status-go/wakuv2/waku.go

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// 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 <http://www.gnu.org/licenses/>.
//
// 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 (
"context"
"crypto/ecdsa"
"crypto/sha256"
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"database/sql"
"errors"
"fmt"
"math"
"net"
"runtime"
"strings"
"sync"
"time"
"github.com/libp2p/go-libp2p/core/peer"
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"github.com/libp2p/go-libp2p/p2p/protocol/identify"
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"github.com/multiformats/go-multiaddr"
"google.golang.org/protobuf/proto"
"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"
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"github.com/libp2p/go-libp2p"
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pubsub "github.com/libp2p/go-libp2p-pubsub"
"github.com/libp2p/go-libp2p/core/metrics"
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"github.com/waku-org/go-waku/waku/v2/dnsdisc"
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/lightpush"
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"github.com/waku-org/go-waku/waku/v2/protocol/peer_exchange"
"github.com/waku-org/go-waku/waku/v2/protocol/relay"
"github.com/status-im/status-go/connection"
"github.com/status-im/status-go/eth-node/types"
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"github.com/status-im/status-go/timesource"
"github.com/status-im/status-go/wakuv2/common"
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"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"
"github.com/waku-org/go-waku/waku/v2/protocol/store"
storepb "github.com/waku-org/go-waku/waku/v2/protocol/store/pb"
)
const messageQueueLimit = 1024
const requestTimeout = 30 * time.Second
const bootnodesQueryBackoffMs = 200
const bootnodesMaxRetries = 7
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type ITelemetryClient interface {
PushReceivedEnvelope(*protocol.Envelope)
}
// Waku represents a dark communication interface through the Ethereum
// network, using its very own P2P communication layer.
type Waku struct {
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node *node.WakuNode // reference to a libp2p waku node
identifyService identify.IDService
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
envelopes map[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
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bandwidthCounter *metrics.BandwidthCounter
protectedTopicStore *persistence.ProtectedTopicsStore
sendQueue chan *protocol.Envelope
msgQueue chan *common.ReceivedMessage // Message queue for waku messages that havent been decoded
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
connStatusChan chan node.ConnStatus
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connStatusSubscriptions map[string]*types.ConnStatusSubscription
connStatusMu sync.Mutex
logger *zap.Logger
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// NTP Synced timesource
timesource *timesource.NTPTimeSource
// seededBootnodesForDiscV5 indicates whether we manage to retrieve discovery
// bootnodes successfully
seededBootnodesForDiscV5 bool
// offline indicates whether we have detected connectivity
offline bool
// connectionChanged is channel that notifies when connectivity has changed
connectionChanged chan struct{}
// discV5BootstrapNodes is the ENR to be used to fetch bootstrap nodes for discovery
discV5BootstrapNodes []string
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onHistoricMessagesRequestFailed func([]byte, peer.ID, error)
onPeerStats func(types.ConnStatus)
statusTelemetryClient ITelemetryClient
}
func (w *Waku) SetStatusTelemetryClient(client ITelemetryClient) {
w.statusTelemetryClient = client
}
// New creates a WakuV2 client ready to communicate through the LibP2P network.
