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sync_manager.go
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sync_manager.go
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package discovery
import (
"errors"
"sync"
"sync/atomic"
"time"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/lightningnetwork/lnd/lnpeer"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/routing/route"
"github.com/lightningnetwork/lnd/ticker"
)
const (
// DefaultSyncerRotationInterval is the default interval in which we'll
// rotate a single active syncer.
DefaultSyncerRotationInterval = 20 * time.Minute
// DefaultHistoricalSyncInterval is the default interval in which we'll
// force a historical sync to ensure we have as much of the public
// network as possible.
DefaultHistoricalSyncInterval = time.Hour
)
var (
// ErrSyncManagerExiting is an error returned when we attempt to
// start/stop a gossip syncer for a connected/disconnected peer, but the
// SyncManager has already been stopped.
ErrSyncManagerExiting = errors.New("sync manager exiting")
)
// newSyncer in an internal message we'll use within the SyncManager to signal
// that we should create a GossipSyncer for a newly connected peer.
type newSyncer struct {
// peer is the newly connected peer.
peer lnpeer.Peer
// doneChan serves as a signal to the caller that the SyncManager's
// internal state correctly reflects the stale active syncer.
doneChan chan struct{}
}
// staleSyncer is an internal message we'll use within the SyncManager to signal
// that a peer has disconnected and its GossipSyncer should be removed.
type staleSyncer struct {
// peer is the peer that has disconnected.
peer route.Vertex
// doneChan serves as a signal to the caller that the SyncManager's
// internal state correctly reflects the stale active syncer. This is
// needed to ensure we always create a new syncer for a flappy peer
// after they disconnect if they happened to be an active syncer.
doneChan chan struct{}
}
// SyncManagerCfg contains all of the dependencies required for the SyncManager
// to carry out its duties.
type SyncManagerCfg struct {
// ChainHash is a hash that indicates the specific network of the active
// chain.
ChainHash chainhash.Hash
// ChanSeries is an interface that provides access to a time series view
// of the current known channel graph. Each GossipSyncer enabled peer
// will utilize this in order to create and respond to channel graph
// time series queries.
ChanSeries ChannelGraphTimeSeries
// NumActiveSyncers is the number of peers for which we should have
// active syncers with. After reaching NumActiveSyncers, any future
// gossip syncers will be passive.
NumActiveSyncers int
// RotateTicker is a ticker responsible for notifying the SyncManager
// when it should rotate its active syncers. A single active syncer with
// a chansSynced state will be exchanged for a passive syncer in order
// to ensure we don't keep syncing with the same peers.
RotateTicker ticker.Ticker
// HistoricalSyncTicker is a ticker responsible for notifying the
// SyncManager when it should attempt a historical sync with a gossip
// sync peer.
HistoricalSyncTicker ticker.Ticker
// IgnoreHistoricalFilters will prevent syncers from replying with
// historical data when the remote peer sets a gossip_timestamp_range.
// This prevents ranges with old start times from causing us to dump the
// graph on connect.
IgnoreHistoricalFilters bool
// BestHeight returns the latest height known of the chain.
BestHeight func() uint32
// PinnedSyncers is a set of peers that will always transition to
// ActiveSync upon connection. These peers will never transition to
// PassiveSync.
PinnedSyncers PinnedSyncers
}
// SyncManager is a subsystem of the gossiper that manages the gossip syncers
// for peers currently connected. When a new peer is connected, the manager will
// create its accompanying gossip syncer and determine whether it should have an
// ActiveSync or PassiveSync sync type based on how many other gossip syncers
// are currently active. Any ActiveSync gossip syncers are started in a
// round-robin manner to ensure we're not syncing with multiple peers at the
// same time. The first GossipSyncer registered with the SyncManager will
// attempt a historical sync to ensure we have as much of the public channel
// graph as possible.
type SyncManager struct {
// initialHistoricalSyncCompleted serves as a barrier when initializing
// new active GossipSyncers. If 0, the initial historical sync has not
// completed, so we'll defer initializing any active GossipSyncers. If
// 1, then we can transition the GossipSyncer immediately. We set up
// this barrier to ensure we have most of the graph before attempting to
// accept new updates at tip.
