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pubsub.go
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pubsub.go
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package pubsub
import (
"context"
"encoding/binary"
"errors"
"fmt"
"math/rand"
"sync"
"sync/atomic"
"time"
pb "github.com/libp2p/go-libp2p-pubsub/pb"
"github.com/libp2p/go-libp2p/core/crypto"
"github.com/libp2p/go-libp2p/core/discovery"
"github.com/libp2p/go-libp2p/core/host"
"github.com/libp2p/go-libp2p/core/network"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/libp2p/go-libp2p/core/protocol"
logging "github.com/ipfs/go-log"
"github.com/whyrusleeping/timecache"
)
// DefaultMaximumMessageSize is 1mb.
const DefaultMaxMessageSize = 1 << 20
var (
// TimeCacheDuration specifies how long a message ID will be remembered as seen.
// Use WithSeenMessagesTTL to configure this per pubsub instance, instead of overriding the global default.
TimeCacheDuration = 120 * time.Second
// ErrSubscriptionCancelled may be returned when a subscription Next() is called after the
// subscription has been cancelled.
ErrSubscriptionCancelled = errors.New("subscription cancelled")
)
var log = logging.Logger("pubsub")
type ProtocolMatchFn = func(string) func(string) bool
// PubSub is the implementation of the pubsub system.
type PubSub struct {
// atomic counter for seqnos
// NOTE: Must be declared at the top of the struct as we perform atomic
// operations on this field.
//
// See: https://golang.org/pkg/sync/atomic/#pkg-note-BUG
counter uint64
host host.Host
rt PubSubRouter
val *validation
disc *discover
tracer *pubsubTracer
peerFilter PeerFilter
// maxMessageSize is the maximum message size; it applies globally to all
// topics.
maxMessageSize int
// size of the outbound message channel that we maintain for each peer
peerOutboundQueueSize int
// incoming messages from other peers
incoming chan *RPC
// addSub is a control channel for us to add and remove subscriptions
addSub chan *addSubReq
// addRelay is a control channel for us to add and remove relays
addRelay chan *addRelayReq
// rmRelay is a relay cancellation channel
rmRelay chan string
// get list of topics we are subscribed to
getTopics chan *topicReq
// get chan of peers we are connected to
getPeers chan *listPeerReq
// send subscription here to cancel it
cancelCh chan *Subscription
// addSub is a channel for us to add a topic
addTopic chan *addTopicReq
// removeTopic is a topic cancellation channel
rmTopic chan *rmTopicReq
// a notification channel for new peer connections accumulated
newPeers chan struct{}
newPeersPrioLk sync.RWMutex
newPeersMx sync.Mutex
newPeersPend map[peer.ID]struct{}
// a notification channel for new outoging peer streams
newPeerStream chan network.Stream
// a notification channel for errors opening new peer streams
newPeerError chan peer.ID
// a notification channel for when our peers die
peerDead chan struct{}
peerDeadPrioLk sync.RWMutex
peerDeadMx sync.Mutex
peerDeadPend map[peer.ID]struct{}
// backoff for retrying new connections to dead peers
deadPeerBackoff *backoff
// The set of topics we are subscribed to
mySubs map[string]map[*Subscription]struct{}
// The set of topics we are relaying for
myRelays map[string]int
// The set of topics we are interested in
myTopics map[string]*Topic
// topics tracks which topics each of our peers are subscribed to
topics map[string]map[peer.ID]struct{}
// sendMsg handles messages that have been validated
sendMsg chan *Message
// addVal handles validator registration requests
addVal chan *addValReq
// rmVal handles validator unregistration requests
rmVal chan *rmValReq
// eval thunk in event loop
eval chan func()
// peer blacklist
blacklist Blacklist
blacklistPeer chan peer.ID
peers map[peer.ID]chan *RPC
inboundStreamsMx sync.Mutex
inboundStreams map[peer.ID]network.Stream
seenMessagesMx sync.Mutex
seenMessages *timecache.TimeCache
seenMsgTTL time.Duration
// generator used to compute the ID for a message
idGen *msgIDGenerator
// key for signing messages; nil when signing is disabled
signKey crypto.PrivKey
// source ID for signed messages; corresponds to signKey, empty when signing is disabled.