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func New(nodeKey string, 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
}
}
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if ts == nil {
ts = timesource.Default()
}
cfg = setDefaults(cfg)
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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{
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appDB: appDB,
cfg: cfg,
privateKeys: make(map[string]*ecdsa.PrivateKey),
symKeys: make(map[string][]byte),
envelopes: make(map[gethcommon.Hash]*common.ReceivedMessage),
expirations: make(map[uint32]mapset.Set),
msgQueue: make(chan *common.ReceivedMessage, messageQueueLimit),
sendQueue: make(chan *protocol.Envelope, 1000),
connStatusChan: make(chan node.ConnStatus, 100),
connStatusSubscriptions: make(map[string]*types.ConnStatusSubscription),
ctx: ctx,
cancel: cancel,
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wg: sync.WaitGroup{},
dnsAddressCache: make(map[string][]dnsdisc.DiscoveredNode),
dnsAddressCacheLock: &sync.RWMutex{},
storeMsgIDs: make(map[gethcommon.Hash]bool),
timesource: ts,
storeMsgIDsMu: sync.RWMutex{},
logger: logger,
discV5BootstrapNodes: cfg.DiscV5BootstrapNodes,
onHistoricMessagesRequestFailed: onHistoricMessagesRequestFailed,
onPeerStats: onPeerStats,
}
waku.filters = common.NewFilters(waku.cfg.DefaultShardPubsubTopic, waku.logger)
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waku.bandwidthCounter = metrics.NewBandwidthCounter()
var privateKey *ecdsa.PrivateKey
if nodeKey != "" {
privateKey, err = crypto.HexToECDSA(nodeKey)
} else {
// If no nodekey is provided, create an ephemeral key
privateKey, err = crypto.GenerateKey()
}
if err != nil {
return nil, fmt.Errorf("failed to setup the 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)
}
if cfg.KeepAliveInterval == 0 {
cfg.KeepAliveInterval = DefaultConfig.KeepAliveInterval
}
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libp2pOpts := node.DefaultLibP2POptions
libp2pOpts = append(libp2pOpts, libp2p.BandwidthReporter(waku.bandwidthCounter))
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libp2pOpts = append(libp2pOpts, libp2p.NATPortMap())
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opts := []node.WakuNodeOption{
node.WithLibP2POptions(libp2pOpts...),
node.WithPrivateKey(privateKey),
node.WithHostAddress(hostAddr),
node.WithConnectionStatusChannel(waku.connStatusChan),
node.WithKeepAlive(time.Duration(cfg.KeepAliveInterval) * time.Second),
node.WithMaxPeerConnections(cfg.DiscoveryLimit),
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node.WithLogger(logger),
node.WithLogLevel(logger.Level()),
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node.WithClusterID(cfg.ClusterID),
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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))
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}
if cfg.LightClient {
opts = append(opts, node.WithWakuFilterLightNode())
} else {
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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...))
}
if cfg.EnableStore {
if appDB == nil {
return nil, errors.New("appDB is required for store")
}
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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
}
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func (w *Waku) SubscribeToConnStatusChanges() *types.ConnStatusSubscription {
w.connStatusMu.Lock()
defer w.connStatusMu.Unlock()
subscription := types.NewConnStatusSubscription()
w.connStatusSubscriptions[subscription.ID] = subscription
return subscription
}
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func (w *Waku) getDiscV5BootstrapNodes(ctx context.Context, addresses []string) ([]*enode.Node, error) {
wg := sync.WaitGroup{}
mu := sync.Mutex{}
var result []*enode.Node
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retrieveENR := func(d dnsdisc.DiscoveredNode, wg *sync.WaitGroup) {
mu.Lock()
defer mu.Unlock()
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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()
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w.dnsDiscover(ctx, addr, retrieveENR)
}(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()
w.seededBootnodesForDiscV5 = len(result) > 0
return result, nil
}
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type fnApplyToEachPeer func(d dnsdisc.DiscoveredNode, wg *sync.WaitGroup)
func (w *Waku) dnsDiscover(ctx context.Context, enrtreeAddress string, apply fnApplyToEachPeer) {
w.logger.Info("retrieving nodes", zap.String("enr", enrtreeAddress))
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ctx, cancel := context.WithTimeout(ctx, requestTimeout)
defer cancel()
w.dnsAddressCacheLock.Lock()
defer w.dnsAddressCacheLock.Unlock()
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discNodes, ok := w.dnsAddressCache[enrtreeAddress]
if !ok {
nameserver := w.cfg.Nameserver
resolver := w.cfg.Resolver
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var opts []dnsdisc.DNSDiscoveryOption
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if nameserver != "" {
opts = append(opts, dnsdisc.WithNameserver(nameserver))
}
if resolver != nil {
opts = append(opts, dnsdisc.WithResolver(resolver))
}
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discoveredNodes, err := dnsdisc.RetrieveNodes(ctx, enrtreeAddress, opts...)