//
// NOTE: This must be used atomically.
initialHistoricalSyncCompleted int32
start sync.Once
stop sync.Once
cfg SyncManagerCfg
// newSyncers is a channel we'll use to process requests to create
// GossipSyncers for newly connected peers.
newSyncers chan *newSyncer
// staleSyncers is a channel we'll use to process requests to tear down
// GossipSyncers for disconnected peers.
staleSyncers chan *staleSyncer
// syncersMu guards the read and write access to the activeSyncers and
// inactiveSyncers maps below.
syncersMu sync.Mutex
// activeSyncers is the set of all syncers for which we are currently
// receiving graph updates from. The number of possible active syncers
// is bounded by NumActiveSyncers.
activeSyncers map[route.Vertex]*GossipSyncer
// inactiveSyncers is the set of all syncers for which we are not
// currently receiving new graph updates from.
inactiveSyncers map[route.Vertex]*GossipSyncer
// pinnedActiveSyncers is the set of all syncers which are pinned into
// an active sync. Pinned peers performan an initial historical sync on
// each connection and will continue to receive graph updates for the
// duration of the connection.
pinnedActiveSyncers map[route.Vertex]*GossipSyncer
wg sync.WaitGroup
quit chan struct{}
}
// newSyncManager constructs a new SyncManager backed by the given config.
func newSyncManager(cfg *SyncManagerCfg) *SyncManager {
return &SyncManager{
cfg: *cfg,
newSyncers: make(chan *newSyncer),
staleSyncers: make(chan *staleSyncer),
activeSyncers: make(
map[route.Vertex]*GossipSyncer, cfg.NumActiveSyncers,
),
inactiveSyncers: make(map[route.Vertex]*GossipSyncer),
pinnedActiveSyncers: make(
map[route.Vertex]*GossipSyncer, len(cfg.PinnedSyncers),
),
quit: make(chan struct{}),
}
}
// Start starts the SyncManager in order to properly carry out its duties.
func (m *SyncManager) Start() {
m.start.Do(func() {
m.wg.Add(1)
go m.syncerHandler()
})
}
// Stop stops the SyncManager from performing its duties.
func (m *SyncManager) Stop() {
m.stop.Do(func() {
close(m.quit)
m.wg.Wait()
for _, syncer := range m.inactiveSyncers {
syncer.Stop()
}
for _, syncer := range m.activeSyncers {
syncer.Stop()
}
})
}
// syncerHandler is the SyncManager's main event loop responsible for:
//
// 1. Creating and tearing down GossipSyncers for connected/disconnected peers.
// 2. Finding new peers to receive graph updates from to ensure we don't only
// receive them from the same set of peers.
// 3. Finding new peers to force a historical sync with to ensure we have as
// much of the public network as possible.
//
// NOTE: This must be run as a goroutine.
func (m *SyncManager) syncerHandler() {
defer m.wg.Done()
m.cfg.RotateTicker.Resume()
defer m.cfg.RotateTicker.Stop()
defer m.cfg.HistoricalSyncTicker.Stop()
var (
// initialHistoricalSyncer is the syncer we are currently
// performing an initial historical sync with.
initialHistoricalSyncer *GossipSyncer
// initialHistoricalSyncSignal is a signal that will fire once
// the intiial historical sync has been completed. This is
// crucial to ensure that another historical sync isn't
// attempted just because the initialHistoricalSyncer was
// disconnected.
initialHistoricalSyncSignal chan struct{}
)
setInitialHistoricalSyncer := func(s *GossipSyncer) {
initialHistoricalSyncer = s
initialHistoricalSyncSignal = s.ResetSyncedSignal()
// Restart the timer for our new historical sync peer. This will
// ensure that all initial syncers recevie an equivalent
// duration before attempting the next sync. Without doing so we
// might attempt two historical sync back to back if a peer
// disconnects just before the ticker fires.
m.cfg.HistoricalSyncTicker.Pause()
m.cfg.HistoricalSyncTicker.Resume()
}
for {
select {
// A new peer has been connected, so we'll create its
// accompanying GossipSyncer.
case newSyncer := <-m.newSyncers:
// If we already have a syncer, then we'll exit early as
// we don't want to override it.