// If empty, the author and seq-nr are completely omitted from the messages.
signID peer.ID
// strict mode rejects all unsigned messages prior to validation
signPolicy MessageSignaturePolicy
// filter for tracking subscriptions in topics of interest; if nil, then we track all subscriptions
subFilter SubscriptionFilter
// protoMatchFunc is a matching function for protocol selection.
protoMatchFunc ProtocolMatchFn
ctx context.Context
}
// PubSubRouter is the message router component of PubSub.
type PubSubRouter interface {
// Protocols returns the list of protocols supported by the router.
Protocols() []protocol.ID
// Attach is invoked by the PubSub constructor to attach the router to a
// freshly initialized PubSub instance.
Attach(*PubSub)
// AddPeer notifies the router that a new peer has been connected.
AddPeer(peer.ID, protocol.ID)
// RemovePeer notifies the router that a peer has been disconnected.
RemovePeer(peer.ID)
// EnoughPeers returns whether the router needs more peers before it's ready to publish new records.
// Suggested (if greater than 0) is a suggested number of peers that the router should need.
EnoughPeers(topic string, suggested int) bool
// AcceptFrom is invoked on any incoming message before pushing it to the validation pipeline
// or processing control information.
// Allows routers with internal scoring to vet peers before committing any processing resources
// to the message and implement an effective graylist and react to validation queue overload.
AcceptFrom(peer.ID) AcceptStatus
// HandleRPC is invoked to process control messages in the RPC envelope.
// It is invoked after subscriptions and payload messages have been processed.
HandleRPC(*RPC)
// Publish is invoked to forward a new message that has been validated.
Publish(*Message)
// Join notifies the router that we want to receive and forward messages in a topic.
// It is invoked after the subscription announcement.
Join(topic string)
// Leave notifies the router that we are no longer interested in a topic.
// It is invoked after the unsubscription announcement.
Leave(topic string)
}
type AcceptStatus int
const (
// AcceptNone signals to drop the incoming RPC
AcceptNone AcceptStatus = iota
// AcceptControl signals to accept the incoming RPC only for control message processing by
// the router. Included payload messages will _not_ be pushed to the validation queue.
AcceptControl
// AcceptAll signals to accept the incoming RPC for full processing
AcceptAll
)
type Message struct {
*pb.Message
ID string
ReceivedFrom peer.ID
ValidatorData interface{}
Local bool
}
func (m *Message) GetFrom() peer.ID {
return peer.ID(m.Message.GetFrom())
}
type RPC struct {
pb.RPC
// unexported on purpose, not sending this over the wire
from peer.ID
}
type Option func(*PubSub) error
// NewPubSub returns a new PubSub management object.
func NewPubSub(ctx context.Context, h host.Host, rt PubSubRouter, opts ...Option) (*PubSub, error) {
ps := &PubSub{
host: h,
ctx: ctx,
rt: rt,
val: newValidation(),
peerFilter: DefaultPeerFilter,
disc: &discover{},
maxMessageSize: DefaultMaxMessageSize,
peerOutboundQueueSize: 32,
signID: h.ID(),
signKey: nil,
signPolicy: StrictSign,
incoming: make(chan *RPC, 32),
newPeers: make(chan struct{}, 1),
newPeersPend: make(map[peer.ID]struct{}),
newPeerStream: make(chan network.Stream),
newPeerError: make(chan peer.ID),
peerDead: make(chan struct{}, 1),
peerDeadPend: make(map[peer.ID]struct{}),
deadPeerBackoff: newBackoff(ctx, 1000, BackoffCleanupInterval, MaxBackoffAttempts),
cancelCh: make(chan *Subscription),
getPeers: make(chan *listPeerReq),
addSub: make(chan *addSubReq),
addRelay: make(chan *addRelayReq),
rmRelay: make(chan string),
addTopic: make(chan *addTopicReq),
rmTopic: make(chan *rmTopicReq),
getTopics: make(chan *topicReq),
sendMsg: make(chan *Message, 32),
addVal: make(chan *addValReq),
rmVal: make(chan *rmValReq),
eval: make(chan func()),
myTopics: make(map[string]*Topic),
