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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"
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"errors"
"fmt"
"net"
"runtime"
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"strings"
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"sync"
"time"
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"github.com/libp2p/go-libp2p-core/peer"
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"github.com/libp2p/go-libp2p-peerstore/pstoreds"
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"github.com/multiformats/go-multiaddr"
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"go.uber.org/zap"
mapset "github.com/deckarep/golang-set"
"golang.org/x/crypto/pbkdf2"
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dssql "github.com/ipfs/go-ds-sql"
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gethcommon "github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/hexutil"
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"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/event"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/p2p"
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"github.com/ethereum/go-ethereum/p2p/enode"
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"github.com/ethereum/go-ethereum/rpc"
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"github.com/libp2p/go-libp2p"
"github.com/libp2p/go-libp2p-core/metrics"
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pubsub "github.com/libp2p/go-libp2p-pubsub"
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libp2pproto "github.com/libp2p/go-libp2p-core/protocol"
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rendezvous "github.com/status-im/go-waku-rendezvous"
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"github.com/status-im/go-waku/waku/v2/dnsdisc"
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"github.com/status-im/go-waku/waku/v2/protocol"
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wakuprotocol "github.com/status-im/go-waku/waku/v2/protocol"
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"github.com/status-im/go-waku/waku/v2/protocol/filter"
"github.com/status-im/go-waku/waku/v2/protocol/lightpush"
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"github.com/status-im/go-waku/waku/v2/protocol/relay"
"github.com/status-im/status-go/eth-node/types"
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"github.com/status-im/status-go/signal"
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"github.com/status-im/status-go/wakuv2/common"
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"github.com/status-im/status-go/wakuv2/persistence"
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"github.com/libp2p/go-libp2p-core/discovery"
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node "github.com/status-im/go-waku/waku/v2/node"
"github.com/status-im/go-waku/waku/v2/protocol/pb"
"github.com/status-im/go-waku/waku/v2/protocol/store"
)
const messageQueueLimit = 1024
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const requestTimeout = 5 * time . Second
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type settings struct {
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LightClient bool // Indicates if the node is a light client
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MinPeersForRelay int // Indicates the minimum number of peers required for using Relay Protocol instead of Lightpush
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MaxMsgSize uint32 // Maximal message length allowed by the waku node
EnableConfirmations bool // Enable sending message confirmations
SoftBlacklistedPeerIDs map [ string ] bool // SoftBlacklistedPeerIDs is a list of peer ids that we want to keep connected but silently drop any envelope from
}
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type ConnStatus struct {
IsOnline bool ` json:"isOnline" `
HasHistory bool ` json:"hasHistory" `
Peers map [ string ] [ ] string ` json:"peers" `
}
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// 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
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dnsAddressCache map [ string ] [ ] multiaddr . Multiaddr // Map to store the multiaddresses returned by dns discovery
dnsAddressCacheLock * sync . RWMutex // lock to handle access to the map
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filters * common . Filters // Message filters installed with Subscribe function
filterMsgChannel chan * protocol . Envelope // Channel for wakuv2 filter messages
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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
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sendQueue chan * pb . WakuMessage
msgQueue chan * common . ReceivedMessage // Message queue for waku messages that havent been decoded
quit chan struct { } // Channel used for graceful exit
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settings settings // Holds configuration settings that can be dynamically changed
settingsMu sync . RWMutex // Mutex to sync the settings access
envelopeFeed event . Feed
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storeMsgIDs map [ gethcommon . Hash ] bool // Map of the currently processing ids
storeMsgIDsMu sync . RWMutex
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timeSource func ( ) time . Time // source of time for waku
logger * zap . Logger
}
// New creates a WakuV2 client ready to communicate through the LibP2P network.