if _, ok := m.GossipSyncer(newSyncer.peer.PubKey()); ok {
close(newSyncer.doneChan)
continue
}
s := m.createGossipSyncer(newSyncer.peer)
isPinnedSyncer := m.isPinnedSyncer(s)
// attemptHistoricalSync determines whether we should
// attempt an initial historical sync when a new peer
// connects.
attemptHistoricalSync := false
m.syncersMu.Lock()
switch {
// For pinned syncers, we will immediately transition
// the peer into an active (pinned) sync state.
case isPinnedSyncer:
attemptHistoricalSync = true
s.setSyncType(PinnedSync)
s.setSyncState(syncerIdle)
m.pinnedActiveSyncers[s.cfg.peerPub] = s
// Regardless of whether the initial historical sync
// has completed, we'll re-trigger a historical sync if
// we no longer have any syncers. This might be
// necessary if we lost all our peers at one point, and
// now we finally have one again.
case len(m.activeSyncers) == 0 &&
len(m.inactiveSyncers) == 0:
attemptHistoricalSync =
m.cfg.NumActiveSyncers > 0
fallthrough
// If we've exceeded our total number of active syncers,
// we'll initialize this GossipSyncer as passive.
case len(m.activeSyncers) >= m.cfg.NumActiveSyncers:
fallthrough
// If the initial historical sync has yet to complete,
// then we'll declare it as passive and attempt to
// transition it when the initial historical sync
// completes.
case !m.IsGraphSynced():
s.setSyncType(PassiveSync)
m.inactiveSyncers[s.cfg.peerPub] = s
// The initial historical sync has completed, so we can
// immediately start the GossipSyncer as active.
default:
s.setSyncType(ActiveSync)
m.activeSyncers[s.cfg.peerPub] = s
}
m.syncersMu.Unlock()
s.Start()
// Once we create the GossipSyncer, we'll signal to the
// caller that they can proceed since the SyncManager's
// internal state has been updated.
close(newSyncer.doneChan)
// We'll force a historical sync with the first peer we
// connect to, to ensure we get as much of the graph as
// possible.
if !attemptHistoricalSync {
continue
}
log.Debugf("Attempting initial historical sync with "+
"GossipSyncer(%x)", s.cfg.peerPub)
if err := s.historicalSync(); err != nil {
log.Errorf("Unable to attempt initial "+
"historical sync with "+
"GossipSyncer(%x): %v", s.cfg.peerPub,
err)
continue
}
// Once the historical sync has started, we'll get a
// keep track of the corresponding syncer to properly
// handle disconnects. We'll also use a signal to know
// when the historical sync completed.
if !isPinnedSyncer {
setInitialHistoricalSyncer(s)
}
// An existing peer has disconnected, so we'll tear down its
// corresponding GossipSyncer.
case staleSyncer := <-m.staleSyncers:
// Once the corresponding GossipSyncer has been stopped
// and removed, we'll signal to the caller that they can
// proceed since the SyncManager's internal state has
// been updated.
m.removeGossipSyncer(staleSyncer.peer)
close(staleSyncer.doneChan)
// If we don't have an initialHistoricalSyncer, or we do
// but it is not the peer being disconnected, then we
// have nothing left to do and can proceed.
switch {
case initialHistoricalSyncer == nil:
fallthrough
case staleSyncer.peer != initialHistoricalSyncer.cfg.peerPub:
fallthrough
case m.cfg.NumActiveSyncers == 0:
continue
}
// Otherwise, our initialHistoricalSyncer corresponds to
// the peer being disconnected, so we'll have to find a
// replacement.
log.Debug("Finding replacement for intitial " +
"historical sync")
s := m.forceHistoricalSync()
if s == nil {
log.Debug("No eligible replacement found " +
"for initial historical sync")
continue
}
log.Debugf("Replaced initial historical "+
"GossipSyncer(%v) with GossipSyncer(%x)",
staleSyncer.peer, s.cfg.peerPub)
setInitialHistoricalSyncer(s)
// Our initial historical sync signal has completed, so we'll
// nil all of the relevant fields as they're no longer needed.