mySubs: make(map[string]map[*Subscription]struct{}),
myRelays: make(map[string]int),
topics: make(map[string]map[peer.ID]struct{}),
peers: make(map[peer.ID]chan *RPC),
inboundStreams: make(map[peer.ID]network.Stream),
blacklist: NewMapBlacklist(),
blacklistPeer: make(chan peer.ID),
seenMsgTTL: TimeCacheDuration,
idGen: newMsgIdGenerator(),
counter: uint64(time.Now().UnixNano()),
}
for _, opt := range opts {
err := opt(ps)
if err != nil {
return nil, err
}
}
if ps.signPolicy.mustSign() {
if ps.signID == "" {
return nil, fmt.Errorf("strict signature usage enabled but message author was disabled")
}
ps.signKey = ps.host.Peerstore().PrivKey(ps.signID)
if ps.signKey == nil {
return nil, fmt.Errorf("can't sign for peer %s: no private key", ps.signID)
}
}
ps.seenMessages = timecache.NewTimeCache(ps.seenMsgTTL)
if err := ps.disc.Start(ps); err != nil {
return nil, err
}
rt.Attach(ps)
for _, id := range rt.Protocols() {
if ps.protoMatchFunc != nil {
h.SetStreamHandlerMatch(id, ps.protoMatchFunc(string(id)), ps.handleNewStream)
} else {
h.SetStreamHandler(id, ps.handleNewStream)
}
}
h.Network().Notify((*PubSubNotif)(ps))
ps.val.Start(ps)
go ps.processLoop(ctx)
(*PubSubNotif)(ps).Initialize()
return ps, nil
}
// MsgIdFunction returns a unique ID for the passed Message, and PubSub can be customized to use any
// implementation of this function by configuring it with the Option from WithMessageIdFn.
type MsgIdFunction func(pmsg *pb.Message) string
// WithMessageIdFn is an option to customize the way a message ID is computed for a pubsub message.
// The default ID function is DefaultMsgIdFn (concatenate source and seq nr.),
// but it can be customized to e.g. the hash of the message.
func WithMessageIdFn(fn MsgIdFunction) Option {
return func(p *PubSub) error {
p.idGen.Default = fn
return nil
}
}
// PeerFilter is used to filter pubsub peers. It should return true for peers that are accepted for
// a given topic. PubSub can be customized to use any implementation of this function by configuring
// it with the Option from WithPeerFilter.
type PeerFilter func(pid peer.ID, topic string) bool
// WithPeerFilter is an option to set a filter for pubsub peers.
// The default peer filter is DefaultPeerFilter (which always returns true), but it can be customized
// to any custom implementation.
func WithPeerFilter(filter PeerFilter) Option {
return func(p *PubSub) error {
p.peerFilter = filter
return nil
}
}
// WithPeerOutboundQueueSize is an option to set the buffer size for outbound messages to a peer
// We start dropping messages to a peer if the outbound queue if full
func WithPeerOutboundQueueSize(size int) Option {
return func(p *PubSub) error {
if size <= 0 {
return errors.New("outbound queue size must always be positive")
}
p.peerOutboundQueueSize = size
return nil
}
}
// WithMessageSignaturePolicy sets the mode of operation for producing and verifying message signatures.
func WithMessageSignaturePolicy(policy MessageSignaturePolicy) Option {
return func(p *PubSub) error {
p.signPolicy = policy
return nil
}
}
// WithMessageSigning enables or disables message signing (enabled by default).
// Deprecated: signature verification without message signing,
// or message signing without verification, are not recommended.
func WithMessageSigning(enabled bool) Option {
return func(p *PubSub) error {
if enabled {
p.signPolicy |= msgSigning
} else {
p.signPolicy &^= msgSigning
}
return nil
}
}
// WithMessageAuthor sets the author for outbound messages to the given peer ID
// (defaults to the host's ID). If message signing is enabled, the private key
// must be available in the host's peerstore.
func WithMessageAuthor(author peer.ID) Option {
return func(p *PubSub) error {
author := author
if author == "" {
author = p.host.ID()
}
p.signID = author
return nil
}
}
// WithNoAuthor omits the author and seq-number data of messages, and disables the use of signatures.