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func New ( nodeKey string , cfg * Config , logger * zap . Logger , appdb * sql . DB ) ( * Waku , error ) {
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if logger == nil {
logger = zap . NewNop ( )
}
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cfg = setDefaults ( cfg )
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logger . Debug ( "starting wakuv2 with config" , zap . Any ( "config" , cfg ) )
waku := & Waku {
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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 ) ,
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sendQueue : make ( chan * pb . WakuMessage , 1000 ) ,
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quit : make ( chan struct { } ) ,
dnsAddressCache : make ( map [ string ] [ ] multiaddr . Multiaddr ) ,
dnsAddressCacheLock : & sync . RWMutex { } ,
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storeMsgIDs : make ( map [ gethcommon . Hash ] bool ) ,
storeMsgIDsMu : sync . RWMutex { } ,
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timeSource : time . Now ,
logger : logger ,
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}
waku . settings = settings {
MaxMsgSize : cfg . MaxMessageSize ,
SoftBlacklistedPeerIDs : make ( map [ string ] bool ) ,
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LightClient : cfg . LightClient ,
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MinPeersForRelay : cfg . MinPeersForRelay ,
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}
waku . filters = common . NewFilters ( )
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waku . bandwidthCounter = metrics . NewBandwidthCounter ( )
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waku . filterMsgChannel = make ( chan * protocol . Envelope , 1024 )
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var privateKey * ecdsa . PrivateKey
var err error
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 )
}
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ctx := context . Background ( )
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connStatusChan := make ( chan node . ConnStatus , 100 )
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if cfg . KeepAliveInterval == 0 {
cfg . KeepAliveInterval = DefaultConfig . KeepAliveInterval
}
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libp2pOpts := node . DefaultLibP2POptions
libp2pOpts = append ( libp2pOpts , libp2p . BandwidthReporter ( waku . bandwidthCounter ) )
if cfg . PersistPeers {
if appdb == nil {
return nil , fmt . Errorf ( "a db connection must be provided in order to persist the peers" )
}
// Create persistent peerstore
queries , err := persistence . NewQueries ( "peerstore" , appdb )
if err != nil {
return nil , fmt . Errorf ( "failed to setup peerstore table: %v" , err )
}
datastore := dssql . NewDatastore ( appdb , queries )
opts := pstoreds . DefaultOpts ( )
peerStore , err := pstoreds . NewPeerstore ( ctx , datastore , opts )
if err != nil {
return nil , fmt . Errorf ( "failed to setup peerstore: %v" , err )
}
libp2pOpts = append ( libp2pOpts , libp2p . Peerstore ( peerStore ) )
}
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opts := [ ] node . WakuNodeOption {
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node . WithLibP2POptions ( libp2pOpts ... ) ,
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node . WithPrivateKey ( privateKey ) ,
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node . WithHostAddress ( hostAddr ) ,
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node . WithConnectionStatusChannel ( connStatusChan ) ,
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node . WithKeepAlive ( time . Duration ( cfg . KeepAliveInterval ) * time . Second ) ,
}
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if cfg . Rendezvous {
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opts = append ( opts , node . WithRendezvous ( pubsub . WithDiscoveryOpts ( discovery . Limit ( cfg . DiscoveryLimit ) ) ) )
}
if cfg . EnableDiscV5 {
var bootnodes [ ] * enode . Node
for _ , addr := range cfg . DiscV5BootstrapNodes {
bootnode , err := enode . Parse ( enode . ValidSchemes , addr )
if err != nil {
return nil , err
}
bootnodes = append ( bootnodes , bootnode )
}
opts = append ( opts , node . WithDiscoveryV5 ( cfg . UDPPort , bootnodes , cfg . AutoUpdate , pubsub . WithDiscoveryOpts ( discovery . Limit ( cfg . DiscoveryLimit ) ) ) )
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}
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if cfg . LightClient {
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opts = append ( opts , node . WithWakuFilter ( false ) )
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} else {
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relayOpts := [ ] pubsub . Option {
pubsub . WithMaxMessageSize ( int ( waku . settings . MaxMsgSize ) ) ,
pubsub . WithPeerExchange ( cfg . PeerExchange ) ,
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}
if cfg . PeerExchange {
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relayOpts = append ( relayOpts , pubsub . WithPeerExchange ( true ) )
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}
opts = append ( opts , node . WithWakuRelay ( relayOpts ... ) )
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}
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if waku . node , err = node . New ( ctx , opts ... ) ; err != nil {
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return nil , fmt . Errorf ( "failed to create a go-waku node: %v" , err )
