) if err != nil { return err } return w.node.DialPeerByID(ctx, pid) } func (w *Waku) DropPeer(peerID string) error { pid, err := peer.Decode(peerID) if err != nil { return err } return w.node.ClosePeerById(pid) } func (w *Waku) ProcessingP2PMessages() bool { w.storeMsgIDsMu.Lock() defer w.storeMsgIDsMu.Unlock() return len(w.storeMsgIDs) != 0 } func (w *Waku) MarkP2PMessageAsProcessed(hash gethcommon.Hash) { w.storeMsgIDsMu.Lock() defer w.storeMsgIDsMu.Unlock() delete(w.storeMsgIDs, hash) } func (w *Waku) Clean() error { w.msgQueue = make(chan *common.ReceivedMessage, messageQueueLimit) for _, f := range w.filters.All() { f.Messages = common.NewMemoryMessageStore() } return nil } func (w *Waku) PeerID() peer.ID { return w.node.Host().ID() } func (w *Waku) Peerstore() peerstore.Peerstore { return w.node.Host().Peerstore() } // validatePrivateKey checks the format of the given private key. func validatePrivateKey(k *ecdsa.PrivateKey) bool { if k == nil || k.D == nil || k.D.Sign() == 0 { return false } return common.ValidatePublicKey(&k.PublicKey) } // makeDeterministicID generates a deterministic ID, based on a given input func makeDeterministicID(input string, keyLen int) (id string, err error) { buf := pbkdf2.Key([]byte(input), nil, 4096, keyLen, sha256.New) if !common.ValidateDataIntegrity(buf, common.KeyIDSize) { return "", fmt.Errorf("error in GenerateDeterministicID: failed to generate key") } id = gethcommon.Bytes2Hex(buf) return id, err } // toDeterministicID reviews incoming id, and transforms it to format // expected internally be private key store. Originally, public keys // were used as keys, now random keys are being used. And in order to // make it easier to consume, we now allow both random IDs and public // keys to be passed. func toDeterministicID(id string, expectedLen int) (string, error) { if len(id) != (expectedLen * 2) { // we received hex key, so number of chars in id is doubled var err error id, err = makeDeterministicID(id, expectedLen) if err != nil { return "", err } } return id, nil } func FormatPeerStats(wakuNode *node.WakuNode) map[string]types.WakuV2Peer { p := make(map[string]types.WakuV2Peer) for k, v := range wakuNode.PeerStats() { peerInfo := wakuNode.Host().Peerstore().PeerInfo(k) wakuV2Peer := types.WakuV2Peer{} wakuV2Peer.Protocols = v hostInfo, _ := multiaddr.NewMultiaddr(fmt.Sprintf("/p2p/%s", k.String())) for _, addr := range peerInfo.Addrs { wakuV2Peer.Addresses = append(wakuV2Peer.Addresses, addr.Encapsulate(hostInfo).String()) } p[k.String()] = wakuV2Peer } return p } func (w *Waku) StoreNode() legacy_store.Store { return w.node.LegacyStore() }