// Not recommended to use with the default message ID function, see WithMessageIdFn.
func WithNoAuthor() Option {
return func(p *PubSub) error {
p.signID = ""
p.signPolicy &^= msgSigning
return nil
}
}
// WithStrictSignatureVerification is an option to enable or disable strict message signing.
// When enabled (which is the default), unsigned messages will be discarded.
// Deprecated: signature verification without message signing,
// or message signing without verification, are not recommended.
func WithStrictSignatureVerification(required bool) Option {
return func(p *PubSub) error {
if required {
p.signPolicy |= msgVerification
} else {
p.signPolicy &^= msgVerification
}
return nil
}
}
// WithBlacklist provides an implementation of the blacklist; the default is a
// MapBlacklist
func WithBlacklist(b Blacklist) Option {
return func(p *PubSub) error {
p.blacklist = b
return nil
}
}
// WithDiscovery provides a discovery mechanism used to bootstrap and provide peers into PubSub
func WithDiscovery(d discovery.Discovery, opts ...DiscoverOpt) Option {
return func(p *PubSub) error {
discoverOpts := defaultDiscoverOptions()
for _, opt := range opts {
err := opt(discoverOpts)
if err != nil {
return err
}
}
p.disc.discovery = &pubSubDiscovery{Discovery: d, opts: discoverOpts.opts}
p.disc.options = discoverOpts
return nil
}
}
// WithEventTracer provides a tracer for the pubsub system
func WithEventTracer(tracer EventTracer) Option {
return func(p *PubSub) error {
if p.tracer != nil {
p.tracer.tracer = tracer
} else {
p.tracer = &pubsubTracer{tracer: tracer, pid: p.host.ID(), idGen: p.idGen}
}
return nil
}
}
// WithRawTracer adds a raw tracer to the pubsub system.
// Multiple tracers can be added using multiple invocations of the option.
func WithRawTracer(tracer RawTracer) Option {
return func(p *PubSub) error {
if p.tracer != nil {
p.tracer.raw = append(p.tracer.raw, tracer)
} else {
p.tracer = &pubsubTracer{raw: []RawTracer{tracer}, pid: p.host.ID(), idGen: p.idGen}
}
return nil
}
}
// WithMaxMessageSize sets the global maximum message size for pubsub wire
// messages. The default value is 1MiB (DefaultMaxMessageSize).
//
// Observe the following warnings when setting this option.
//
// WARNING #1: Make sure to change the default protocol prefixes for floodsub
// (FloodSubID) and gossipsub (GossipSubID). This avoids accidentally joining
// the public default network, which uses the default max message size, and
// therefore will cause messages to be dropped.
//
// WARNING #2: Reducing the default max message limit is fine, if you are
// certain that your application messages will not exceed the new limit.
// However, be wary of increasing the limit, as pubsub networks are naturally
// write-amplifying, i.e. for every message we receive, we send D copies of the
// message to our peers. If those messages are large, the bandwidth requirements
// will grow linearly. Note that propagation is sent on the uplink, which
// traditionally is more constrained than the downlink. Instead, consider
// out-of-band retrieval for large messages, by sending a CID (Content-ID) or
// another type of locator, such that messages can be fetched on-demand, rather
// than being pushed proactively. Under this design, you'd use the pubsub layer
// as a signalling system, rather than a data delivery system.
func WithMaxMessageSize(maxMessageSize int) Option {
return func(ps *PubSub) error {
ps.maxMessageSize = maxMessageSize
return nil
}
}
// WithProtocolMatchFn sets a custom matching function for protocol selection to
// be used by the protocol handler on the Host's Mux. Should be combined with
// WithGossipSubProtocols feature function for checking if certain protocol features
// are supported
func WithProtocolMatchFn(m ProtocolMatchFn) Option {
return func(ps *PubSub) error {
ps.protoMatchFunc = m
return nil
}
}
// WithSeenMessagesTTL configures when a previously seen message ID can be forgotten about
func WithSeenMessagesTTL(ttl time.Duration) Option {
return func(ps *PubSub) error {
ps.seenMsgTTL = ttl
return nil
}
}
// processLoop handles all inputs arriving on the channels
func (p *PubSub) processLoop(ctx context.Context) {
defer func() {
// Clean up go routines.
