status-go/vendor/github.com/libp2p/go-libp2p/p2p/host/autonat/autonat.go

469 lines
12 KiB
Go

package autonat
import (
"context"
"errors"
"math/rand"
"sync/atomic"
"time"
"github.com/libp2p/go-eventbus"
"github.com/libp2p/go-libp2p-core/event"
"github.com/libp2p/go-libp2p-core/host"
"github.com/libp2p/go-libp2p-core/network"
"github.com/libp2p/go-libp2p-core/peer"
logging "github.com/ipfs/go-log/v2"
ma "github.com/multiformats/go-multiaddr"
manet "github.com/multiformats/go-multiaddr/net"
)
var log = logging.Logger("autonat")
// AmbientAutoNAT is the implementation of ambient NAT autodiscovery
type AmbientAutoNAT struct {
host host.Host
*config
ctx context.Context
ctxCancel context.CancelFunc // is closed when Close is called
backgroundRunning chan struct{} // is closed when the background go routine exits
inboundConn chan network.Conn
observations chan autoNATResult
// status is an autoNATResult reflecting current status.
status atomic.Value
// Reflects the confidence on of the NATStatus being private, as a single
// dialback may fail for reasons unrelated to NAT.
// If it is <3, then multiple autoNAT peers may be contacted for dialback
// If only a single autoNAT peer is known, then the confidence increases
// for each failure until it reaches 3.
confidence int
lastInbound time.Time
lastProbeTry time.Time
lastProbe time.Time
recentProbes map[peer.ID]time.Time
service *autoNATService
emitReachabilityChanged event.Emitter
subscriber event.Subscription
}
// StaticAutoNAT is a simple AutoNAT implementation when a single NAT status is desired.
type StaticAutoNAT struct {
host host.Host
reachability network.Reachability
service *autoNATService
}
type autoNATResult struct {
network.Reachability
address ma.Multiaddr
}
// New creates a new NAT autodiscovery system attached to a host
func New(h host.Host, options ...Option) (AutoNAT, error) {
var err error
conf := new(config)
conf.host = h
conf.dialPolicy.host = h
if err = defaults(conf); err != nil {
return nil, err
}
if conf.addressFunc == nil {
conf.addressFunc = h.Addrs
}
for _, o := range options {
if err = o(conf); err != nil {
return nil, err
}
}
emitReachabilityChanged, _ := h.EventBus().Emitter(new(event.EvtLocalReachabilityChanged), eventbus.Stateful)
var service *autoNATService
if (!conf.forceReachability || conf.reachability == network.ReachabilityPublic) && conf.dialer != nil {
service, err = newAutoNATService(conf)
if err != nil {
return nil, err
}
service.Enable()
}
if conf.forceReachability {
emitReachabilityChanged.Emit(event.EvtLocalReachabilityChanged{Reachability: conf.reachability})
return &StaticAutoNAT{
host: h,
reachability: conf.reachability,
service: service,
}, nil
}
ctx, cancel := context.WithCancel(context.Background())
as := &AmbientAutoNAT{
ctx: ctx,
ctxCancel: cancel,
backgroundRunning: make(chan struct{}),
host: h,
config: conf,
inboundConn: make(chan network.Conn, 5),
observations: make(chan autoNATResult, 1),
emitReachabilityChanged: emitReachabilityChanged,
service: service,
recentProbes: make(map[peer.ID]time.Time),
}
as.status.Store(autoNATResult{network.ReachabilityUnknown, nil})
subscriber, err := as.host.EventBus().Subscribe([]interface{}{new(event.EvtLocalAddressesUpdated), new(event.EvtPeerIdentificationCompleted)})
if err != nil {
return nil, err
}
as.subscriber = subscriber
h.Network().Notify(as)
go as.background()
return as, nil
}
// Status returns the AutoNAT observed reachability status.
func (as *AmbientAutoNAT) Status() network.Reachability {
s := as.status.Load().(autoNATResult)
return s.Reachability
}
func (as *AmbientAutoNAT) emitStatus() {
status := as.status.Load().(autoNATResult)
as.emitReachabilityChanged.Emit(event.EvtLocalReachabilityChanged{Reachability: status.Reachability})
}
// PublicAddr returns the publicly connectable Multiaddr of this node if one is known.
