package rpc import ( "fmt" "net/http" "github.com/waku-org/go-waku/cmd/waku/server" "github.com/waku-org/go-waku/waku/v2/node" "github.com/waku-org/go-waku/waku/v2/protocol" "github.com/waku-org/go-waku/waku/v2/protocol/relay" "go.uber.org/zap" ) // RelayService represents the JSON RPC service for WakuRelay type RelayService struct { node *node.WakuNode log *zap.Logger cacheCapacity int } // RelayMessageArgs represents the requests used for posting messages type RelayMessageArgs struct { Topic string `json:"topic,omitempty"` Message *RPCWakuMessage `json:"message,omitempty"` } // RelayAutoMessageArgs represents the requests used for posting messages type RelayAutoMessageArgs struct { Message *RPCWakuMessage `json:"message,omitempty"` } // TopicsArgs represents the lists of topics to use when subscribing / unsubscribing type TopicsArgs struct { Topics []string `json:"topics,omitempty"` } // TopicArgs represents a request that contains a single topic type TopicArgs struct { Topic string `json:"topic,omitempty"` } // NewRelayService returns an instance of RelayService func NewRelayService(node *node.WakuNode, cacheCapacity int, log *zap.Logger) *RelayService { s := &RelayService{ node: node, cacheCapacity: cacheCapacity, log: log.Named("relay"), } return s } // Start starts the RelayService func (r *RelayService) Start() { } // Stop stops the RelayService func (r *RelayService) Stop() { } // PostV1Message is invoked when the json rpc request uses the post_waku_v2_relay_v1_message method func (r *RelayService) PostV1Message(req *http.Request, args *RelayMessageArgs, reply *SuccessReply) error { var err error topic := relay.DefaultWakuTopic if args.Topic != "" { topic = args.Topic } msg := args.Message.toProto() if err = server.AppendRLNProof(r.node, msg); err != nil { return err } _, err = r.node.Relay().Publish(req.Context(), msg, relay.WithPubSubTopic(topic)) if err != nil { r.log.Error("publishing message", zap.Error(err)) return err } *reply = true return nil } // PostV1AutoSubscription is invoked when the json rpc request uses the post_waku_v2_relay_v1_auto_subscription // Note that this method takes contentTopics as an argument instead of pubsubtopics and uses autosharding to derive pubsubTopics. func (r *RelayService) PostV1AutoSubscription(req *http.Request, args *TopicsArgs, reply *SuccessReply) error { _, err := r.node.Relay().Subscribe(r.node.Relay().Context(), protocol.NewContentFilter("", args.Topics...)) if err != nil { r.log.Error("subscribing to topics", zap.Strings("topics", args.Topics), zap.Error(err)) return err } //TODO: Handle partial errors. *reply = true return nil } // DeleteV1AutoSubscription is invoked when the json rpc request uses the delete_waku_v2_relay_v1_auto_subscription // Note that this method takes contentTopics as an argument instead of pubsubtopics and uses autosharding to derive pubsubTopics. func (r *RelayService) DeleteV1AutoSubscription(req *http.Request, args *TopicsArgs, reply *SuccessReply) error { ctx := req.Context() err := r.node.Relay().Unsubscribe(ctx, protocol.NewContentFilter("", args.Topics...)) if err != nil { r.log.Error("unsubscribing from topics", zap.Strings("topic", args.Topics), zap.Error(err)) return err } //TODO: Handle partial errors. *reply = true return nil } // PostV1AutoMessage is invoked when the json rpc request uses the post_waku_v2_relay_v1_auto_message func (r *RelayService) PostV1AutoMessage(req *http.Request, args *RelayAutoMessageArgs, reply *SuccessReply) error { var err error msg := args.Message.toProto() if msg == nil { err := fmt.Errorf("invalid message format received") r.log.Error("publishing message", zap.Error(err)) return err } if err = server.AppendRLNProof(r.node, msg); err != nil { return err } _, err = r.node.Relay().Publish(req.Context(), msg) if err != nil { r.log.Error("publishing message", zap.Error(err)) return err } *reply = true return nil } // GetV1AutoMessages is invoked when the json rpc request uses the get_waku_v2_relay_v1_auto_messages method // Note that this method takes contentTopic as an argument instead of pubSubtopic and uses autosharding. func (r *RelayService) GetV1AutoMessages(req *http.Request, args *TopicArgs, reply *MessagesReply) error { sub, err := r.node.Relay().GetSubscription(args.Topic) if err != nil { return err } select { case msg := <-sub.Ch: *reply = append(*reply, ProtoToRPC(msg.Message())) default: break } return nil } // PostV1Subscription is invoked when the json rpc request uses the post_waku_v2_relay_v1_subscription method func (r *RelayService) PostV1Subscription(req *http.Request, args *TopicsArgs, reply *SuccessReply) error { ctx := req.Context() for _, topic := range args.Topics { var err error if topic == "" { topic = relay.DefaultWakuTopic } _, err = r.node.Relay().Subscribe(ctx, protocol.NewContentFilter(topic)) if err != nil { r.log.Error("subscribing to topic", zap.String("topic", topic), zap.Error(err)) return err } } *reply = true return nil } // DeleteV1Subscription is invoked when the json rpc request uses the delete_waku_v2_relay_v1_subscription method func (r *RelayService) DeleteV1Subscription(req *http.Request, args *TopicsArgs, reply *SuccessReply) error { ctx := req.Context() for _, topic := range args.Topics { err := r.node.Relay().Unsubscribe(ctx, protocol.NewContentFilter(topic)) if err != nil { r.log.Error("unsubscribing from topic", zap.String("topic", topic), zap.Error(err)) return err } } *reply = true return nil } // GetV1Messages is invoked when the json rpc request uses the get_waku_v2_relay_v1_messages method func (r *RelayService) GetV1Messages(req *http.Request, args *TopicArgs, reply *MessagesReply) error { sub, err := r.node.Relay().GetSubscriptionWithPubsubTopic(args.Topic, "") if err != nil { return err } select { case msg := <-sub.Ch: *reply = append(*reply, ProtoToRPC(msg.Message())) default: break } return nil }