case <-initialHistoricalSyncSignal:
initialHistoricalSyncer = nil
initialHistoricalSyncSignal = nil
log.Debug("Initial historical sync completed")
// With the initial historical sync complete, we can
// begin receiving new graph updates at tip. We'll
// determine whether we can have any more active
// GossipSyncers. If we do, we'll randomly select some
// that are currently passive to transition.
m.syncersMu.Lock()
numActiveLeft := m.cfg.NumActiveSyncers - len(m.activeSyncers)
if numActiveLeft <= 0 {
m.syncersMu.Unlock()
continue
}
log.Debugf("Attempting to transition %v passive "+
"GossipSyncers to active", numActiveLeft)
for i := 0; i < numActiveLeft; i++ {
chooseRandomSyncer(
m.inactiveSyncers, m.transitionPassiveSyncer,
)
}
m.syncersMu.Unlock()
// Our RotateTicker has ticked, so we'll attempt to rotate a
// single active syncer with a passive one.
case <-m.cfg.RotateTicker.Ticks():
m.rotateActiveSyncerCandidate()
// Our HistoricalSyncTicker has ticked, so we'll randomly select
// a peer and force a historical sync with them.
case <-m.cfg.HistoricalSyncTicker.Ticks():
// To be extra cautious, gate the forceHistoricalSync
// call such that it can only execute if we are
// configured to have a non-zero number of sync peers.
// This way even if the historical sync ticker manages
// to tick we can be sure that a historical sync won't
// accidentally begin.
if m.cfg.NumActiveSyncers == 0 {
continue
}
// If we don't have a syncer available we have nothing
// to do.
s := m.forceHistoricalSync()
if s == nil {
continue
}
// If we've already completed a historical sync, we'll
// skip setting the initial historical syncer.
if m.IsGraphSynced() {
continue
}
// Otherwise, we'll track the peer we've performed a
// historical sync with in order to handle the case
// where our previous historical sync peer did not
// respond to our queries and we haven't ingested as
// much of the graph as we should.
setInitialHistoricalSyncer(s)
case <-m.quit:
return
}
}
}
// isPinnedSyncer returns true if the passed GossipSyncer is one of our pinned
// sync peers.
func (m *SyncManager) isPinnedSyncer(s *GossipSyncer) bool {
_, isPinnedSyncer := m.cfg.PinnedSyncers[s.cfg.peerPub]
return isPinnedSyncer
}
// createGossipSyncer creates the GossipSyncer for a newly connected peer.
func (m *SyncManager) createGossipSyncer(peer lnpeer.Peer) *GossipSyncer {
nodeID := route.Vertex(peer.PubKey())
log.Infof("Creating new GossipSyncer for peer=%x", nodeID[:])
encoding := lnwire.EncodingSortedPlain
s := newGossipSyncer(gossipSyncerCfg{
chainHash: m.cfg.ChainHash,
peerPub: nodeID,
channelSeries: m.cfg.ChanSeries,
encodingType: encoding,
chunkSize: encodingTypeToChunkSize[encoding],
batchSize: requestBatchSize,
sendToPeer: func(msgs ...lnwire.Message) error {
return peer.SendMessageLazy(false, msgs...)
},
sendToPeerSync: func(msgs ...lnwire.Message) error {
return peer.SendMessageLazy(true, msgs...)
},
ignoreHistoricalFilters: m.cfg.IgnoreHistoricalFilters,
maxUndelayedQueryReplies: DefaultMaxUndelayedQueryReplies,
delayedQueryReplyInterval: DefaultDelayedQueryReplyInterval,
bestHeight: m.cfg.BestHeight,
markGraphSynced: m.markGraphSynced,
maxQueryChanRangeReplies: maxQueryChanRangeReplies,
})
// Gossip syncers are initialized by default in a PassiveSync type
// and chansSynced state so that they can reply to any peer queries or
// handle any sync transitions.
s.setSyncState(chansSynced)
s.setSyncType(PassiveSync)
return s
}
// removeGossipSyncer removes all internal references to the disconnected peer's
// GossipSyncer and stops it. In the event of an active GossipSyncer being
// disconnected, a passive GossipSyncer, if any, will take its place.