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}
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waku . addWakuV2Peers ( cfg )
if err = waku . node . Start ( ) ; err != nil {
return nil , fmt . Errorf ( "failed to start go-waku node: %v" , err )
}
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go func ( ) {
for {
select {
case <- waku . quit :
return
case c := <- connStatusChan :
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signal . SendPeerStats ( formatConnStatus ( c ) )
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}
}
} ( )
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go waku . runFilterMsgLoop ( )
go waku . runRelayMsgLoop ( )
log . Info ( "setup the go-waku node successfully" )
return waku , nil
}
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type fnApplyToEachPeer func ( ma multiaddr . Multiaddr , protocol libp2pproto . ID )
func ( w * Waku ) addPeers ( addresses [ ] string , protocol libp2pproto . ID , apply fnApplyToEachPeer ) {
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for _ , addrString := range addresses {
if addrString == "" {
continue
}
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if strings . HasPrefix ( addrString , "enrtree://" ) {
// Use DNS Discovery
go w . dnsDiscover ( addrString , protocol , apply )
} else {
// It's a normal multiaddress
w . addPeerFromString ( addrString , protocol , apply )
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}
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}
}
func ( w * Waku ) dnsDiscover ( enrtreeAddress string , protocol libp2pproto . ID , apply fnApplyToEachPeer ) {
ctx , cancel := context . WithTimeout ( context . Background ( ) , 5 * time . Second )
defer cancel ( )
w . dnsAddressCacheLock . RLock ( )
multiaddresses , ok := w . dnsAddressCache [ enrtreeAddress ]
w . dnsAddressCacheLock . RUnlock ( )
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if ! ok {
w . dnsAddressCacheLock . Lock ( )
var err error
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multiaddresses , err = dnsdisc . RetrieveNodes ( ctx , enrtreeAddress )
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w . dnsAddressCache [ enrtreeAddress ] = multiaddresses
w . dnsAddressCacheLock . Unlock ( )
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if err != nil {
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log . Warn ( "dns discovery error " , err )
return
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}
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}
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for _ , m := range multiaddresses {
apply ( m , protocol )
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}
}
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func ( w * Waku ) addPeerFromString ( addrString string , protocol libp2pproto . ID , apply fnApplyToEachPeer ) {
addr , err := multiaddr . NewMultiaddr ( addrString )
if err != nil {
log . Warn ( "invalid peer multiaddress" , addrString , err )
return
}
apply ( addr , protocol )
}
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func ( w * Waku ) addWakuV2Peers ( cfg * Config ) {
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if ! cfg . LightClient {
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addRelayPeer := func ( m multiaddr . Multiaddr , protocol libp2pproto . ID ) {
go func ( node multiaddr . Multiaddr ) {
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ctx , cancel := context . WithTimeout ( context . Background ( ) , requestTimeout )
defer cancel ( )
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err := w . node . DialPeerWithMultiAddress ( ctx , node )
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if err != nil {
log . Warn ( "could not dial peer" , err )
} else {
log . Info ( "relay peer dialed successfully" , node )
}
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} ( m )
}
w . addPeers ( cfg . RelayNodes , relay . WakuRelayID_v200 , addRelayPeer )
}
addToStore := func ( m multiaddr . Multiaddr , protocol libp2pproto . ID ) {
peerID , err := w . node . AddPeer ( m , protocol )
if err != nil {
log . Warn ( "could not add peer" , m , err )
return
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}
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log . Info ( "peer added successfully" , peerID )
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}
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w . addPeers ( cfg . StoreNodes , store . StoreID_v20beta3 , addToStore )
w . addPeers ( cfg . FilterNodes , filter . FilterID_v20beta1 , addToStore )
w . addPeers ( cfg . LightpushNodes , lightpush . LightPushID_v20beta1 , addToStore )
w . addPeers ( cfg . WakuRendezvousNodes , rendezvous . RendezvousID_v001 , addToStore )
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}
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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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}
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func ( w * Waku ) runRelayMsgLoop ( ) {
if w . settings . LightClient {
return
}
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sub , err := w . node . Relay ( ) . Subscribe ( context . Background ( ) )
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if err != nil {
fmt . Println ( "Could not subscribe:" , err )
return
}
for env := range sub . C {
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envelopeErrors , err := w . OnNewEnvelopes ( env , common . RelayedMessageType )
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// TODO: should these be handled?
