lbry.go/dht/dht_announce.go

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package dht
import (
"container/ring"
"context"
"math"
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"sync"
"time"
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"github.com/lbryio/lbry.go/v2/dht/bits"
"github.com/lbryio/lbry.go/v2/extras/errors"
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"golang.org/x/time/rate"
)
type queueEdit struct {
hash bits.Bitmap
add bool
}
const (
announceStarted = "started"
announceFinishd = "finished"
)
type announceNotification struct {
hash bits.Bitmap
action string
err error
}
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// Add adds the hash to the list of hashes this node is announcing
func (dht *DHT) Add(hash bits.Bitmap) {
dht.announceAddRemove <- queueEdit{hash: hash, add: true}
}
// Remove removes the hash from the list of hashes this node is announcing
func (dht *DHT) Remove(hash bits.Bitmap) {
dht.announceAddRemove <- queueEdit{hash: hash, add: false}
}
func (dht *DHT) runAnnouncer() {
type hashAndTime struct {
hash bits.Bitmap
lastAnnounce time.Time
}
var queue *ring.Ring
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hashes := make(map[bits.Bitmap]*ring.Ring)
var announceNextHash <-chan time.Time
timer := time.NewTimer(math.MaxInt64)
timer.Stop()
limitCh := make(chan time.Time)
dht.grp.Add(1)
go func() {
defer dht.grp.Done()
limiter := rate.NewLimiter(rate.Limit(dht.conf.AnnounceRate), dht.conf.AnnounceRate)
for {
err := limiter.Wait(context.Background()) // TODO: should use grp.ctx somehow? so when grp is closed, wait returns
if err != nil {
log.Error(errors.Prefix("rate limiter", err))
continue
}
select {
case limitCh <- time.Now():
case <-dht.grp.Ch():
return
}
}
}()
maintenance := time.NewTicker(1 * time.Minute)
// TODO: work to space hash announces out so they aren't bunched up around the reannounce time. track time since last announce. if its been more than the ideal time (reannounce time / numhashes), start announcing hashes early
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for {
select {
case <-dht.grp.Ch():
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return
case <-maintenance.C:
maxAnnounce := dht.conf.AnnounceRate * int(dht.conf.ReannounceTime.Seconds())
if len(hashes) > maxAnnounce {
// TODO: send this to slack
log.Warnf("DHT has %d hashes, but can only announce %d hashes in the %s reannounce window. Raise the announce rate or spawn more nodes.",
len(hashes), maxAnnounce, dht.conf.ReannounceTime.String())
}
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case change := <-dht.announceAddRemove:
if change.add {
if _, exists := hashes[change.hash]; exists {
continue
}
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r := ring.New(1)
r.Value = hashAndTime{hash: change.hash}
if queue != nil {
queue.Prev().Link(r)
}
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queue = r
hashes[change.hash] = r
announceNextHash = limitCh // announce next hash ASAP
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} else {
r, exists := hashes[change.hash]
if !exists {
continue
}
delete(hashes, change.hash)
if len(hashes) == 0 {
queue = ring.New(0)
announceNextHash = nil // no hashes to announce, wait indefinitely
} else {
if r == queue {
queue = queue.Next() // don't lose our pointer
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}
r.Prev().Link(r.Next())
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}
}
case <-announceNextHash:
dht.grp.Add(1)
ht := queue.Value.(hashAndTime)
if !ht.lastAnnounce.IsZero() {
nextAnnounce := ht.lastAnnounce.Add(dht.conf.ReannounceTime)
if nextAnnounce.After(time.Now()) {
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timer.Reset(time.Until(nextAnnounce))
announceNextHash = timer.C // wait until next hash should be announced
continue
}
}
if dht.conf.AnnounceNotificationCh != nil {
dht.conf.AnnounceNotificationCh <- announceNotification{
hash: ht.hash,
action: announceStarted,
}
}
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go func(hash bits.Bitmap) {
defer dht.grp.Done()
err := dht.announce(hash)
if err != nil {
log.Error(errors.Prefix("announce", err))
}
if dht.conf.AnnounceNotificationCh != nil {
dht.conf.AnnounceNotificationCh <- announceNotification{
hash: ht.hash,
action: announceFinishd,
err: err,
}
}
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}(ht.hash)
queue.Value = hashAndTime{hash: ht.hash, lastAnnounce: time.Now()}
queue = queue.Next()
announceNextHash = limitCh // announce next hash ASAP
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}
}
}
// Announce announces to the DHT that this node has the blob for the given hash
func (dht *DHT) announce(hash bits.Bitmap) error {
contacts, _, err := FindContacts(dht.node, hash, false, dht.grp.Child())
if err != nil {
return err
}
// self-store if we found less than K contacts, or we're closer than the farthest contact
if len(contacts) < bucketSize {
contacts = append(contacts, dht.contact)
} else if hash.Closer(dht.node.id, contacts[bucketSize-1].ID) {
contacts[bucketSize-1] = dht.contact
}
wg := &sync.WaitGroup{}
for _, c := range contacts {
wg.Add(1)
go func(c Contact) {
dht.store(hash, c)
wg.Done()
}(c)
}
wg.Wait()
return nil
}
func (dht *DHT) store(hash bits.Bitmap, c Contact) {
if dht.contact.ID == c.ID {
// self-store
c.PeerPort = dht.conf.PeerProtocolPort
dht.node.Store(hash, c)
return
}
dht.node.SendAsync(c, Request{
Method: storeMethod,
StoreArgs: &storeArgs{
BlobHash: hash,
Value: storeArgsValue{
Token: dht.tokenCache.Get(c, hash, dht.grp.Ch()),
LbryID: dht.contact.ID,
Port: dht.conf.PeerProtocolPort,
},
},
})
}