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if err != nil {
w.logger.Warn("dns discovery error ", zap.Error(err))
return
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}
if len(discoveredNodes) != 0 {
w.dnsAddressCache[enrtreeAddress] = append(w.dnsAddressCache[enrtreeAddress], discoveredNodes...)
discNodes = w.dnsAddressCache[enrtreeAddress]
}
}
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wg := &sync.WaitGroup{}
wg.Add(len(discNodes))
for _, d := range discNodes {
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apply(d, wg)
}
wg.Wait()
}
func (w *Waku) discoverAndConnectPeers() error {
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fnApply := func(d dnsdisc.DiscoveredNode, wg *sync.WaitGroup) {
defer wg.Done()
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if len(d.PeerInfo.Addrs) != 0 {
go w.identifyAndConnect(w.ctx, w.cfg.LightClient, d.PeerInfo)
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}
}
for _, addrString := range w.cfg.WakuNodes {
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addrString := addrString
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if strings.HasPrefix(addrString, "enrtree://") {
// Use DNS Discovery
go w.dnsDiscover(w.ctx, addrString, fnApply)
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} 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.identifyAndConnect(w.ctx, w.cfg.LightClient, *peerInfo)
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}
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}
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return nil
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}
func (w *Waku) identifyAndConnect(ctx context.Context, isLightClient bool, peerInfo peer.AddrInfo) {
ctx, cancel := context.WithTimeout(ctx, 7*time.Second)
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defer cancel()
err := w.node.Host().Connect(ctx, peerInfo)
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if err != nil {
w.logger.Error("could not connect to peer", zap.Any("peer", peerInfo), zap.Error(err))
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return
}
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conns := w.node.Host().Network().ConnsToPeer(peerInfo.ID)
if len(conns) == 0 {
return // No connection
}
select {
case <-w.ctx.Done():
return
case <-w.identifyService.IdentifyWait(conns[0]):
if isLightClient {
err = w.node.Host().Network().ClosePeer(peerInfo.ID)
if err != nil {
w.logger.Error("could not close connections to peer", zap.Stringer("peer", peerInfo.ID), zap.Error(err))
}
return
}
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supportedProtocols, err := w.node.Host().Peerstore().SupportsProtocols(peerInfo.ID, relay.WakuRelayID_v200)
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if err != nil {
w.logger.Error("could not obtain protocols", zap.Stringer("peer", peerInfo.ID), zap.Error(err))
return
}
if len(supportedProtocols) == 0 {
err = w.node.Host().Network().ClosePeer(peerInfo.ID)
if err != nil {
w.logger.Error("could not close connections to peer", zap.Stringer("peer", peerInfo.ID), zap.Error(err))
}
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}
}
}
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func (w *Waku) telemetryBandwidthStats(telemetryServerURL string) {
if telemetryServerURL == "" {
return
}
telemetry := NewBandwidthTelemetryClient(w.logger, telemetryServerURL)
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ticker := time.NewTicker(time.Second * 20)
defer ticker.Stop()
today := time.Now()
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for {
select {
case <-w.ctx.Done():
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return
case now := <-ticker.C:
// Reset totals when day changes
if now.Day() != today.Day() {
today = now
w.bandwidthCounter.Reset()
}
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storeStats := w.bandwidthCounter.GetBandwidthForProtocol(store.StoreID_v20beta4)
relayStats := w.bandwidthCounter.GetBandwidthForProtocol(relay.WakuRelayID_v200)
go telemetry.PushProtocolStats(relayStats, storeStats)
}
}
}
func (w *Waku) GetStats() types.StatsSummary {
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stats := w.bandwidthCounter.GetBandwidthTotals()
return types.StatsSummary{
UploadRate: uint64(stats.RateOut),
DownloadRate: uint64(stats.RateIn),
}
}
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func (w *Waku) runPeerExchangeLoop() {
defer w.wg.Done()
if !w.cfg.EnablePeerExchangeClient {
// Currently peer exchange client is only used for light nodes
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return
}
ticker := time.NewTicker(time.Second * 5)
defer ticker.Stop()
for {
select {
case <-w.ctx.Done():
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w.logger.Debug("Peer exchange loop stopped")
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return
case <-ticker.C:
w.logger.Info("Running peer exchange loop")
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availablePeers := w.node.Host().Peerstore().Peers()
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peersWithRelay := 0
for _, p := range availablePeers {
supportedProtocols, err := w.node.Host().Peerstore().SupportsProtocols(p, relay.WakuRelayID_v200)
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if err != nil {
continue
}
if len(supportedProtocols) != 0 {
peersWithRelay++
}
}
peersToDiscover := w.cfg.DiscoveryLimit - peersWithRelay
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if peersToDiscover <= 0 {
continue
}
// We select only the nodes discovered via DNS Discovery that support peer exchange
w.dnsAddressCacheLock.RLock()
for _, record := range w.dnsAddressCache {
for _, discoveredNode := range record {
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if len(discoveredNode.PeerInfo.Addrs) == 0 {
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continue
}
go w.identifyAndConnect(w.ctx, true, discoveredNode.PeerInfo)
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}
}
w.dnsAddressCacheLock.RUnlock()
err := w.node.PeerExchange().Request(w.ctx, peersToDiscover, peer_exchange.WithAutomaticPeerSelection())
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if err != nil {
w.logger.Error("couldnt request peers via peer exchange", zap.Error(err))
}
}
}
}
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func (w *Waku) getPubsubTopic(topic string) string {
if topic == "" || !w.cfg.UseShardAsDefaultTopic {
topic = w.cfg.DefaultShardPubsubTopic
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}
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")
}
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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))
}
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}
}
}()
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 {
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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) {
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f.PubsubTopic = w.getPubsubTopic(f.PubsubTopic)
id, err := w.filters.Install(f)
if err != nil {
return id, err
}
if w.cfg.LightClient {
w.filterManager.eventChan <- FilterEvent{eventType: FilterEventAdded, filterID: id}
}
return id, nil
}
// Unsubscribe removes an installed message handler.