_ = envelopeErrors
_ = err
}
}
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func ( w * Waku ) runFilterMsgLoop ( ) {
if ! w . settings . LightClient {
return
}
for {
select {
case <- w . quit :
return
case env := <- w . filterMsgChannel :
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envelopeErrors , err := w . OnNewEnvelopes ( env , common . RelayedMessageType )
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// TODO: should these be handled?
_ = envelopeErrors
_ = err
}
}
}
func ( w * Waku ) subscribeWakuFilterTopic ( topics [ ] [ ] byte ) {
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var contentTopics [ ] string
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for _ , topic := range topics {
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contentTopics = append ( contentTopics , common . BytesToTopic ( topic ) . ContentTopic ( ) )
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}
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var err error
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contentFilter := filter . ContentFilter {
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Topic : relay . DefaultWakuTopic ,
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ContentTopics : contentTopics ,
}
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var wakuFilter filter . Filter
_ , wakuFilter , err = w . node . Filter ( ) . Subscribe ( context . Background ( ) , contentFilter )
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if err != nil {
w . logger . Warn ( "could not add wakuv2 filter for topics" , zap . Any ( "topics" , topics ) )
return
}
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w . filterMsgChannel = wakuFilter . Chan
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}
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// MaxMessageSize returns the maximum accepted message size.
func ( w * Waku ) MaxMessageSize ( ) uint32 {
w . settingsMu . RLock ( )
defer w . settingsMu . RUnlock ( )
return w . settings . MaxMsgSize
}
// ConfirmationsEnabled returns true if message confirmations are enabled.
func ( w * Waku ) ConfirmationsEnabled ( ) bool {
w . settingsMu . RLock ( )
defer w . settingsMu . RUnlock ( )
return w . settings . EnableConfirmations
}
// CurrentTime returns current time.
func ( w * Waku ) CurrentTime ( ) time . Time {
return w . timeSource ( )
}
// SetTimeSource assigns a particular source of time to a waku object.
func ( w * Waku ) SetTimeSource ( timesource func ( ) time . Time ) {
w . timeSource = timesource
}
// 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 ) {
s , err := w . filters . Install ( f )
if err != nil {
return s , err
}
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if w . settings . LightClient {
w . subscribeWakuFilterTopic ( f . Topics )
}
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return s , 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 ) Unsubscribe ( id string ) error {
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f := w . filters . Get ( id )
if f != nil && w . settings . LightClient {
contentFilter := filter . ContentFilter {
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Topic : relay . DefaultWakuTopic ,
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}
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for _ , topic := range f . Topics {
contentFilter . ContentTopics = append ( contentFilter . ContentTopics , common . BytesToTopic ( topic ) . ContentTopic ( ) )
}
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if err := w . node . Filter ( ) . UnsubscribeFilter ( context . Background ( ) , contentFilter ) ; err != nil {
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return fmt . Errorf ( "failed to unsubscribe: %w" , err )
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}
}
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ok := w . filters . Uninstall ( id )
if ! ok {
return fmt . Errorf ( "failed to unsubscribe: invalid ID '%s'" , id )
}
return nil
}
// Unsubscribe removes an installed message handler.
