package transport import ( "context" "crypto/ecdsa" "database/sql" "sync" "time" "github.com/libp2p/go-libp2p/core/peer" "github.com/multiformats/go-multiaddr" "github.com/pkg/errors" "go.uber.org/zap" "golang.org/x/exp/maps" "github.com/waku-org/go-waku/waku/v2/api/history" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/p2p/enode" gocommon "github.com/status-im/status-go/common" "github.com/status-im/status-go/connection" "github.com/status-im/status-go/eth-node/crypto" "github.com/status-im/status-go/eth-node/types" ) var ( // ErrNoMailservers returned if there is no configured mailservers that can be used. ErrNoMailservers = errors.New("no configured mailservers") ) type transportKeysManager struct { waku types.Waku // Identity of the current user. privateKey *ecdsa.PrivateKey passToSymKeyMutex sync.RWMutex passToSymKeyCache map[string]string } func (m *transportKeysManager) AddOrGetKeyPair(priv *ecdsa.PrivateKey) (string, error) { // caching is handled in waku return m.waku.AddKeyPair(priv) } func (m *transportKeysManager) AddOrGetSymKeyFromPassword(password string) (string, error) { m.passToSymKeyMutex.Lock() defer m.passToSymKeyMutex.Unlock() if val, ok := m.passToSymKeyCache[password]; ok { return val, nil } id, err := m.waku.AddSymKeyFromPassword(password) if err != nil { return id, err } m.passToSymKeyCache[password] = id return id, nil } func (m *transportKeysManager) RawSymKey(id string) ([]byte, error) { return m.waku.GetSymKey(id) } type Option func(*Transport) error // Transport is a transport based on Whisper service. type Transport struct { waku types.Waku api types.PublicWakuAPI // only PublicWakuAPI implements logic to send messages keysManager *transportKeysManager filters *FiltersManager logger *zap.Logger cache *ProcessedMessageIDsCache mailservers []string envelopesMonitor *EnvelopesMonitor quit chan struct{} } // NewTransport returns a new Transport. // TODO: leaving a chat should verify that for a given public key // // there are no other chats. It may happen that we leave a private chat // but still have a public chat for a given public key. func NewTransport( waku types.Waku, privateKey *ecdsa.PrivateKey, db *sql.DB, sqlitePersistenceTableName string, mailservers []string, envelopesMonitorConfig *EnvelopesMonitorConfig, logger *zap.Logger, opts ...Option, ) (*Transport, error) { filtersManager, err := NewFiltersManager(newSQLitePersistence(db, sqlitePersistenceTableName), waku, privateKey, logger) if err != nil { return nil, err } var envelopesMonitor *EnvelopesMonitor if envelopesMonitorConfig != nil { envelopesMonitor = NewEnvelopesMonitor(waku, *envelopesMonitorConfig) envelopesMonitor.Start() } var api types.PublicWhisperAPI if waku != nil { api = waku.PublicWakuAPI() } t := &Transport{ waku: waku, api: api, cache: NewProcessedMessageIDsCache(db), envelopesMonitor: envelopesMonitor, quit: make(chan struct{}), keysManager: &transportKeysManager{ waku: waku, privateKey: privateKey, passToSymKeyCache: make(map[string]string), }, filters: filtersManager, mailservers: mailservers, logger: logger.With(zap.Namespace("Transport")), } for _, opt := range opts { if err := opt(t); err != nil { return nil, err } } t.cleanFiltersLoop() return t, nil } func (t *Transport) InitFilters(chatIDs []FiltersToInitialize, publicKeys []*ecdsa.PublicKey) ([]*Filter, error) { return t.filters.Init(chatIDs, publicKeys) } func (t *Transport) InitPublicFilters(filtersToInit []FiltersToInitialize) ([]*Filter, error) { return t.filters.InitPublicFilters(filtersToInit) } func (t *Transport) Filters() []*Filter { return t.filters.Filters() } func (t *Transport) FilterByChatID(chatID string) *Filter { return t.filters.FilterByChatID(chatID) } func (t *Transport) FilterByTopic(topic []byte) *Filter { return t.filters.FilterByTopic(topic) } func (t *Transport) FiltersByIdentities(identities []string) []*Filter { return t.filters.FiltersByIdentities(identities) } func (t *Transport) LoadFilters(filters []*Filter) ([]*Filter, error) { return t.filters.InitWithFilters(filters) } func (t *Transport) InitCommunityFilters(communityFiltersToInitialize []CommunityFilterToInitialize) ([]*Filter, error) { return t.filters.InitCommunityFilters(communityFiltersToInitialize) } func (t *Transport) RemoveFilters(filters []*Filter) error { return t.filters.Remove(context.Background(), filters...) } func (t *Transport) RemoveFilterByChatID(chatID string) (*Filter, error) { return t.filters.RemoveFilterByChatID(chatID) } func (t *Transport) ResetFilters(ctx context.Context) error { return t.filters.Reset(ctx) } func (t *Transport) ProcessNegotiatedSecret(secret types.NegotiatedSecret) (*Filter, error) { filter, err := t.filters.LoadNegotiated(secret) if err != nil { return nil, err } return filter, nil } func (t *Transport) JoinPublic(chatID string) (*Filter, error) { return t.filters.LoadPublic(chatID, "") } func (t *Transport) LeavePublic(chatID string) error { chat := t.filters.Filter(chatID) if chat != nil { return nil } return t.filters.Remove(context.Background(), chat) } func (t *Transport) JoinPrivate(publicKey *ecdsa.PublicKey) (*Filter, error) { return t.filters.LoadContactCode(publicKey) } func (t *Transport) JoinGroup(publicKeys []*ecdsa.PublicKey) ([]*Filter, error) { var filters []*Filter for _, pk := range publicKeys { f, err := t.filters.LoadContactCode(pk) if err != nil { return nil, err } filters = append(filters, f) } return filters, nil } func (t *Transport) GetStats() types.StatsSummary { return t.waku.GetStats() } func (t *Transport) RetrieveRawAll() (map[Filter][]*types.Message, error) { result := make(map[Filter][]*types.Message) logger := t.logger.With(zap.String("site", "retrieveRawAll")) for _, filter := range t.filters.Filters() { msgs, err := t.api.GetFilterMessages(filter.FilterID) if err != nil { logger.Warn("failed to fetch messages", zap.Error(err)) continue } // Don't pull from filters we don't listen to if !filter.Listen { for _, msg := range msgs { t.waku.MarkP2PMessageAsProcessed(common.BytesToHash(msg.Hash)) } continue } if len(msgs) == 0 { continue } ids := make([]string, len(msgs)) for i := range msgs { id := types.EncodeHex(msgs[i].Hash) ids[i] = id } hits, err := t.cache.Hits(ids) if err != nil { logger.Error("failed to check messages exists", zap.Error(err)) return nil, err } for i := range msgs { // Exclude anything that is a cache hit if !hits[types.EncodeHex(msgs[i].Hash)] { result[*filter] = append(result[*filter], msgs[i]) logger.Debug("message not cached", zap.String("hash", types.EncodeHex(msgs[i].Hash))) } else { logger.Debug("message cached", zap.String("hash", types.EncodeHex(msgs[i].Hash))) t.waku.MarkP2PMessageAsProcessed(common.BytesToHash(msgs[i].Hash)) } } } return result, nil } // SendPublic sends a new message using the Whisper service. // For public filters, chat name is used as an ID as well as // a topic. func (t *Transport) SendPublic(ctx context.Context, newMessage *types.NewMessage, chatName string) ([]byte, error) { if err := t.addSig(newMessage); err != nil { return nil, err } filter, err := t.filters.LoadPublic(chatName, newMessage.PubsubTopic) if err != nil { return nil, err } newMessage.SymKeyID = filter.SymKeyID newMessage.Topic = filter.ContentTopic newMessage.PubsubTopic = filter.PubsubTopic return t.api.Post(ctx, *newMessage) } func (t *Transport) SendPrivateWithSharedSecret(ctx context.Context, newMessage *types.NewMessage, publicKey *ecdsa.PublicKey, secret []byte) ([]byte, error) { if err := t.addSig(newMessage); err != nil { return nil, err } filter, err := t.filters.LoadNegotiated(types.NegotiatedSecret{ PublicKey: publicKey, Key: secret, }) if err != nil { return nil, err } newMessage.SymKeyID = filter.SymKeyID newMessage.Topic = filter.ContentTopic newMessage.PubsubTopic = filter.PubsubTopic newMessage.PublicKey = nil return t.api.Post(ctx, *newMessage) } func (t *Transport) SendPrivateWithPartitioned(ctx context.Context, newMessage *types.NewMessage, publicKey *ecdsa.PublicKey) ([]byte, error) { if err := t.addSig(newMessage); err != nil { return nil, err } filter, err := t.filters.LoadPartitioned(publicKey, t.keysManager.privateKey, false) if err != nil { return nil, err } newMessage.PubsubTopic = filter.PubsubTopic newMessage.Topic = filter.ContentTopic newMessage.PublicKey = crypto.FromECDSAPub(publicKey) return t.api.Post(ctx, *newMessage) } func (t *Transport) SendPrivateOnPersonalTopic(ctx context.Context, newMessage *types.NewMessage, publicKey *ecdsa.PublicKey) ([]byte, error) { if err := t.addSig(newMessage); err != nil { return nil, err } filter, err := t.filters.LoadPersonal(publicKey, t.keysManager.privateKey, false) if err != nil { return nil, err } newMessage.PubsubTopic = filter.PubsubTopic newMessage.Topic = filter.ContentTopic newMessage.PublicKey = crypto.FromECDSAPub(publicKey) return t.api.Post(ctx, *newMessage) } func (t *Transport) PersonalTopicFilter() *Filter { return t.filters.PersonalTopicFilter() } func (t *Transport) LoadKeyFilters(key *ecdsa.PrivateKey) (*Filter, error) { return t.filters.LoadEphemeral(&key.PublicKey, key, true) } func (t *Transport) SendCommunityMessage(ctx context.Context, newMessage *types.NewMessage, publicKey *ecdsa.PublicKey) ([]byte, error) { if err := t.addSig(newMessage); err != nil { return nil, err } // We load the filter to make sure we can post on it filter, err := t.filters.LoadPublic(PubkeyToHex(publicKey)[2:], newMessage.PubsubTopic) if err != nil { return nil, err } newMessage.PubsubTopic = filter.PubsubTopic newMessage.Topic = filter.ContentTopic newMessage.PublicKey = crypto.FromECDSAPub(publicKey) return t.api.Post(ctx, *newMessage) } func (t *Transport) cleanFilters() error { return t.filters.RemoveNoListenFilters() } func (t *Transport) addSig(newMessage *types.NewMessage) error { sigID, err := t.keysManager.AddOrGetKeyPair(t.keysManager.privateKey) if err != nil { return err } newMessage.SigID = sigID return nil } func (t *Transport) Track(identifier []byte, hashes [][]byte, newMessages []*types.NewMessage) { t.TrackMany([][]byte{identifier}, hashes, newMessages) } func (t *Transport) TrackMany(identifiers [][]byte, hashes [][]byte, newMessages []*types.NewMessage) { if t.envelopesMonitor == nil { return } envelopeHashes := make([]types.Hash, len(hashes)) for i, hash := range hashes { envelopeHashes[i] = types.BytesToHash(hash) } err := t.envelopesMonitor.Add(identifiers, envelopeHashes, newMessages) if err != nil { t.logger.Error("failed to track messages", zap.Error(err)) } } // GetCurrentTime returns the current unix timestamp in milliseconds func (t *Transport) GetCurrentTime() uint64 { return