func (m *SyncManager) removeGossipSyncer(peer route.Vertex) {
m.syncersMu.Lock()
defer m.syncersMu.Unlock()
s, ok := m.gossipSyncer(peer)
if !ok {
return
}
log.Infof("Removing GossipSyncer for peer=%v", peer)
// We'll stop the GossipSyncer for the disconnected peer in a goroutine
// to prevent blocking the SyncManager.
go s.Stop()
// If it's a non-active syncer, then we can just exit now.
if _, ok := m.inactiveSyncers[peer]; ok {
delete(m.inactiveSyncers, peer)
return
}
// If it's a pinned syncer, then we can just exit as this doesn't
// affect our active syncer count.
if _, ok := m.pinnedActiveSyncers[peer]; ok {
delete(m.pinnedActiveSyncers, peer)
return
}
// Otherwise, we'll need find a new one to replace it, if any.
delete(m.activeSyncers, peer)
newActiveSyncer := chooseRandomSyncer(
m.inactiveSyncers, m.transitionPassiveSyncer,
)
if newActiveSyncer == nil {
return
}
log.Debugf("Replaced active GossipSyncer(%x) with GossipSyncer(%x)",
peer, newActiveSyncer.cfg.peerPub)
}
// rotateActiveSyncerCandidate rotates a single active syncer. In order to
// achieve this, the active syncer must be in a chansSynced state in order to
// process the sync transition.
func (m *SyncManager) rotateActiveSyncerCandidate() {
m.syncersMu.Lock()
defer m.syncersMu.Unlock()
// If we couldn't find an eligible active syncer to rotate, we can
// return early.
activeSyncer := chooseRandomSyncer(m.activeSyncers, nil)
if activeSyncer == nil {
log.Debug("No eligible active syncer to rotate")
return
}
// Similarly, if we don't have a candidate to rotate with, we can return
// early as well.
candidate := chooseRandomSyncer(m.inactiveSyncers, nil)
if candidate == nil {
log.Debug("No eligible candidate to rotate active syncer")
return
}
// Otherwise, we'll attempt to transition each syncer to their
// respective new sync type.
log.Debugf("Rotating active GossipSyncer(%x) with GossipSyncer(%x)",
activeSyncer.cfg.peerPub, candidate.cfg.peerPub)
if err := m.transitionActiveSyncer(activeSyncer); err != nil {
log.Errorf("Unable to transition active GossipSyncer(%x): %v",
activeSyncer.cfg.peerPub, err)
return
}
if err := m.transitionPassiveSyncer(candidate); err != nil {
log.Errorf("Unable to transition passive GossipSyncer(%x): %v",
activeSyncer.cfg.peerPub, err)
return
}
}
// transitionActiveSyncer transitions an active syncer to a passive one.
//
// NOTE: This must be called with the syncersMu lock held.
func (m *SyncManager) transitionActiveSyncer(s *GossipSyncer) error {
log.Debugf("Transitioning active GossipSyncer(%x) to passive",
s.cfg.peerPub)
if err := s.ProcessSyncTransition(PassiveSync); err != nil {
return err
}
delete(m.activeSyncers, s.cfg.peerPub)
m.inactiveSyncers[s.cfg.peerPub] = s
return nil
}
// transitionPassiveSyncer transitions a passive syncer to an active one.
//
// NOTE: This must be called with the syncersMu lock held.
func (m *SyncManager) transitionPassiveSyncer(s *GossipSyncer) error {
log.Debugf("Transitioning passive GossipSyncer(%x) to active",
s.cfg.peerPub)
if err := s.ProcessSyncTransition(ActiveSync); err != nil {
return err
}
delete(m.inactiveSyncers, s.cfg.peerPub)
m.activeSyncers[s.cfg.peerPub] = s
return nil
}
// forceHistoricalSync chooses a syncer with a remote peer at random and forces
// a historical sync with it.
func (m *SyncManager) forceHistoricalSync() *GossipSyncer {
m.syncersMu.Lock()
defer m.syncersMu.Unlock()
// We'll sample from both sets of active and inactive syncers in the
// event that we don't have any inactive syncers.
return chooseRandomSyncer(m.gossipSyncers(), func(s *GossipSyncer) error {
return s.historicalSync()
})
}
// chooseRandomSyncer iterates through the set of syncers given and returns the
// first one which was able to successfully perform the action enclosed in the
// function closure.