func (as *AmbientAutoNAT) PublicAddr() (ma.Multiaddr, error) {
s := as.status.Load().(autoNATResult)
if s.Reachability != network.ReachabilityPublic {
return nil, errors.New("NAT status is not public")
}
return s.address, nil
}
func ipInList(candidate ma.Multiaddr, list []ma.Multiaddr) bool {
candidateIP, _ := manet.ToIP(candidate)
for _, i := range list {
if ip, err := manet.ToIP(i); err == nil && ip.Equal(candidateIP) {
return true
}
}
return false
}
func (as *AmbientAutoNAT) background() {
defer close(as.backgroundRunning)
// wait a bit for the node to come online and establish some connections
// before starting autodetection
delay := as.config.bootDelay
var lastAddrUpdated time.Time
subChan := as.subscriber.Out()
defer as.subscriber.Close()
defer as.emitReachabilityChanged.Close()
timer := time.NewTimer(delay)
defer timer.Stop()
timerRunning := true
for {
select {
// new inbound connection.
case conn := <-as.inboundConn:
localAddrs := as.host.Addrs()
ca := as.status.Load().(autoNATResult)
if ca.address != nil {
localAddrs = append(localAddrs, ca.address)
}
if manet.IsPublicAddr(conn.RemoteMultiaddr()) &&
!ipInList(conn.RemoteMultiaddr(), localAddrs) {
as.lastInbound = time.Now()
}
case e := <-subChan:
switch e := e.(type) {
case event.EvtLocalAddressesUpdated:
if !lastAddrUpdated.Add(time.Second).After(time.Now()) {
lastAddrUpdated = time.Now()
if as.confidence > 1 {
as.confidence--
}
}
case event.EvtPeerIdentificationCompleted:
if s, err := as.host.Peerstore().SupportsProtocols(e.Peer, AutoNATProto); err == nil && len(s) > 0 {
currentStatus := as.status.Load().(autoNATResult)
if currentStatus.Reachability == network.ReachabilityUnknown {
as.tryProbe(e.Peer)
}
}
default:
log.Errorf("unknown event type: %T", e)
}
// probe finished.
case result, ok := <-as.observations:
if !ok {
return
}
as.recordObservation(result)
case <-timer.C:
peer := as.getPeerToProbe()
as.tryProbe(peer)
timerRunning = false
case <-as.ctx.Done():
return
}
// Drain the timer channel if it hasn't fired in preparation for Resetting it.
if timerRunning && !timer.Stop() {
<-timer.C
}
timer.Reset(as.scheduleProbe())
timerRunning = true
}
}
func (as *AmbientAutoNAT) cleanupRecentProbes() {
fixedNow := time.Now()
for k, v := range as.recentProbes {
if fixedNow.Sub(v) > as.throttlePeerPeriod {
delete(as.recentProbes, k)
}
}
}
// scheduleProbe calculates when the next probe should be scheduled for.
func (as *AmbientAutoNAT) scheduleProbe() time.Duration {
// Our baseline is a probe every 'AutoNATRefreshInterval'
// This is modulated by:
// * if we are in an unknown state, or have low confidence, that should drop to 'AutoNATRetryInterval'
// * recent inbound connections (implying continued connectivity) should decrease the retry when public
// * recent inbound connections when not public mean we should try more actively to see if we're public.
fixedNow := time.Now()
currentStatus := as.status.Load().(autoNATResult)
nextProbe := fixedNow
// Don't look for peers in the peer store more than once per second.
if !as.lastProbeTry.IsZero() {
backoff := as.lastProbeTry.Add(time.Second)
if backoff.After(nextProbe) {
nextProbe = backoff
}
}
if !as.lastProbe.IsZero() {
untilNext := as.config.refreshInterval
if currentStatus.Reachability == network.ReachabilityUnknown {
untilNext = as.config.retryInterval
} else if as.confidence < 3 {
untilNext = as.config.retryInterval
} else if currentStatus.Reachability == network.ReachabilityPublic && as.lastInbound.After(as.lastProbe) {
untilNext *= 2
} else if currentStatus.Reachability != network.ReachabilityPublic && as.lastInbound.After(as.lastProbe) {
untilNext /= 5
}
if as.lastProbe.Add(untilNext).After(nextProbe) {
nextProbe = as.lastProbe.Add(untilNext)
}
}
return nextProbe.Sub(fixedNow)
}
// Update the current status based on an observed result.