for _, ch := range p.peers {
close(ch)
}
p.peers = nil
p.topics = nil
}()
for {
select {
case <-p.newPeers:
p.handlePendingPeers()
case s := <-p.newPeerStream:
pid := s.Conn().RemotePeer()
ch, ok := p.peers[pid]
if !ok {
log.Warn("new stream for unknown peer: ", pid)
s.Reset()
continue
}
if p.blacklist.Contains(pid) {
log.Warn("closing stream for blacklisted peer: ", pid)
close(ch)
delete(p.peers, pid)
s.Reset()
continue
}
p.rt.AddPeer(pid, s.Protocol())
case pid := <-p.newPeerError:
delete(p.peers, pid)
case <-p.peerDead:
p.handleDeadPeers()
case treq := <-p.getTopics:
var out []string
for t := range p.mySubs {
out = append(out, t)
}
treq.resp <- out
case topic := <-p.addTopic:
p.handleAddTopic(topic)
case topic := <-p.rmTopic:
p.handleRemoveTopic(topic)
case sub := <-p.cancelCh:
p.handleRemoveSubscription(sub)
case sub := <-p.addSub:
p.handleAddSubscription(sub)
case relay := <-p.addRelay:
p.handleAddRelay(relay)
case topic := <-p.rmRelay:
p.handleRemoveRelay(topic)
case preq := <-p.getPeers:
tmap, ok := p.topics[preq.topic]
if preq.topic != "" && !ok {
preq.resp <- nil
continue
}
var peers []peer.ID
for p := range p.peers {
if preq.topic != "" {
_, ok := tmap[p]
if !ok {
continue
}
}
peers = append(peers, p)
}
preq.resp <- peers
case rpc := <-p.incoming:
p.handleIncomingRPC(rpc)
case msg := <-p.sendMsg:
p.publishMessage(msg)
case req := <-p.addVal:
p.val.AddValidator(req)
case req := <-p.rmVal:
p.val.RemoveValidator(req)
case thunk := <-p.eval:
thunk()
case pid := <-p.blacklistPeer:
log.Infof("Blacklisting peer %s", pid)
p.blacklist.Add(pid)
ch, ok := p.peers[pid]
if ok {
close(ch)
delete(p.peers, pid)
for t, tmap := range p.topics {
if _, ok := tmap[pid]; ok {
delete(tmap, pid)
p.notifyLeave(t, pid)
}
}
p.rt.RemovePeer(pid)
}
case <-ctx.Done():
log.Info("pubsub processloop shutting down")
return
}
}
}
func (p *PubSub) handlePendingPeers() {
p.newPeersPrioLk.Lock()
if len(p.newPeersPend) == 0 {
p.newPeersPrioLk.Unlock()
return
}
newPeers := p.newPeersPend
p.newPeersPend = make(map[peer.ID]struct{})
p.newPeersPrioLk.Unlock()
for pid := range newPeers {
if p.host.Network().Connectedness(pid) != network.Connected {
continue
}
if _, ok := p.peers[pid]; ok {
log.Debug("already have connection to peer: ", pid)
continue
}
if p.blacklist.Contains(pid) {
log.Warn("ignoring connection from blacklisted peer: ", pid)
continue
}
messages := make(chan *RPC, p.peerOutboundQueueSize)
messages <- p.getHelloPacket()
go p.handleNewPeer(p.ctx, pid, messages)
p.peers[pid] = messages
}
}
func (p *PubSub) handleDeadPeers() {
p.peerDeadPrioLk.Lock()
if len(p.peerDeadPend) == 0 {
p.peerDeadPrioLk.Unlock()
return
}
deadPeers := p.peerDeadPend
p.peerDeadPend = make(map[peer.ID]struct{})
p.peerDeadPrioLk.Unlock()
for pid := range deadPeers {
ch, ok := p.peers[pid]
if !ok {
continue
}
close(ch)
delete(p.peers, pid)
for t, tmap := range p.topics {
if _, ok := tmap[pid]; ok {
delete(tmap, pid)
p.notifyLeave(t, pid)
}
}
p.rt.RemovePeer(pid)
if p.host.Network().Connectedness(pid) == network.Connected {
backoffDelay, err := p.deadPeerBackoff.updateAndGet(pid)
if err != nil {
log.Debug(err)
continue
}
// still connected, must be a duplicate connection being closed.