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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.eventChan <- FilterEvent{eventType: FilterEventRemoved, filterID: id}
}
return nil
}
// Used for testing
func (w *Waku) getFilterStats() FilterSubs {
ch := make(chan FilterSubs)
w.filterManager.eventChan <- FilterEvent{eventType: FilterEventGetStats, ch: ch}
stats := <-ch
return stats
}
// 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
}
func (w *Waku) broadcast() {
for {
select {
case envelope := <-w.sendQueue:
logger := w.logger.With(zap.String("envelopeHash", hexutil.Encode(envelope.Hash())), zap.String("pubsubTopic", envelope.PubsubTopic()), zap.String("contentTopic", envelope.Message().ContentTopic), zap.Int64("timestamp", envelope.Message().GetTimestamp()))
var fn publishFn
if w.cfg.SkipPublishToTopic {
// For now only used in testing to simulate going offline
fn = func(env *protocol.Envelope, logger *zap.Logger) error {
return errors.New("test send failure")
}
} else if w.cfg.LightClient {
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 {
fn = func(env *protocol.Envelope, logger *zap.Logger) error {
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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
}
}
w.wg.Add(1)
go w.publishEnvelope(envelope, fn, logger)
case <-w.ctx.Done():
return
}
}
}
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()
var event common.EventType
if err := publishFn(envelope, logger); err != nil {
logger.Error("could not send message", zap.Error(err))
event = common.EventEnvelopeExpired
} else {
event = common.EventEnvelopeSent
}
w.SendEnvelopeEvent(common.EnvelopeEvent{
Hash: gethcommon.BytesToHash(envelope.Hash()),
Event: event,
})
}
// 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) {
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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.envelopes[gethcommon.BytesToHash(envelope.Hash())]
w.poolMu.Unlock()
if !alreadyCached {
recvMessage := common.NewReceivedMessage(envelope, common.RelayedMessageType)
w.postEvent(recvMessage) // notify the local node about the new message
w.addEnvelope(recvMessage)
}
return envelope.Hash(), nil
}
func (w *Waku) query(ctx context.Context, peerID peer.ID, pubsubTopic string, topics []common.TopicType, from uint64, to uint64, requestID []byte, opts []store.HistoryRequestOption) (*store.Result, error) {
opts = append(opts, store.WithRequestID(requestID))
strTopics := make([]string, len(topics))
for i, t := range topics {
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strTopics[i] = t.ContentTopic()
}
opts = append(opts, store.WithPeer(peerID))
query := store.Query{
StartTime: proto.Int64(int64(from) * int64(time.Second)),
EndTime: proto.Int64(int64(to) * int64(time.Second)),
ContentTopics: strTopics,
PubsubTopic: pubsubTopic,
}
w.logger.Debug("store.query",
zap.String("requestID", hexutil.Encode(requestID)),
zap.Int64p("startTime", query.StartTime),
zap.Int64p("endTime", query.EndTime),
zap.Strings("contentTopics", query.ContentTopics),
zap.String("pubsubTopic", query.PubsubTopic),
zap.Stringer("peerID", peerID))
return w.node.Store().Query(ctx, query, opts...)
