zolfa
/
tendermint


								// Package pubsub implements a pub-sub model with a single publisher (Server)

								// and multiple subscribers (clients).

								//

								// Though you can have multiple publishers by sharing a pointer to a server or

								// by giving the same channel to each publisher and publishing messages from

								// that channel (fan-in).

								//

								// Clients subscribe for messages, which could be of any type, using a query.

								// When some message is published, we match it with all queries. If there is a

								// match, this message will be pushed to all clients, subscribed to that query.

								// See query subpackage for our implementation.

								package pubsub


								import (

									"context"

									"errors"

									"sync"


									cmn "github.com/tendermint/tendermint/libs/common"

								)


								type operation int


								const (

									sub operation = iota

									pub

									unsub

									shutdown

								)


								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")

								)


								type cmd struct {

									op       operation

									query    Query

									ch       chan<- interface{}

									clientID string

									msg      interface{}

									tags     TagMap

								}


								// Query defines an interface for a query to be used for subscribing.

								type Query interface {

									Matches(tags TagMap) bool

									String() string

								}


								// Server allows clients to subscribe/unsubscribe for messages, publishing

								// messages with or without tags, and manages internal state.

								type Server struct {

									cmn.BaseService


									cmds    chan cmd

									cmdsCap int


									mtx           sync.RWMutex

									subscriptions map[string]map[string]Query // subscriber -> query (string) -> Query

								}


								// Option sets a parameter for the server.

								type Option func(*Server)


								// TagMap is used to associate tags to a message.

								// They can be queried by subscribers to choose messages they will received.

								type TagMap interface {

									// Get returns the value for a key, or nil if no value is present.

									// The ok result indicates whether value was found in the tags.

									Get(key string) (value string, ok bool)

									// Len returns the number of tags.

									Len() int

								}


								type tagMap map[string]string


								var _ TagMap = (*tagMap)(nil)


								// NewTagMap constructs a new immutable tag set from a map.

								func NewTagMap(data map[string]string) TagMap {

									return tagMap(data)

								}


								// Get returns the value for a key, or nil if no value is present.

								// The ok result indicates whether value was found in the tags.

								func (ts tagMap) Get(key string) (value string, ok bool) {

									value, ok = ts[key]

									return

								}


								// Len returns the number of tags.

								func (ts tagMap) Len() int {

									return len(ts)

								}


								// 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(options ...Option) *Server {

									s := &Server{

										subscriptions: make(map[string]map[string]Query),

									}

									s.BaseService = *cmn.NewBaseService(nil, "PubSub", s)


									for _, option := range options {

										option(s)

									}


									// if BufferCapacity option was not set, the channel is unbuffered

									s.cmds = make(chan cmd, s.cmdsCap)


									return s

								}


								// BufferCapacity allows you to specify capacity for the internal server's

								// queue. Since the server, given Y subscribers, could only process X messages,

								// this option could be used to survive spikes (e.g. high amount of

								// transactions during peak hours).

								func BufferCapacity(cap int) Option {

									return func(s *Server) {

										if cap > 0 {

											s.cmdsCap = cap

										}

									}

								}


								// BufferCapacity returns capacity of the internal server's queue.

								func (s *Server) BufferCapacity() int {

									return s.cmdsCap

								}


								// Subscribe creates a subscription for the given client. It accepts a channel

								// on which messages matching the given query can be received. An error will be

								// returned to the caller if the context is canceled or if subscription already

								// exist for pair clientID and query.

								func (s *Server) Subscribe(ctx context.Context, clientID string, query Query, out chan<- interface{}) error {

									s.mtx.RLock()

									clientSubscriptions, ok := s.subscriptions[clientID]

									if ok {

										_, ok = clientSubscriptions[query.String()]

									}

									s.mtx.RUnlock()

									if ok {

										return ErrAlreadySubscribed

									}


									select {

									case s.cmds <- cmd{op: sub, clientID: clientID, query: query, ch: out}:

										s.mtx.Lock()

										if _, ok = s.subscriptions[clientID]; !ok {

											s.subscriptions[clientID] = make(map[string]Query)

										}

										// preserve original query

										// see Unsubscribe

										s.subscriptions[clientID][query.String()] = query

										s.mtx.Unlock()

										return nil

									case <-ctx.Done():

										return ctx.Err()

									case <-s.Quit():

										return nil

									}

								}


								// Unsubscribe removes the subscription on the given query. An error will be

								// returned to the caller if the context is canceled or if subscription does

								// not exist.

								func (s *Server) Unsubscribe(ctx context.Context, clientID string, query Query) error {

									var origQuery Query

									s.mtx.RLock()

									clientSubscriptions, ok := s.subscriptions[clientID]

									if ok {

										origQuery, ok = clientSubscriptions[query.String()]

