// Package pubsub implements an event dispatching server with a single publisher // and multiple subscriber clients. Multiple goroutines can safely publish to a // single Server instance. // // Clients register subscriptions with a query to select which messages they // wish to receive. When messages are published, they are broadcast to all // clients whose subscription query matches that message. Queries are // constructed using the github.com/tendermint/tendermint/internal/pubsub/query // package. // // Example: // // q, err := query.New(`account.name='John'`) // if err != nil { // return err // } // sub, err := pubsub.SubscribeWithArgs(ctx, pubsub.SubscribeArgs{ // ClientID: "johns-transactions", // Query: q, // }) // if err != nil { // return err // } // // for { // next, err := sub.Next(ctx) // if err == pubsub.ErrTerminated { // return err // terminated by publisher // } else if err != nil { // return err // timed out, client unsubscribed, etc. // } // process(next) // } // package pubsub import ( "context" "errors" "fmt" "sync" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/internal/pubsub/query" "github.com/tendermint/tendermint/libs/log" "github.com/tendermint/tendermint/libs/service" "github.com/tendermint/tendermint/types" ) var ( // ErrSubscriptionNotFound is returned when a client tries to unsubscribe // from not existing subscription. ErrSubscriptionNotFound = errors.New("subscription not found") // ErrAlreadySubscribed is returned when a client tries to subscribe twice or // more using the same query. ErrAlreadySubscribed = errors.New("already subscribed") // ErrServerStopped is returned when attempting to publish or subscribe to a // server that has been stopped. ErrServerStopped = errors.New("pubsub server is stopped") ) // SubscribeArgs are the parameters to create a new subscription. type SubscribeArgs struct { ClientID string // Client ID Query *query.Query // filter query for events (required) Limit int // subscription queue capacity limit (0 means 1) Quota int // subscription queue soft quota (0 uses Limit) } // UnsubscribeArgs are the parameters to remove a subscription. // The subscriber ID must be populated, and at least one of the client ID or // the registered query. type UnsubscribeArgs struct { Subscriber string // subscriber ID chosen by the client (required) ID string // subscription ID (assigned by the server) Query *query.Query // the query registered with the subscription } // Validate returns nil if args are valid to identify a subscription to remove. // Otherwise, it reports an error. func (args UnsubscribeArgs) Validate() error { if args.Subscriber == "" { return errors.New("must specify a subscriber") } return nil } // Server allows clients to subscribe/unsubscribe for messages, publishing // messages with or without events, and manages internal state. type Server struct { service.BaseService logger log.Logger queue chan item done <-chan struct{} // closed when server should exit pubs sync.RWMutex // excl: shutdown; shared: active publisher exited chan struct{} // server exited // All subscriptions currently known. // Lock exclusive to add, remove, or cancel subscriptions. // Lock shared to look up or publish to subscriptions. subs struct { sync.RWMutex index *subIndex // This function is called synchronously with each message published // before it is delivered to any other subscriber. This allows an index // to be persisted before any subscribers see the messages. observe func(Message) error } // TODO(creachadair): Rework the options so that this does not need to live // as a field. It is not otherwise needed. queueCap int } // Option sets a parameter for the server. type Option func(*Server) // NewServer returns a new server. See the commentary on the Option functions // for a detailed description of how to configure buffering. If no options are // provided, the resulting server's queue is unbuffered. func NewServer(logger log.Logger, options ...Option) *Server { s := &Server{logger: logger} s.BaseService = *service.NewBaseService(logger, "PubSub", s) for _, opt := range options { opt(s) } // The queue receives items to be published. s.queue = make(chan item, s.queueCap) // The index tracks subscriptions by ID