}
func (w *Waku) Query(ctx context.Context, peerID peer.ID, pubsubTopic string, topics []common.TopicType, from uint64, to uint64, opts []store.HistoryRequestOption, processEnvelopes bool) (cursor *storepb.Index, envelopesCount int, err error) {
requestID := protocol.GenerateRequestID()
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pubsubTopic = w.getPubsubTopic(pubsubTopic)
result, err := w.query(ctx, peerID, pubsubTopic, topics, from, to, requestID, opts)
if err != nil {
w.logger.Error("error querying storenode",
zap.String("requestID", hexutil.Encode(requestID)),
zap.String("peerID", peerID.String()),
zap.Error(err))
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if w.onHistoricMessagesRequestFailed != nil {
w.onHistoricMessagesRequestFailed(requestID, peerID, err)
}
return nil, 0, err
}
envelopesCount = len(result.Messages)
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(), pubsubTopic)
w.logger.Info("received waku2 store message",
zap.Any("envelopeHash", hexutil.Encode(envelope.Hash())),
zap.String("pubsubTopic", pubsubTopic),
zap.Int64p("timestamp", envelope.Message().Timestamp),
)
err = w.OnNewEnvelopes(envelope, common.StoreMessageType, processEnvelopes)
if err != nil {
return nil, 0, err
}
}
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if !result.IsComplete() {
cursor = result.Cursor()
}
return
}
// Start implements node.Service, starting the background data propagation thread
// of the Waku protocol.
func (w *Waku) Start() error {
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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)
}
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w.connectionChanged = 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()))
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idService, err := identify.NewIDService(w.node.Host())
if err != nil {
return err
}
idService.Start()
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w.identifyService = idService
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()
isConnected := false
for {
select {
case <-w.ctx.Done():
return
case c := <-w.connStatusChan:
w.connStatusMu.Lock()
latestConnStatus := formatConnStatus(w.node, c)
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()
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if w.onPeerStats != nil {
w.onPeerStats(latestConnStatus)
}
if w.cfg.EnableDiscV5 {
// Restarting DiscV5
if !latestConnStatus.IsOnline && isConnected {
w.logger.Info("Restarting DiscV5: offline and is connected")
isConnected = false
w.node.DiscV5().Stop()
} else if latestConnStatus.IsOnline && !isConnected {
w.logger.Info("Restarting DiscV5: online and is not connected")
isConnected = true
if w.node.DiscV5().ErrOnNotRunning() != nil {
err := w.node.DiscV5().Start(w.ctx)
if err != nil {
w.logger.Error("Could not start DiscV5", zap.Error(err))
}
}
}
}
}
}
}()
go w.telemetryBandwidthStats(w.cfg.TelemetryServerURL)
go w.runPeerExchangeLoop()
if w.cfg.LightClient {
// Create FilterManager that will main peer connectivity
// for installed filters
w.filterManager = newFilterManager(w.ctx, w.logger,
func(id string) *common.Filter { return w.GetFilter(id) },
w.cfg,
func(env *protocol.Envelope) error { return w.OnNewEnvelopes(env, common.RelayedMessageType, false) },
w.node)
w.wg.Add(1)
go w.filterManager.runFilterLoop(&w.wg)
}
err = w.setupRelaySubscriptions()
if err != nil {
return err
}
numCPU := runtime.NumCPU()
for i := 0; i < numCPU; i++ {
go w.processQueueLoop()
}
go w.broadcast()
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// 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()
err := w.identifyService.Close()
if err != nil {
return err
}
w.node.Stop()
if w.protectedTopicStore != nil {
err = w.protectedTopicStore.Close()
if err != nil {
return err
}
}
close(w.connectionChanged)
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w.wg.Wait()
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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
}
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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.String("envelopeHash", hexutil.Encode(envelope.Hash())),
zap.String("contentTopic", envelope.Message().ContentTopic),
zap.Int64("timestamp", envelope.Message().GetTimestamp()),
)
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logger.Debug("received new envelope")
trouble := false
_, err := w.add(recvMessage, processImmediately)
if err != nil {
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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) {
hash := envelope.Hash()
w.poolMu.Lock()
w.envelopes[hash] = envelope
w.poolMu.Unlock()
}
func (w *Waku) add(recvMessage *common.ReceivedMessage, processImmediately bool) (bool, error) {
common.EnvelopesReceivedCounter.Inc()
hash := recvMessage.Hash()
w.poolMu.Lock()
envelope, alreadyCached := w.envelopes[hash]
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.Processed.Load() {
if processImmediately {
logger.Debug("immediately processing envelope")
w.processReceivedMessage(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.processReceivedMessage(e)
}
}
}
func (w *Waku) processReceivedMessage(e *common.ReceivedMessage) {
logger := w.logger.With(
zap.String("envelopeHash", hexutil.Encode(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()
}
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,
})
}
// Envelopes retrieves all the messages currently pooled by the node.