uint64(t.waku.GetCurrentTime().UnixNano() / int64(time.Millisecond)) } func (t *Transport) MaxMessageSize() uint32 { return t.waku.MaxMessageSize() } func (t *Transport) Stop() error { close(t.quit) if t.envelopesMonitor != nil { t.envelopesMonitor.Stop() } return nil } // cleanFiltersLoop cleans up the topic we create for the only purpose // of sending messages. // Whenever we send a message we also need to listen to that particular topic // but in case of asymettric topics, we are not interested in listening to them. // We therefore periodically clean them up so we don't receive unnecessary data. func (t *Transport) cleanFiltersLoop() { ticker := time.NewTicker(5 * time.Minute) go func() { defer gocommon.LogOnPanic() for { select { case <-t.quit: ticker.Stop() return case <-ticker.C: err := t.cleanFilters() if err != nil { t.logger.Error("failed to clean up topics", zap.Error(err)) } } } }() } func (t *Transport) WakuVersion() uint { return t.waku.Version() } func (t *Transport) PeerCount() int { return t.waku.PeerCount() } func (t *Transport) Peers() types.PeerStats { return t.waku.Peers() } // ConfirmMessagesProcessed marks the messages as processed in the cache so // they won't be passed to the next layer anymore func (t *Transport) ConfirmMessagesProcessed(ids []string, timestamp uint64) error { t.logger.Debug("confirming message processed", zap.Any("ids", ids), zap.Any("timestamp", timestamp)) return t.cache.Add(ids, timestamp) } // CleanMessagesProcessed clears the messages that are older than timestamp func (t *Transport) CleanMessagesProcessed(timestamp uint64) error { return t.cache.Clean(timestamp) } func (t *Transport) SetEnvelopeEventsHandler(handler EnvelopeEventsHandler) error { if t.envelopesMonitor == nil { return errors.New("Current transport has no envelopes monitor") } t.envelopesMonitor.handler = handler return nil } func (t *Transport) ClearProcessedMessageIDsCache() error { t.logger.Debug("clearing processed messages cache") t.waku.ClearEnvelopesCache() return t.cache.Clear() } func (t *Transport) BloomFilter() []byte { return t.api.BloomFilter() } func PubkeyToHex(key *ecdsa.PublicKey) string { return types.EncodeHex(crypto.FromECDSAPub(key)) } func (t *Transport) StartDiscV5() error { return t.waku.StartDiscV5() } func (t *Transport) StopDiscV5() error { return t.waku.StopDiscV5() } func (t *Transport) ListenAddresses() ([]multiaddr.Multiaddr, error) { return t.waku.ListenAddresses() } func (t *Transport) RelayPeersByTopic(topic string) (*types.PeerList, error) { return t.waku.RelayPeersByTopic(topic) } func (t *Transport) ENR() (*enode.Node, error) { return t.waku.ENR() } func (t *Transport) AddRelayPeer(address multiaddr.Multiaddr) (peer.ID, error) { return t.waku.AddRelayPeer(address) } func (t *Transport) DialPeer(address multiaddr.Multiaddr) error { return t.waku.DialPeer(address) } func (t *Transport) DialPeerByID(peerID peer.ID) error { return t.waku.DialPeerByID(peerID) } func (t *Transport) DropPeer(peerID peer.ID) error { return t.waku.DropPeer(peerID) } func (t *Transport) ProcessingP2PMessages() bool { return t.waku.ProcessingP2PMessages() } func (t *Transport) MarkP2PMessageAsProcessed(hash common.Hash) { t.waku.MarkP2PMessageAsProcessed(hash) } func (t *Transport) SubscribeToConnStatusChanges() (*types.ConnStatusSubscription, error) { return t.waku.SubscribeToConnStatusChanges() } func (t *Transport) ConnectionChanged(state connection.State) { t.waku.ConnectionChanged(state) } // Subscribe to a pubsub topic, passing an optional public key if