//
// NOTE: It's possible for a nil value to be returned if there are no eligible
// candidate syncers.
func chooseRandomSyncer(syncers map[route.Vertex]*GossipSyncer,
action func(*GossipSyncer) error) *GossipSyncer {
for _, s := range syncers {
// Only syncers in a chansSynced state are viable for sync
// transitions, so skip any that aren't.
if s.syncState() != chansSynced {
continue
}
if action != nil {
if err := action(s); err != nil {
log.Debugf("Skipping eligible candidate "+
"GossipSyncer(%x): %v", s.cfg.peerPub,
err)
continue
}
}
return s
}
return nil
}
// InitSyncState is called by outside sub-systems when a connection is
// established to a new peer that understands how to perform channel range
// queries. We'll allocate a new GossipSyncer for it, and start any goroutines
// needed to handle new queries. The first GossipSyncer registered with the
// SyncManager will attempt a historical sync to ensure we have as much of the
// public channel graph as possible.
//
// TODO(wilmer): Only mark as ActiveSync if this isn't a channel peer.
func (m *SyncManager) InitSyncState(peer lnpeer.Peer) error {
done := make(chan struct{})
select {
case m.newSyncers <- &newSyncer{
peer: peer,
doneChan: done,
}:
case <-m.quit:
return ErrSyncManagerExiting
}
select {
case <-done:
return nil
case <-m.quit:
return ErrSyncManagerExiting
}
}
// PruneSyncState is called by outside sub-systems once a peer that we were
// previously connected to has been disconnected. In this case we can stop the
// existing GossipSyncer assigned to the peer and free up resources.
func (m *SyncManager) PruneSyncState(peer route.Vertex) {
done := make(chan struct{})
// We avoid returning an error when the SyncManager is stopped since the
// GossipSyncer will be stopped then anyway.
select {
case m.staleSyncers <- &staleSyncer{
peer: peer,
doneChan: done,
}:
case <-m.quit:
return
}
select {
case <-done:
case <-m.quit:
}
}
// GossipSyncer returns the associated gossip syncer of a peer. The boolean
// returned signals whether there exists a gossip syncer for the peer.
func (m *SyncManager) GossipSyncer(peer route.Vertex) (*GossipSyncer, bool) {
m.syncersMu.Lock()
defer m.syncersMu.Unlock()
return m.gossipSyncer(peer)
}
// gossipSyncer returns the associated gossip syncer of a peer. The boolean
// returned signals whether there exists a gossip syncer for the peer.
func (m *SyncManager) gossipSyncer(peer route.Vertex) (*GossipSyncer, bool) {
syncer, ok := m.inactiveSyncers[peer]
if ok {
return syncer, true
}
syncer, ok = m.activeSyncers[peer]
if ok {
return syncer, true
}
syncer, ok = m.pinnedActiveSyncers[peer]
if ok {
return syncer, true
}
return nil, false
}
// GossipSyncers returns all of the currently initialized gossip syncers.
func (m *SyncManager) GossipSyncers() map[route.Vertex]*GossipSyncer {
m.syncersMu.Lock()
defer m.syncersMu.Unlock()
return m.gossipSyncers()
}
// gossipSyncers returns all of the currently initialized gossip syncers.
func (m *SyncManager) gossipSyncers() map[route.Vertex]*GossipSyncer {
numSyncers := len(m.inactiveSyncers) + len(m.activeSyncers)
syncers := make(map[route.Vertex]*GossipSyncer, numSyncers)
for _, syncer := range m.inactiveSyncers {
syncers[syncer.cfg.peerPub] = syncer
}
for _, syncer := range m.activeSyncers {
syncers[syncer.cfg.peerPub] = syncer
}
return syncers
}
// markGraphSynced allows us to report that the initial historical sync has
// completed.
func (m *SyncManager) markGraphSynced() {
atomic.StoreInt32(&m.initialHistoricalSyncCompleted, 1)
}
// IsGraphSynced determines whether we've completed our initial historical sync.
// The initial historical sync is done to ensure we've ingested as much of the
// public graph as possible.
func (m *SyncManager) IsGraphSynced() bool {
return atomic.LoadInt32(&m.initialHistoricalSyncCompleted) == 1
}