func (w *Waku) Envelopes() []*common.ReceivedMessage {
w.poolMu.RLock()
defer w.poolMu.RUnlock()
all := make([]*common.ReceivedMessage, 0, len(w.envelopes))
for _, envelope := range w.envelopes {
all = append(all, envelope)
}
return all
}
// 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()
return w.envelopes[hash]
}
// 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()
_, exist := w.envelopes[hash]
return exist
}
func (w *Waku) ClearEnvelopesCache() {
w.poolMu.Lock()
defer w.poolMu.Unlock()
w.envelopes = make(map[gethcommon.Hash]*common.ReceivedMessage)
}
func (w *Waku) PeerCount() int {
return w.node.PeerCount()
}
func (w *Waku) Peers() map[string]types.WakuV2Peer {
return FormatPeerStats(w.node, w.node.PeerStats())
}
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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) SubscribeToPubsubTopic(topic string, pubkey *ecdsa.PublicKey) error {
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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) {
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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 {
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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.offline {
select {
case w.connectionChanged <- struct{}{}:
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default:
w.logger.Warn("could not write on connection changed channel")
}
}
w.offline = !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 {
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w.wg.Done()
return
}
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ticker := time.NewTicker(500 * time.Millisecond)
defer ticker.Stop()
var retries = 0
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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:
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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())))
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continue
}
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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))
}
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lastTry = now()
retries++
// We reset the retries after a while and restart
if retries > bootnodesMaxRetries {
retries = 0
}
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} 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))
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}
// If we go online, trigger immediately
case <-w.connectionChanged:
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if canQuery() {
err := w.restartDiscV5()
if err != nil {
w.logger.Warn("failed to restart discv5", zap.Error(err))
}
}
retries = 0
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lastTry = now()
case <-w.ctx.Done():
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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 {
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w.logger.Info("is not started restarting")
err := w.node.DiscV5().Start(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:
}
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err := w.node.DiscV5().Start(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) {
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addr, err := multiaddr.NewMultiaddr(address)
if err != nil {
return "", err
}
peerID, err := w.node.AddPeer(addr, wps.Static, []string{}, store.StoreID_v20beta4)
if err != nil {
return "", err
}
return peerID, nil
}
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func (w *Waku) timestamp() int64 {
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return w.timesource.Now().UnixNano()
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}
func (w *Waku) AddRelayPeer(address string) (peer.ID, error) {
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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)
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defer cancel()
return w.node.DialPeer(ctx, address)
}
func (w *Waku) DialPeerByID(peerID string) error {
ctx, cancel := context.WithTimeout(w.ctx, requestTimeout)
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defer cancel()
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pid, err := peer.Decode(peerID)
if err != nil {
return err
}
return w.node.DialPeerByID(ctx, pid)
}
func (w *Waku) DropPeer(peerID string) error {
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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()
}
// 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, peers node.PeerStats) map[string]types.WakuV2Peer {
p := make(map[string]types.WakuV2Peer)
for k, v := range peers {
peerInfo := wakuNode.Host().Peerstore().PeerInfo(k)
wakuV2Peer := types.WakuV2Peer{}
wakuV2Peer.Protocols = v
hostInfo, _ := multiaddr.NewMultiaddr(fmt.Sprintf("/p2p/%s", k.Pretty()))
for _, addr := range peerInfo.Addrs {
wakuV2Peer.Addresses = append(wakuV2Peer.Addresses, addr.Encapsulate(hostInfo).String())
}
p[k.String()] = wakuV2Peer
}
return p
}
func formatConnStatus(wakuNode *node.WakuNode, c node.ConnStatus) types.ConnStatus {
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return types.ConnStatus{
IsOnline: c.IsOnline,
HasHistory: c.HasHistory,
Peers: FormatPeerStats(wakuNode, c.Peers),
}
}
func (w *Waku) StoreNode() store.Store {
return w.node.Store()
}