// we respawn the writer as we need to ensure there is a stream active
log.Debugf("peer declared dead but still connected; respawning writer: %s", pid)
messages := make(chan *RPC, p.peerOutboundQueueSize)
messages <- p.getHelloPacket()
p.peers[pid] = messages
go p.handleNewPeerWithBackoff(p.ctx, pid, backoffDelay, messages)
}
}
}
// handleAddTopic adds a tracker for a particular topic.
// Only called from processLoop.
func (p *PubSub) handleAddTopic(req *addTopicReq) {
topic := req.topic
topicID := topic.topic
t, ok := p.myTopics[topicID]
if ok {
req.resp <- t
return
}
p.myTopics[topicID] = topic
req.resp <- topic
}
// handleRemoveTopic removes Topic tracker from bookkeeping.
// Only called from processLoop.
func (p *PubSub) handleRemoveTopic(req *rmTopicReq) {
topic := p.myTopics[req.topic.topic]
if topic == nil {
req.resp <- nil
return
}
if len(topic.evtHandlers) == 0 &&
len(p.mySubs[req.topic.topic]) == 0 &&
p.myRelays[req.topic.topic] == 0 {
delete(p.myTopics, topic.topic)
req.resp <- nil
return
}
req.resp <- fmt.Errorf("cannot close topic: outstanding event handlers or subscriptions")
}
// handleRemoveSubscription removes Subscription sub from bookeeping.
// If this was the last subscription and no more relays exist for a given topic,
// it will also announce that this node is not subscribing to this topic anymore.
// Only called from processLoop.
func (p *PubSub) handleRemoveSubscription(sub *Subscription) {
subs := p.mySubs[sub.topic]
if subs == nil {
return
}
sub.err = ErrSubscriptionCancelled
sub.close()
delete(subs, sub)
if len(subs) == 0 {
delete(p.mySubs, sub.topic)
// stop announcing only if there are no more subs and relays
if p.myRelays[sub.topic] == 0 {
p.disc.StopAdvertise(sub.topic)
p.announce(sub.topic, false)
p.rt.Leave(sub.topic)
}
}
}
// handleAddSubscription adds a Subscription for a particular topic. If it is
// the first subscription and no relays exist so far for the topic, it will
// announce that this node subscribes to the topic.
// Only called from processLoop.
func (p *PubSub) handleAddSubscription(req *addSubReq) {
sub := req.sub
subs := p.mySubs[sub.topic]
// announce we want this topic if neither subs nor relays exist so far
if len(subs) == 0 && p.myRelays[sub.topic] == 0 {
p.disc.Advertise(sub.topic)
p.announce(sub.topic, true)
p.rt.Join(sub.topic)
}
// make new if not there
if subs == nil {
p.mySubs[sub.topic] = make(map[*Subscription]struct{})
}
sub.cancelCh = p.cancelCh
p.mySubs[sub.topic][sub] = struct{}{}
req.resp <- sub
}
// handleAddRelay adds a relay for a particular topic. If it is
// the first relay and no subscriptions exist so far for the topic , it will
// announce that this node relays for the topic.
// Only called from processLoop.
func (p *PubSub) handleAddRelay(req *addRelayReq) {
topic := req.topic
p.myRelays[topic]++
// announce we want this topic if neither relays nor subs exist so far
if p.myRelays[topic] == 1 && len(p.mySubs[topic]) == 0 {
p.disc.Advertise(topic)
p.announce(topic, true)
p.rt.Join(topic)
}
// flag used to prevent calling cancel function multiple times
isCancelled := false
relayCancelFunc := func() {
if isCancelled {
return
}
select {
case p.rmRelay <- topic:
isCancelled = true
case <-p.ctx.Done():
}
}
req.resp <- relayCancelFunc
}
// handleRemoveRelay removes one relay reference from bookkeeping.