func (as *AmbientAutoNAT) recordObservation(observation autoNATResult) {
currentStatus := as.status.Load().(autoNATResult)
if observation.Reachability == network.ReachabilityPublic {
log.Debugf("NAT status is public")
changed := false
if currentStatus.Reachability != network.ReachabilityPublic {
// we are flipping our NATStatus, so confidence drops to 0
as.confidence = 0
if as.service != nil {
as.service.Enable()
}
changed = true
} else if as.confidence < 3 {
as.confidence++
}
if observation.address != nil {
if !changed && currentStatus.address != nil && !observation.address.Equal(currentStatus.address) {
as.confidence--
}
if currentStatus.address == nil || !observation.address.Equal(currentStatus.address) {
changed = true
}
as.status.Store(observation)
}
if observation.address != nil && changed {
as.emitStatus()
}
} else if observation.Reachability == network.ReachabilityPrivate {
log.Debugf("NAT status is private")
if currentStatus.Reachability == network.ReachabilityPublic {
if as.confidence > 0 {
as.confidence--
} else {
// we are flipping our NATStatus, so confidence drops to 0
as.confidence = 0
as.status.Store(observation)
if as.service != nil {
as.service.Disable()
}
as.emitStatus()
}
} else if as.confidence < 3 {
as.confidence++
as.status.Store(observation)
if currentStatus.Reachability != network.ReachabilityPrivate {
as.emitStatus()
}
}
} else if as.confidence > 0 {
// don't just flip to unknown, reduce confidence first
as.confidence--
} else {
log.Debugf("NAT status is unknown")
as.status.Store(autoNATResult{network.ReachabilityUnknown, nil})
if currentStatus.Reachability != network.ReachabilityUnknown {
if as.service != nil {
as.service.Enable()
}
as.emitStatus()
}
}
}
func (as *AmbientAutoNAT) tryProbe(p peer.ID) bool {
as.lastProbeTry = time.Now()
if p.Validate() != nil {
return false
}
if lastTime, ok := as.recentProbes[p]; ok {
if time.Since(lastTime) < as.throttlePeerPeriod {
return false
}
}
as.cleanupRecentProbes()
info := as.host.Peerstore().PeerInfo(p)
if !as.config.dialPolicy.skipPeer(info.Addrs) {
as.recentProbes[p] = time.Now()
as.lastProbe = time.Now()
go as.probe(&info)
return true
}
return false
}
func (as *AmbientAutoNAT) probe(pi *peer.AddrInfo) {
cli := NewAutoNATClient(as.host, as.config.addressFunc)
ctx, cancel := context.WithTimeout(as.ctx, as.config.requestTimeout)
defer cancel()
a, err := cli.DialBack(ctx, pi.ID)
var result autoNATResult
switch {
case err == nil:
log.Debugf("Dialback through %s successful; public address is %s", pi.ID.Pretty(), a.String())
result.Reachability = network.ReachabilityPublic
result.address = a
case IsDialError(err):
log.Debugf("Dialback through %s failed", pi.ID.Pretty())
result.Reachability = network.ReachabilityPrivate
default:
result.Reachability = network.ReachabilityUnknown
}
select {
case as.observations <- result:
case <-as.ctx.Done():
return
}
}
func (as *AmbientAutoNAT) getPeerToProbe() peer.ID {
peers := as.host.Network().Peers()
if len(peers) == 0 {
return ""
}
candidates := make([]peer.ID, 0, len(peers))
for _, p := range peers {
info := as.host.Peerstore().PeerInfo(p)
// Exclude peers which don't support the autonat protocol.
if proto, err := as.host.Peerstore().SupportsProtocols(p, AutoNATProto); len(proto) == 0 || err != nil {
continue
}
// Exclude peers in backoff.
if lastTime, ok := as.recentProbes[p]; ok {
if time.Since(lastTime) < as.throttlePeerPeriod {
continue
}
}
if as.config.dialPolicy.skipPeer(info.Addrs) {
continue
}
candidates = append(candidates, p)
}
if len(candidates) == 0 {
return ""
}
shufflePeers(candidates)
return candidates[0]
}
func (as *AmbientAutoNAT) Close() error {
as.ctxCancel()
if as.service != nil {
as.service.Disable()
}
<-as.backgroundRunning
return nil
}
func shufflePeers(peers []peer.ID) {
for i := range peers {
j := rand.Intn(i + 1)
peers[i], peers[j] = peers[j], peers[i]
}
}
// Status returns the AutoNAT observed reachability status.
func (s *StaticAutoNAT) Status() network.Reachability {
return s.reachability
}
// PublicAddr returns the publicly connectable Multiaddr of this node if one is known.
func (s *StaticAutoNAT) PublicAddr() (ma.Multiaddr, error) {
if s.reachability != network.ReachabilityPublic {
return nil, errors.New("NAT status is not public")
}
return nil, errors.New("no available address")
}
func (s *StaticAutoNAT) Close() error {
if s.service != nil {
s.service.Disable()
}
return nil
}