go-libp2p-pubsub/pubsub.go

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package floodsub
import (
"context"
"encoding/binary"
"fmt"
"sync/atomic"
"time"
pb "github.com/libp2p/go-floodsub/pb"
logging "github.com/ipfs/go-log"
host "github.com/libp2p/go-libp2p-host"
inet "github.com/libp2p/go-libp2p-net"
peer "github.com/libp2p/go-libp2p-peer"
protocol "github.com/libp2p/go-libp2p-protocol"
timecache "github.com/whyrusleeping/timecache"
)
const (
defaultValidateTimeout = 150 * time.Millisecond
defaultValidateConcurrency = 100
defaultValidateThrottle = 8192
)
var log = logging.Logger("pubsub")
type PubSub struct {
host host.Host
rt PubSubRouter
// incoming messages from other peers
incoming chan *RPC
// messages we are publishing out to our peers
publish chan *Message
// addSub is a control channel for us to add and remove subscriptions
addSub chan *addSubReq
// 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
// a notification channel for incoming streams from other peers
newPeers chan inet.Stream
// a notification channel for when our peers die
peerDead chan peer.ID
// The set of topics we are subscribed to
myTopics map[string]map[*Subscription]struct{}
// 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 *sendReq
// addVal handles validator registration requests
addVal chan *addValReq
// topicVals tracks per topic validators
topicVals map[string]*topicVal
// validateThrottle limits the number of active validation goroutines
validateThrottle chan struct{}
peers map[peer.ID]chan *RPC
seenMessages *timecache.TimeCache
ctx context.Context
// atomic counter for seqnos
counter uint64
}
// PubSubRouter is the message router component of PubSub
type PubSubRouter interface {
Protocols() []protocol.ID
Attach(*PubSub)
AddPeer(peer.ID, protocol.ID)
RemovePeer(peer.ID)
HandleRPC(*RPC) error
Publish(peer.ID, *pb.Message) error
}
type Message struct {
*pb.Message
}
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
// NewFloodSub 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,
incoming: make(chan *RPC, 32),
publish: make(chan *Message),
newPeers: make(chan inet.Stream),
peerDead: make(chan peer.ID),
cancelCh: make(chan *Subscription),
getPeers: make(chan *listPeerReq),
addSub: make(chan *addSubReq),
getTopics: make(chan *topicReq),
sendMsg: make(chan *sendReq, 32),
addVal: make(chan *addValReq),
validateThrottle: make(chan struct{}, defaultValidateThrottle),
myTopics: make(map[string]map[*Subscription]struct{}),
topics: make(map[string]map[peer.ID]struct{}),
peers: make(map[peer.ID]chan *RPC),
topicVals: make(map[string]*topicVal),
seenMessages: timecache.NewTimeCache(time.Second * 30),
counter: uint64(time.Now().UnixNano()),
}
for _, opt := range opts {
err := opt(ps)
if err != nil {
return nil, err
}
}
rt.Attach(ps)
for _, id := range rt.Protocols() {
h.SetStreamHandler(id, ps.handleNewStream)
}
h.Network().Notify((*PubSubNotif)(ps))
go ps.processLoop(ctx)
return ps, nil
}
func WithValidateThrottle(n int) Option {
return func(ps *PubSub) error {
ps.validateThrottle = make(chan struct{}, n)
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 s := <-p.newPeers:
pid := s.Conn().RemotePeer()
ch, ok := p.peers[pid]
if ok {
log.Error("already have connection to peer: ", pid)
close(ch)
}
messages := make(chan *RPC, 32)
go p.handleSendingMessages(ctx, s, messages)
messages <- p.getHelloPacket()
p.peers[pid] = messages
p.rt.AddPeer(pid, s.Protocol())
case pid := <-p.peerDead:
ch, ok := p.peers[pid]
if ok {
close(ch)
}
delete(p.peers, pid)
for _, t := range p.topics {
delete(t, pid)
}
p.rt.RemovePeer(pid)
case treq := <-p.getTopics:
var out []string
for t := range p.myTopics {
out = append(out, t)
}
treq.resp <- out
case sub := <-p.cancelCh:
p.handleRemoveSubscription(sub)
case sub := <-p.addSub:
p.handleAddSubscription(sub)
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:
err := p.handleIncomingRPC(rpc)
if err != nil {
log.Error("handling RPC: ", err)
continue
}
case msg := <-p.publish:
vals := p.getValidators(msg)
p.pushMsg(vals, p.host.ID(), msg)
case req := <-p.sendMsg:
p.maybePublishMessage(req.from, req.msg.Message)
case req := <-p.addVal:
p.addValidator(req)
case <-ctx.Done():
log.Info("pubsub processloop shutting down")
return
}
}
}
// handleRemoveSubscription removes Subscription sub from bookeeping.