func ( w * Waku ) UnsubscribeMany ( ids [ ] string ) error {
for _ , id := range ids {
w . logger . Debug ( "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
}
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func ( w * Waku ) notEnoughPeers ( ) bool {
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numPeers := len ( w . node . Relay ( ) . PubSub ( ) . ListPeers ( relay . DefaultWakuTopic ) )
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return numPeers <= w . settings . MinPeersForRelay
}
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func ( w * Waku ) broadcast ( ) {
for {
select {
case msg := <- w . sendQueue :
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hash , err := msg . Hash ( )
if err != nil {
log . Error ( "invalid message" )
continue
}
if w . settings . LightClient || w . notEnoughPeers ( ) {
log . Debug ( "publishing message via lightpush" , zap . Any ( "hash" , hexutil . Encode ( hash ) ) )
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_ , err = w . node . Lightpush ( ) . Publish ( context . Background ( ) , msg )
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} else {
log . Debug ( "publishing message via relay" , zap . Any ( "hash" , hexutil . Encode ( hash ) ) )
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_ , err = w . node . Relay ( ) . Publish ( context . Background ( ) , msg )
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}
if err != nil {
log . Error ( "could not send message" , zap . Any ( "hash" , hexutil . Encode ( hash ) ) , zap . Error ( err ) )
w . envelopeFeed . Send ( common . EnvelopeEvent {
Hash : gethcommon . BytesToHash ( hash ) ,
Event : common . EventEnvelopeExpired ,
} )
continue
}
event := common . EnvelopeEvent {
Event : common . EventEnvelopeSent ,
Hash : gethcommon . BytesToHash ( hash ) ,
}
w . SendEnvelopeEvent ( event )
case <- w . quit :
return
}
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}
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}
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// Send injects a message into the waku send queue, to be distributed in the
// network in the coming cycles.
func ( w * Waku ) Send ( msg * pb . WakuMessage ) ( [ ] byte , error ) {
hash , err := msg . Hash ( )
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if err != nil {
return nil , err
}
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w . sendQueue <- msg
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w . poolMu . Lock ( )
_ , alreadyCached := w . envelopes [ gethcommon . BytesToHash ( hash ) ]
w . poolMu . Unlock ( )
if ! alreadyCached {
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envelope := wakuprotocol . NewEnvelope ( msg , relay . DefaultWakuTopic )
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recvMessage := common . NewReceivedMessage ( envelope , common . RelayedMessageType )
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w . postEvent ( recvMessage ) // notify the local node about the new message
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w . addEnvelope ( recvMessage )
}
return hash , nil
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}
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func ( w * Waku ) Query ( topics [ ] common . TopicType , from uint64 , to uint64 , opts [ ] store . HistoryRequestOption ) ( cursor * pb . Index , err error ) {
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strTopics := make ( [ ] string , len ( topics ) )
for i , t := range topics {
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strTopics [ i ] = t . ContentTopic ( )
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}
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query := store . Query {
StartTime : float64 ( from ) ,
EndTime : float64 ( to ) ,
ContentTopics : strTopics ,
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Topic : relay . DefaultWakuTopic ,
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}
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ctx , cancel := context . WithTimeout ( context . Background ( ) , 20 * time . Second )
defer cancel ( )
result , err := w . node . Store ( ) . Query ( ctx , query , opts ... )
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if err != nil {
return
}
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for _ , msg := range result . Messages {
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envelope := wakuprotocol . NewEnvelope ( msg , relay . DefaultWakuTopic )
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w . logger . Debug ( "received waku2 store message" , zap . Any ( "envelopeHash" , hexutil . Encode ( envelope . Hash ( ) ) ) )
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_ , err = w . OnNewEnvelopes ( envelope , common . StoreMessageType )
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if err != nil {
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return nil , err
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}
}
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if len ( result . Messages ) != 0 {
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cursor = result . Cursor ( )
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}
return
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}
// Start implements node.Service, starting the background data propagation thread
// of the Waku protocol.
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func ( w * Waku ) Start ( ) error {
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numCPU := runtime . NumCPU ( )
for i := 0 ; i < numCPU ; i ++ {
go w . processQueue ( )
}
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go w . broadcast ( )
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return nil
}
// Stop implements node.Service, stopping the background data propagation thread
// of the Waku protocol.