									}

									s.mtx.RUnlock()

									if !ok {

										return ErrSubscriptionNotFound

									}


									// original query is used here because we're using pointers as map keys

									select {

									case s.cmds <- cmd{op: unsub, clientID: clientID, query: origQuery}:

										s.mtx.Lock()

										delete(clientSubscriptions, query.String())

										s.mtx.Unlock()

										return nil

									case <-ctx.Done():

										return ctx.Err()

									case <-s.Quit():

										return nil

									}

								}


								// UnsubscribeAll removes all client subscriptions. An error will be returned

								// to the caller if the context is canceled or if subscription does not exist.

								func (s *Server) UnsubscribeAll(ctx context.Context, clientID string) error {

									s.mtx.RLock()

									_, ok := s.subscriptions[clientID]

									s.mtx.RUnlock()

									if !ok {

										return ErrSubscriptionNotFound

									}


									select {

									case s.cmds <- cmd{op: unsub, clientID: clientID}:

										s.mtx.Lock()

										delete(s.subscriptions, clientID)

										s.mtx.Unlock()

										return nil

									case <-ctx.Done():

										return ctx.Err()

									case <-s.Quit():

										return nil

									}

								}


								// 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 interface{}) error {

									return s.PublishWithTags(ctx, msg, NewTagMap(make(map[string]string)))

								}


								// PublishWithTags publishes the given message with the set of tags. The set is

								// matched with clients queries. If there is a match, the message is sent to

								// the client.

								func (s *Server) PublishWithTags(ctx context.Context, msg interface{}, tags TagMap) error {

									select {

									case s.cmds <- cmd{op: pub, msg: msg, tags: tags}:

										return nil

									case <-ctx.Done():

										return ctx.Err()

									case <-s.Quit():

										return nil

									}

								}


								// OnStop implements Service.OnStop by shutting down the server.

								func (s *Server) OnStop() {

									s.cmds <- cmd{op: shutdown}

								}


								// NOTE: not goroutine safe

								type state struct {

									// query -> client -> ch

									queries map[Query]map[string]chan<- interface{}

									// client -> query -> struct{}

									clients map[string]map[Query]struct{}

								}


								// OnStart implements Service.OnStart by starting the server.

								func (s *Server) OnStart() error {

									go s.loop(state{

										queries: make(map[Query]map[string]chan<- interface{}),

										clients: make(map[string]map[Query]struct{}),

									})

									return nil

								}


								// OnReset implements Service.OnReset

								func (s *Server) OnReset() error {

									return nil

								}


								func (s *Server) loop(state state) {

								loop:

									for cmd := range s.cmds {

										switch cmd.op {

										case unsub:

											if cmd.query != nil {

												state.remove(cmd.clientID, cmd.query)

											} else {

												state.removeAll(cmd.clientID)

											}

										case shutdown:

											for clientID := range state.clients {

												state.removeAll(clientID)

											}

											break loop

										case sub:

											state.add(cmd.clientID, cmd.query, cmd.ch)

										case pub:

											state.send(cmd.msg, cmd.tags)

										}

									}

								}


								func (state *state) add(clientID string, q Query, ch chan<- interface{}) {


									// initialize clientToChannelMap per query if needed

									if _, ok := state.queries[q]; !ok {

										state.queries[q] = make(map[string]chan<- interface{})

									}


									// create subscription

									state.queries[q][clientID] = ch


									// add client if needed

									if _, ok := state.clients[clientID]; !ok {

										state.clients[clientID] = make(map[Query]struct{})

									}

									state.clients[clientID][q] = struct{}{}

								}


								func (state *state) remove(clientID string, q Query) {

									clientToChannelMap, ok := state.queries[q]

									if !ok {

										return

									}


									ch, ok := clientToChannelMap[clientID]

									if ok {

										close(ch)


										delete(state.clients[clientID], q)


										// if it not subscribed to anything else, remove the client

										if len(state.clients[clientID]) == 0 {

											delete(state.clients, clientID)

										}


										delete(state.queries[q], clientID)

										if len(state.queries[q]) == 0 {

											delete(state.queries, q)

										}

									}

								}


								func (state *state) removeAll(clientID string) {

									queryMap, ok := state.clients[clientID]

									if !ok {

										return

									}


									for q := range queryMap {

										ch := state.queries[q][clientID]

										close(ch)


										delete(state.queries[q], clientID)

										if len(state.queries[q]) == 0 {

											delete(state.queries, q)

										}

									}

									delete(state.clients, clientID)

								}


								func (state *state) send(msg interface{}, tags TagMap) {

									for q, clientToChannelMap := range state.queries {

										if q.Matches(tags) {

											for _, ch := range clientToChannelMap {

												ch <- msg

											}

										}

									}

								}