and query terms. s.subs.index = newSubIndex() return s } // BufferCapacity allows you to specify capacity for publisher's queue. This // is the number of messages that can be published without blocking. If no // buffer is specified, publishing is synchronous with delivery. This function // will panic if cap < 0. func BufferCapacity(cap int) Option { if cap < 0 { panic("negative buffer capacity") } return func(s *Server) { s.queueCap = cap } } // BufferCapacity returns capacity of the publication queue. func (s *Server) BufferCapacity() int { return cap(s.queue) } // Subscribe creates a subscription for the given client ID and query. // If len(capacities) > 0, its first value is used as the queue capacity. // // Deprecated: Use SubscribeWithArgs. This method will be removed in v0.36. func (s *Server) Subscribe(ctx context.Context, clientID string, query *query.Query, capacities ...int) (*Subscription, error) { args := SubscribeArgs{ ClientID: clientID, Query: query, Limit: 1, } if len(capacities) > 0 { args.Limit = capacities[0] if len(capacities) > 1 { args.Quota = capacities[1] } // bounds are checked below } return s.SubscribeWithArgs(ctx, args) } // Observe registers an observer function that will be called synchronously // with each published message matching any of the given queries, prior to it // being forwarded to any subscriber. If no queries are specified, all // messages will be observed. An error is reported if an observer is already // registered. func (s *Server) Observe(ctx context.Context, observe func(Message) error, queries ...*query.Query) error { s.subs.Lock() defer s.subs.Unlock() if observe == nil { return errors.New("observe callback is nil") } else if s.subs.observe != nil { return errors.New("an observer is already registered") } // Compile the message filter. var matches func(Message) bool if len(queries) == 0 { matches = func(Message) bool { return true } } else { matches = func(msg Message) bool { for _, q := range queries { if q.Matches(msg.events) { return true } } return false } } s.subs.observe = func(msg Message) error { if matches(msg) { return observe(msg) } return nil // nothing to do for this message } return nil } // SubscribeWithArgs creates a subscription for the given arguments. It is an // error if the query is nil, a subscription already exists for the specified // client ID and query, or if the capacity arguments are invalid. func (s *Server) SubscribeWithArgs(ctx context.Context, args SubscribeArgs) (*Subscription, error) { s.subs.Lock() defer s.subs.Unlock() if s.subs.index == nil { return nil, ErrServerStopped } else if s.subs.index.contains(args.ClientID, args.Query.String()) { return nil, ErrAlreadySubscribed } if args.Limit == 0 { args.Limit = 1 } sub, err := newSubscription(args.Quota, args.Limit) if err != nil { return nil, err } s.subs.index.add(&subInfo{ clientID: args.ClientID, query: args.Query, subID: sub.id, sub: sub, }) return sub, nil } // Unsubscribe removes the subscription for the given client and/or query. It // returns ErrSubscriptionNotFound if no such subscription exists. func (s *Server) Unsubscribe(ctx context.Context, args UnsubscribeArgs) error { if err := args.Validate(); err != nil { return err } s.subs.Lock() defer s.subs.Unlock() if s.subs.index == nil { return ErrServerStopped } // TODO(creachadair): Do we need to support unsubscription for an "empty" // query? I believe that case is not possible by the Query grammar, but we // should make sure. // // Revisit this logic once we are able to remove indexing by query. var evict subInfoSet if args.Subscriber != "" { evict = s.subs.index.findClientID(args.Subscriber) if args.Query != nil { evict = evict.withQuery(args.Query.String()) } } else { evict = s.subs.index.findQuery(args.Query.String()) } if len(evict) == 0 { return ErrSubscriptionNotFound } s.removeSubs(evict, ErrUnsubscribed) return nil } // UnsubscribeAll removes all subscriptions for the given client ID. // It returns ErrSubscriptionNotFound if no subscriptions exist for that client. func (s *Server) UnsubscribeAll(ctx context.Context, clientID string) error { s.subs.Lock() defer s.subs.Unlock() evict := s.subs.index.findClientID(clientID) if len(evict) == 0 { return