the pubsub topic is protected func (t *Transport) SubscribeToPubsubTopic(topic string, optPublicKey *ecdsa.PublicKey) error { if t.waku.Version() == 2 { return t.waku.SubscribeToPubsubTopic(topic, optPublicKey) } return nil } // Unsubscribe from a pubsub topic func (t *Transport) UnsubscribeFromPubsubTopic(topic string) error { if t.waku.Version() == 2 { return t.waku.UnsubscribeFromPubsubTopic(topic) } return nil } func (t *Transport) StorePubsubTopicKey(topic string, privKey *ecdsa.PrivateKey) error { return t.waku.StorePubsubTopicKey(topic, privKey) } func (t *Transport) RetrievePubsubTopicKey(topic string) (*ecdsa.PrivateKey, error) { return t.waku.RetrievePubsubTopicKey(topic) } func (t *Transport) RemovePubsubTopicKey(topic string) error { if t.waku.Version() == 2 { return t.waku.RemovePubsubTopicKey(topic) } return nil } func (t *Transport) ConfirmMessageDelivered(messageID string) { if t.envelopesMonitor == nil { return } hashes, ok := t.envelopesMonitor.messageEnvelopeHashes[messageID] if !ok { return } commHashes := make([]common.Hash, len(hashes)) for i, h := range hashes { commHashes[i] = common.BytesToHash(h[:]) } t.waku.ConfirmMessageDelivered(commHashes) } func (t *Transport) SetCriteriaForMissingMessageVerification(peerID peer.ID, filters []*Filter) { if t.waku.Version() != 2 { return } topicMap := make(map[string]map[types.TopicType]struct{}) for _, f := range filters { if !f.Listen || f.Ephemeral { continue } _, ok := topicMap[f.PubsubTopic] if !ok { topicMap[f.PubsubTopic] = make(map[types.TopicType]struct{}) } topicMap[f.PubsubTopic][f.ContentTopic] = struct{}{} } for pubsubTopic, contentTopics := range topicMap { ctList := maps.Keys(contentTopics) err := t.waku.SetCriteriaForMissingMessageVerification(peerID, pubsubTopic, ctList) if err != nil { t.logger.Error("could not check for missing messages", zap.Error(err), zap.Stringer("peerID", peerID), zap.String("pubsubTopic", pubsubTopic), zap.Stringers("contentTopics", ctList)) return } } } func (t *Transport) GetActiveStorenode() peer.ID { return t.waku.GetActiveStorenode() } func (t *Transport) DisconnectActiveStorenode(ctx context.Context, backoffReason time.Duration, shouldCycle bool) { t.waku.DisconnectActiveStorenode(ctx, backoffReason, shouldCycle) } func (t *Transport) OnStorenodeAvailableOneShot() <-chan struct{} { return t.waku.OnStorenodeAvailableOneShot() } func (t *Transport) OnStorenodeChanged() <-chan peer.ID { return t.waku.OnStorenodeChanged() } func (t *Transport) OnStorenodeNotWorking() <-chan struct{} { return t.waku.OnStorenodeNotWorking() } func (t *Transport) OnStorenodeAvailable() <-chan peer.ID { return t.waku.OnStorenodeAvailable() } func (t *Transport) WaitForAvailableStoreNode(timeout time.Duration) bool { return t.waku.WaitForAvailableStoreNode(timeout) } func (t *Transport) IsStorenodeAvailable(peerID peer.ID) bool { return t.waku.IsStorenodeAvailable(peerID) } func (t *Transport) PerformStorenodeTask(fn func() error, opts ...history.StorenodeTaskOption) error { return t.waku.PerformStorenodeTask(fn, opts...) } func (t *Transport) ProcessMailserverBatch( ctx context.Context, batch types.MailserverBatch, storenodeID peer.ID, pageLimit uint64, shouldProcessNextPage func(int) (bool, uint64), processEnvelopes bool, ) error { return t.waku.ProcessMailserverBatch(ctx, batch, storenodeID, pageLimit, shouldProcessNextPage, processEnvelopes) } func (t *Transport) SetStorenodeConfigProvider(c history.StorenodeConfigProvider) { if t.WakuVersion() == 2 { t.waku.SetStorenodeConfigProvider(c) } }