// If this was the last Subscription 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.myTopics[sub.topic]
if subs == nil {
return
}
sub.err = fmt.Errorf("subscription cancelled by calling sub.Cancel()")
close(sub.ch)
delete(subs, sub)
if len(subs) == 0 {
delete(p.myTopics, sub.topic)
p.announce(sub.topic, false)
}
}
// handleAddSubscription adds a Subscription for a particular topic. If it is
// the first Subscription 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.myTopics[sub.topic]
// announce we want this topic
if len(subs) == 0 {
p.announce(sub.topic, true)
}
// make new if not there
if subs == nil {
p.myTopics[sub.topic] = make(map[*Subscription]struct{})
subs = p.myTopics[sub.topic]
}
sub.ch = make(chan *Message, 32)
sub.cancelCh = p.cancelCh
p.myTopics[sub.topic][sub] = struct{}{}
req.resp <- sub
}
// 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:
default:
log.Infof("dropping announce message to peer %s: queue full", pid)
}
}
}
// notifySubs sends a given message to all corresponding subscribers.
// Only called from processLoop.
func (p *PubSub) notifySubs(msg *pb.Message) {
for _, topic := range msg.GetTopicIDs() {
subs := p.myTopics[topic]
for f := range subs {
f.ch <- &Message{msg}
}
}
}
// seenMessage returns whether we already saw this message before
func (p *PubSub) seenMessage(id string) bool {
return p.seenMessages.Has(id)
}
// markSeen marks a message as seen such that seenMessage returns `true' for the given id
func (p *PubSub) markSeen(id string) {
p.seenMessages.Add(id)
}
// 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.myTopics) == 0 {
return false
}
for _, t := range msg.GetTopicIDs() {
if _, ok := p.myTopics[t]; ok {
return true
}
}
return false
}
func (p *PubSub) handleIncomingRPC(rpc *RPC) error {
for _, subopt := range rpc.GetSubscriptions() {
t := subopt.GetTopicid()
if subopt.GetSubscribe() {
tmap, ok := p.topics[t]
if !ok {
tmap = make(map[peer.ID]struct{})
p.topics[t] = tmap
}
tmap[rpc.from] = struct{}{}
} else {
tmap, ok := p.topics[t]
if !ok {
continue
}
delete(tmap, rpc.from)
}
}
for _, pmsg := range rpc.GetPublish() {
if !p.subscribedToMsg(pmsg) {
log.Warning("received message we didn't subscribe to. Dropping.")
continue
}
msg := &Message{pmsg}
vals := p.getValidators(msg)
p.pushMsg(vals, rpc.from, msg)
}
return p.rt.HandleRPC(rpc)
}
// msgID returns a unique ID of the passed Message
func msgID(pmsg *pb.Message) string {
return string(pmsg.GetFrom()) + string(pmsg.GetSeqno())
}
// pushMsg pushes a message performing validation as necessary
func (p *PubSub) pushMsg(vals []*topicVal, src peer.ID, msg *Message) {
if len(vals) > 0 {
// validation is asynchronous and globally throttled with the throttleValidate semaphore.
// the purpose of the global throttle is to bound the goncurrency possible from incoming
// network traffic; each validator also has an individual throttle to preclude
// slow (or faulty) validators from starving other topics; see validate below.
select {
case p.validateThrottle <- struct{}{}:
go func() {
p.validate(vals, src, msg)
<-p.validateThrottle
}()
default:
log.Warningf("message validation throttled; dropping message from %s", src)
}
return
}
p.maybePublishMessage(src, msg.Message)
}
// validate performs validation and only sends the message if all validators succeed
func (p *PubSub) validate(vals []*topicVal, src peer.ID, msg *Message) {
ctx, cancel := context.WithCancel(p.ctx)
defer cancel()
rch := make(chan bool, len(vals))
rcount := 0
throttle := false
loop:
for _, val := range vals {
rcount++
select {
case val.validateThrottle <- struct{}{}:
go func(val *topicVal) {
rch <- val.validateMsg(ctx, msg)
<-val.validateThrottle
}(val)
default:
log.Debugf("validation throttled for topic %s", val.topic)
throttle = true
break loop
}
}
if throttle {
log.Warningf("message validation throttled; dropping message from %s", src)
return
}
for i := 0; i < rcount; i++ {
valid := <-rch
if !valid {
log.Warningf("message validation failed; dropping message from %s", src)
return
}
}
// all validators were successful, send the message
p.sendMsg <- &sendReq{
from: src,
msg: msg,
}
}
func (p *PubSub) maybePublishMessage(from peer.ID, pmsg *pb.Message) {
id := msgID(pmsg)
if p.seenMessage(id) {
return
}
p.markSeen(id)
p.notifySubs(pmsg)
err := p.rt.Publish(from, pmsg)
if err != nil {
log.Error("publish message: ", err)
}
}
// getValidators returns all validators that apply to a given message
func (p *PubSub) getValidators(msg *Message) []*topicVal {
var vals []*topicVal
for _, topic := range msg.GetTopicIDs() {
val, ok := p.topicVals[topic]
if !ok {
continue
}
vals = append(vals, val)
}
return vals
}
type addSubReq struct {
sub *Subscription
resp chan *Subscription
}
type SubOpt func(sub *Subscription) error
// Subscribe returns a new Subscription for the given topic
func (p *PubSub) Subscribe(topic string, opts ...SubOpt) (*Subscription, error) {
td := pb.TopicDescriptor{Name: &topic}
return p.SubscribeByTopicDescriptor(&td, opts...)