ErrSubscriptionNotFound } s.removeSubs(evict, ErrUnsubscribed) return nil } // NumClients returns the number of clients. func (s *Server) NumClients() int { s.subs.RLock() defer s.subs.RUnlock() return len(s.subs.index.byClient) } // NumClientSubscriptions returns the number of subscriptions the client has. func (s *Server) NumClientSubscriptions(clientID string) int { s.subs.RLock() defer s.subs.RUnlock() return len(s.subs.index.findClientID(clientID)) } // Publish publishes the given message. An error will be returned to the caller // if the context is canceled. func (s *Server) Publish(ctx context.Context, msg types.EventData) error { return s.publish(ctx, msg, []abci.Event{}) } // PublishWithEvents publishes the given message with the set of events. The set // is matched with clients queries. If there is a match, the message is sent to // the client. func (s *Server) PublishWithEvents(ctx context.Context, msg types.EventData, events []abci.Event) error { return s.publish(ctx, msg, events) } // OnStop implements part of the Service interface. It is a no-op. func (s *Server) OnStop() {} // Wait implements Service.Wait by blocking until the server has exited, then // yielding to the base service wait. func (s *Server) Wait() { <-s.exited; s.BaseService.Wait() } // OnStart implements Service.OnStart by starting the server. func (s *Server) OnStart(ctx context.Context) error { s.run(ctx); return nil } // OnReset implements Service.OnReset. It has no effect for this service. func (s *Server) OnReset() error { return nil } func (s *Server) publish(ctx context.Context, data types.EventData, events []abci.Event) error { s.pubs.RLock() defer s.pubs.RUnlock() select { case <-s.done: return ErrServerStopped case <-ctx.Done(): return ctx.Err() case s.queue <- item{ Data: data, Events: events, }: return nil } } func (s *Server) run(ctx context.Context) { // The server runs until ctx is canceled. s.done = ctx.Done() queue := s.queue // Shutdown monitor: When the context ends, wait for any active publish // calls to exit, then close the queue to signal the sender to exit. go func() { <-ctx.Done() s.pubs.Lock() defer s.pubs.Unlock() close(s.queue) s.queue = nil }() s.exited = make(chan struct{}) go func() { defer close(s.exited) // Sender: Service the queue and forward messages to subscribers. for it := range queue { if err := s.send(it.Data, it.Events); err != nil { s.logger.Error("error sending event", "err", err) } } // Terminate all subscribers before exit. s.subs.Lock() defer s.subs.Unlock() for si := range s.subs.index.all { si.sub.stop(ErrTerminated) } s.subs.index = nil }() } // removeSubs cancels and removes all the subscriptions in evict with the given // error. The caller must hold the s.subs lock. func (s *Server) removeSubs(evict subInfoSet, reason error) { for si := range evict { si.sub.stop(reason) } s.subs.index.removeAll(evict) } // send delivers the given message to all matching subscribers. An error in // query matching stops transmission and is returned. func (s *Server) send(data types.EventData, events []abci.Event) error { // At exit, evict any subscriptions that were too slow. evict := make(subInfoSet) defer func() { if len(evict) != 0 { s.subs.Lock() defer s.subs.Unlock() s.removeSubs(evict, ErrTerminated) } }() // N.B. Order is important here. We must acquire and defer the lock release // AFTER deferring the eviction cleanup: The cleanup must happen after the // reader lock has released, or it will deadlock. s.subs.RLock() defer s.subs.RUnlock() // If an observer is defined, give it control of the message before // attempting to deliver it to any matching subscribers. If the observer // fails, the message will not be forwarded. if s.subs.observe != nil { err := s.subs.observe(Message{ data: data, events: events, }) if err != nil { return fmt.Errorf("observer failed on message: %w", err) } } for si := range s.subs.index.all { if !si.query.Matches(events) { continue } // Publish the events to the subscriber's queue. If this fails, e.g., // because the queue is over capacity or out of quota, evict the // subscription from the index. if err := si.sub.publish(Message{ subID: si.sub.id, data: data, events: events, }); err != nil { evict.add(si) } } return nil }