// If this was the last relay reference and no more subscriptions exist
// for a given topic, it will also announce that this node is not relaying
// for this topic anymore.
// Only called from processLoop.
func (p *PubSub) handleRemoveRelay(topic string) {
if p.myRelays[topic] == 0 {
return
}
p.myRelays[topic]--
if p.myRelays[topic] == 0 {
delete(p.myRelays, topic)
// stop announcing only if there are no more relays and subs
if len(p.mySubs[topic]) == 0 {
p.disc.StopAdvertise(topic)
p.announce(topic, false)
p.rt.Leave(topic)
}
}
}
// announce announces whether or not this node is interested in a given topic
// Only called from processLoop.
func (p *PubSub) announce(topic string, sub bool) {
subopt := &pb.RPC_SubOpts{
Topicid: &topic,
Subscribe: &sub,
}
out := rpcWithSubs(subopt)
for pid, peer := range p.peers {
select {
case peer <- out:
p.tracer.SendRPC(out, pid)
default:
log.Infof("Can't send announce message to peer %s: queue full; scheduling retry", pid)
p.tracer.DropRPC(out, pid)
go p.announceRetry(pid, topic, sub)
}
}
}
func (p *PubSub) announceRetry(pid peer.ID, topic string, sub bool) {
time.Sleep(time.Duration(1+rand.Intn(1000)) * time.Millisecond)
retry := func() {
_, okSubs := p.mySubs[topic]
_, okRelays := p.myRelays[topic]
ok := okSubs || okRelays
if (ok && sub) || (!ok && !sub) {
p.doAnnounceRetry(pid, topic, sub)
}
}
select {
case p.eval <- retry:
case <-p.ctx.Done():
}
}
func (p *PubSub) doAnnounceRetry(pid peer.ID, topic string, sub bool) {
peer, ok := p.peers[pid]
if !ok {
return
}
subopt := &pb.RPC_SubOpts{
Topicid: &topic,
Subscribe: &sub,
}
out := rpcWithSubs(subopt)
select {
case peer <- out:
p.tracer.SendRPC(out, pid)
default:
log.Infof("Can't send announce message to peer %s: queue full; scheduling retry", pid)
p.tracer.DropRPC(out, pid)
go p.announceRetry(pid, topic, sub)
}
}
// notifySubs sends a given message to all corresponding subscribers.
// Only called from processLoop.
func (p *PubSub) notifySubs(msg *Message) {
topic := msg.GetTopic()
subs := p.mySubs[topic]
for f := range subs {
select {
case f.ch <- msg:
default:
p.tracer.UndeliverableMessage(msg)
log.Infof("Can't deliver message to subscription for topic %s; subscriber too slow", topic)
}
}
}
// seenMessage returns whether we already saw this message before
func (p *PubSub) seenMessage(id string) bool {
p.seenMessagesMx.Lock()
defer p.seenMessagesMx.Unlock()
return p.seenMessages.Has(id)
}
// markSeen marks a message as seen such that seenMessage returns `true' for the given id
// returns true if the message was freshly marked
func (p *PubSub) markSeen(id string) bool {
p.seenMessagesMx.Lock()
defer p.seenMessagesMx.Unlock()
if p.seenMessages.Has(id) {
return false
}
p.seenMessages.Add(id)
return true
}
// subscribedToMessage returns whether we are subscribed to one of the topics
// of a given message
func (p *PubSub) subscribedToMsg(msg *pb.Message) bool {
if len(p.mySubs) == 0 {
return false
}
topic := msg.GetTopic()
_, ok := p.mySubs[topic]
return ok
}
// canRelayMsg returns whether we are able to relay for one of the topics
// of a given message
func (p *PubSub) canRelayMsg(msg *pb.Message) bool {
if len(p.myRelays) == 0 {
return false
}
topic := msg.GetTopic()
relays := p.myRelays[topic]
return relays > 0
}