}
// SubscribeByTopicDescriptor lets you subscribe a topic using a pb.TopicDescriptor
func (p *PubSub) SubscribeByTopicDescriptor(td *pb.TopicDescriptor, opts ...SubOpt) (*Subscription, error) {
if td.GetAuth().GetMode() != pb.TopicDescriptor_AuthOpts_NONE {
return nil, fmt.Errorf("auth mode not yet supported")
}
if td.GetEnc().GetMode() != pb.TopicDescriptor_EncOpts_NONE {
return nil, fmt.Errorf("encryption mode not yet supported")
}
sub := &Subscription{
topic: td.GetName(),
}
for _, opt := range opts {
err := opt(sub)
if err != nil {
return nil, err
}
}
out := make(chan *Subscription, 1)
p.addSub <- &addSubReq{
sub: sub,
resp: out,
}
return <-out, nil
}
type topicReq struct {
resp chan []string
}
// GetTopics returns the topics this node is subscribed to
func (p *PubSub) GetTopics() []string {
out := make(chan []string, 1)
p.getTopics <- &topicReq{resp: out}
return <-out
}
// Publish publishes data under the given topic
func (p *PubSub) Publish(topic string, data []byte) error {
seqno := make([]byte, 8)
counter := atomic.AddUint64(&p.counter, 1)
binary.BigEndian.PutUint64(seqno, counter)
p.publish <- &Message{
&pb.Message{
Data: data,
TopicIDs: []string{topic},
From: []byte(p.host.ID()),
Seqno: seqno,
},
}
return nil
}
type listPeerReq struct {
resp chan []peer.ID
topic string
}
// sendReq is a request to call maybePublishMessage. It is issued after the subscription verification is done.
type sendReq struct {
from peer.ID
msg *Message
}
// ListPeers returns a list of peers we are connected to.
func (p *PubSub) ListPeers(topic string) []peer.ID {
out := make(chan []peer.ID)
p.getPeers <- &listPeerReq{
resp: out,
topic: topic,
}
return <-out
}
// per topic validators
type addValReq struct {
topic string
validate Validator
timeout time.Duration
throttle int
resp chan error
}
type topicVal struct {
topic string
validate Validator
validateTimeout time.Duration
validateThrottle chan struct{}
}
// Validator is a function that validates a message
type Validator func(context.Context, *Message) bool
// ValidatorOpt is an option for RegisterTopicValidator
type ValidatorOpt func(addVal *addValReq) error
// WithValidatorTimeout is an option that sets the topic validator timeout
func WithValidatorTimeout(timeout time.Duration) ValidatorOpt {
return func(addVal *addValReq) error {
addVal.timeout = timeout
return nil
}
}
// WithValidatorConcurrency is an option that sets topic validator throttle
func WithValidatorConcurrency(n int) ValidatorOpt {
return func(addVal *addValReq) error {
addVal.throttle = n
return nil
}
}
// RegisterTopicValidator registers a validator for topic
func (p *PubSub) RegisterTopicValidator(topic string, val Validator, opts ...ValidatorOpt) error {
addVal := &addValReq{
topic: topic,
validate: val,
resp: make(chan error, 1),
}
for _, opt := range opts {
err := opt(addVal)
if err != nil {
return err
}
}
p.addVal <- addVal
return <-addVal.resp
}
func (ps *PubSub) addValidator(req *addValReq) {
topic := req.topic
_, ok := ps.topicVals[topic]
if ok {
req.resp <- fmt.Errorf("Duplicate validator for topic %s", topic)
return
}
val := &topicVal{
topic: topic,
validate: req.validate,
validateTimeout: defaultValidateTimeout,
validateThrottle: make(chan struct{}, defaultValidateConcurrency),
}
if req.timeout > 0 {
val.validateTimeout = req.timeout
}
if req.throttle > 0 {
val.validateThrottle = make(chan struct{}, req.throttle)
}
ps.topicVals[topic] = val
req.resp <- nil
}
func (val *topicVal) validateMsg(ctx context.Context, msg *Message) bool {
vctx, cancel := context.WithTimeout(ctx, val.validateTimeout)
defer cancel()
valid := val.validate(vctx, msg)
if !valid {
log.Debugf("validation failed for topic %s", val.topic)
}
return valid
}