func ( w * Waku ) Stop ( ) error {
w . node . Stop ( )
close ( w . quit )
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close ( w . filterMsgChannel )
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return nil
}
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func ( w * Waku ) OnNewEnvelopes ( envelope * wakuprotocol . Envelope , msgType common . MessageType ) ( [ ] common . EnvelopeError , error ) {
recvMessage := common . NewReceivedMessage ( envelope , msgType )
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envelopeErrors := make ( [ ] common . EnvelopeError , 0 )
w . logger . Debug ( "received new envelope" )
trouble := false
_ , err := w . add ( recvMessage )
if err != nil {
w . logger . Info ( "invalid envelope received" , zap . Error ( err ) )
}
common . EnvelopesValidatedCounter . Inc ( )
if trouble {
return envelopeErrors , errors . New ( "received invalid envelope" )
}
return envelopeErrors , 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 ) ( bool , error ) {
common . EnvelopesReceivedCounter . Inc ( )
hash := recvMessage . Hash ( )
w . poolMu . Lock ( )
_ , alreadyCached := w . envelopes [ hash ]
w . poolMu . Unlock ( )
if ! alreadyCached {
w . addEnvelope ( recvMessage )
}
if alreadyCached {
log . Trace ( "w envelope already cached" , "hash" , recvMessage . Hash ( ) . Hex ( ) )
common . EnvelopesCachedCounter . WithLabelValues ( "hit" ) . Inc ( )
} else {
log . Trace ( "cached w envelope" , "hash" , recvMessage . Hash ( ) . Hex ( ) )
common . EnvelopesCachedCounter . WithLabelValues ( "miss" ) . Inc ( )
common . EnvelopesSizeMeter . Observe ( float64 ( recvMessage . Envelope . Size ( ) ) )
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
}
// processQueue delivers the messages to the watchers during the lifetime of the waku node.
func ( w * Waku ) processQueue ( ) {
for {
select {
case <- w . quit :
return
case e := <- w . msgQueue :
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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 {
w . storeMsgIDsMu . Lock ( )
delete ( w . storeMsgIDs , e . Hash ( ) )
w . storeMsgIDsMu . Unlock ( )
}
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w . envelopeFeed . Send ( common . EnvelopeEvent {
Topic : e . Topic ,
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
}
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func ( w * Waku ) PeerCount ( ) int {
return w . node . PeerCount ( )
}
func ( w * Waku ) Peers ( ) map [ string ] [ ] string {
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return FormatPeerStats ( w . node . PeerStats ( ) )
}
func ( w * Waku ) StartDiscV5 ( ) error {
if w . node . DiscV5 ( ) == nil {
return errors . New ( "discv5 is not setup" )
}
return w . node . DiscV5 ( ) . Start ( )
}
func ( w * Waku ) StopDiscV5 ( ) error {
if w . node . DiscV5 ( ) == nil {
return errors . New ( "discv5 is not setup" )
}
w . node . DiscV5 ( ) . Stop ( )
return nil
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}
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func ( w * Waku ) AddStorePeer ( address string ) ( string , error ) {
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addr , err := multiaddr . NewMultiaddr ( address )
if err != nil {
return "" , err
}
peerID , err := w . node . AddPeer ( addr , store . StoreID_v20beta3 )
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if err != nil {
return "" , err
}
return string ( * peerID ) , nil
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}
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func ( w * Waku ) AddRelayPeer ( address string ) ( string , error ) {
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addr , err := multiaddr . NewMultiaddr ( address )
if err != nil {
return "" , err
}
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peerID , err := w . node . AddPeer ( addr , relay . WakuRelayID_v200 )
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if err != nil {
return "" , err
}
return string ( * peerID ) , nil
}
func ( w * Waku ) DialPeer ( address string ) error {
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ctx , cancel := context . WithTimeout ( context . Background ( ) , requestTimeout )
defer cancel ( )
return w . node . DialPeer ( ctx , address )
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}
func ( w * Waku ) DialPeerByID ( peerID string ) error {
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ctx , cancel := context . WithTimeout ( context . Background ( ) , requestTimeout )
defer cancel ( )
return w . node . DialPeerByID ( ctx , peer . ID ( peerID ) )
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}
func ( w * Waku ) DropPeer ( peerID string ) error {
return w . node . ClosePeerById ( peer . ID ( peerID ) )
}
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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 )
}
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// 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
}
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func FormatPeerStats ( peers node . PeerStats ) map [ string ] [ ] string {
p := make ( map [ string ] [ ] string )
for k , v := range peers {
p [ k . Pretty ( ) ] = v
}
return p
}
func formatConnStatus ( c node . ConnStatus ) ConnStatus {
return ConnStatus {
IsOnline : c . IsOnline ,
HasHistory : c . HasHistory ,
Peers : FormatPeerStats ( c . Peers ) ,
}
}