status-go/vendor/github.com/libp2p/go-libp2p-connmgr/decay.go

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package connmgr
import (
"fmt"
"sync"
"sync/atomic"
"time"
"github.com/libp2p/go-libp2p-core/connmgr"
"github.com/libp2p/go-libp2p-core/peer"
"github.com/benbjohnson/clock"
)
// DefaultResolution is the default resolution of the decay tracker.
var DefaultResolution = 1 * time.Minute
// bumpCmd represents a bump command.
type bumpCmd struct {
peer peer.ID
tag *decayingTag
delta int
}
// removeCmd represents a tag removal command.
type removeCmd struct {
peer peer.ID
tag *decayingTag
}
// decayer tracks and manages all decaying tags and their values.
type decayer struct {
cfg *DecayerCfg
mgr *BasicConnMgr
clock clock.Clock // for testing.
tagsMu sync.Mutex
knownTags map[string]*decayingTag
// lastTick stores the last time the decayer ticked. Guarded by atomic.
lastTick atomic.Value
// bumpTagCh queues bump commands to be processed by the loop.
bumpTagCh chan bumpCmd
removeTagCh chan removeCmd
closeTagCh chan *decayingTag
// closure thingies.
closeCh chan struct{}
doneCh chan struct{}
err error
}
var _ connmgr.Decayer = (*decayer)(nil)
// DecayerCfg is the configuration object for the Decayer.
type DecayerCfg struct {
Resolution time.Duration
Clock clock.Clock
}
// WithDefaults writes the default values on this DecayerConfig instance,
// and returns itself for chainability.
//
// cfg := (&DecayerCfg{}).WithDefaults()
// cfg.Resolution = 30 * time.Second
// t := NewDecayer(cfg, cm)
func (cfg *DecayerCfg) WithDefaults() *DecayerCfg {
cfg.Resolution = DefaultResolution
return cfg
}
// NewDecayer creates a new decaying tag registry.
func NewDecayer(cfg *DecayerCfg, mgr *BasicConnMgr) (*decayer, error) {
// use real time if the Clock in the config is nil.
if cfg.Clock == nil {
cfg.Clock = clock.New()
}
d := &decayer{
cfg: cfg,
mgr: mgr,
clock: cfg.Clock,
knownTags: make(map[string]*decayingTag),
bumpTagCh: make(chan bumpCmd, 128),
removeTagCh: make(chan removeCmd, 128),
closeTagCh: make(chan *decayingTag, 128),
closeCh: make(chan struct{}),
doneCh: make(chan struct{}),
}
d.lastTick.Store(d.clock.Now())
// kick things off.
go d.process()
return d, nil
}
func (d *decayer) RegisterDecayingTag(name string, interval time.Duration, decayFn connmgr.DecayFn, bumpFn connmgr.BumpFn) (connmgr.DecayingTag, error) {
d.tagsMu.Lock()
defer d.tagsMu.Unlock()
tag, ok := d.knownTags[name]
if ok {
return nil, fmt.Errorf("decaying tag with name %s already exists", name)
}
if interval < d.cfg.Resolution {
log.Warnf("decay interval for %s (%s) was lower than tracker's resolution (%s); overridden to resolution",
name, interval, d.cfg.Resolution)
interval = d.cfg.Resolution
}
if interval%d.cfg.Resolution != 0 {
log.Warnf("decay interval for tag %s (%s) is not a multiple of tracker's resolution (%s); "+
"some precision may be lost", name, interval, d.cfg.Resolution)
}
lastTick := d.lastTick.Load().(time.Time)
tag = &decayingTag{
trkr: d,
name: name,
interval: interval,
nextTick: lastTick.Add(interval),
decayFn: decayFn,
bumpFn: bumpFn,
}
d.knownTags[name] = tag
return tag, nil
}
// Close closes the Decayer. It is idempotent.
func (d *decayer) Close() error {
select {
case <-d.doneCh:
return d.err
default:
}
close(d.closeCh)
<-d.doneCh
return d.err
}
// process is the heart of the tracker. It performs the following duties:
//
// 1. Manages decay.
// 2. Applies score bumps.
// 3. Yields when closed.
func (d *decayer) process() {
defer close(d.doneCh)
ticker := d.clock.Ticker(d.cfg.Resolution)
defer ticker.Stop()
var (
bmp bumpCmd
now time.Time
visit = make(map[*decayingTag]struct{})
)
for {
select {
case now = <-ticker.C:
d.lastTick.Store(now)
d.tagsMu.Lock()
for _, tag := range d.knownTags {
if tag.nextTick.After(now) {
// skip the tag.
continue
}
// Mark the tag to be updated in this round.
visit[tag] = struct{}{}
}
d.tagsMu.Unlock()
// Visit each peer, and decay tags that need to be decayed.
for _, s := range d.mgr.segments {
s.Lock()
// Entered a segment that contains peers. Process each peer.
for _, p := range s.peers {
for tag, v := range p.decaying {
if _, ok := visit[tag]; !ok {
// skip this tag.
continue
}
// ~ this value needs to be visited. ~
var delta int
if after, rm := tag.decayFn(*v); rm {
// delete the value and move on to the next tag.
delta -= v.Value
delete(p.decaying, tag)
} else {
// accumulate the delta, and apply the changes.
delta += after - v.Value
v.Value, v.LastVisit = after, now
}
p.value += delta
}
}
s.Unlock()
}
// Reset each tag's next visit round, and clear the visited set.
for tag := range visit {
tag.nextTick = tag.nextTick.Add(tag.interval)
delete(visit, tag)
}
case bmp = <-d.bumpTagCh:
var (
now = d.clock.Now()
peer, tag = bmp.peer, bmp.tag
)
s := d.mgr.segments.get(peer)
s.Lock()
p := s.tagInfoFor(peer)
v, ok := p.decaying[tag]
if !ok {
v = &connmgr.DecayingValue{
Tag: tag,
Peer: peer,
LastVisit: now,
Added: now,
Value: 0,
}
p.decaying[tag] = v
}
prev := v.Value
v.Value, v.LastVisit = v.Tag.(*decayingTag).bumpFn(*v, bmp.delta), now
p.value += v.Value - prev
s.Unlock()
case rm := <-d.removeTagCh:
s := d.mgr.segments.get(rm.peer)
s.Lock()
p := s.tagInfoFor(rm.peer)
v, ok := p.decaying[rm.tag]
if !ok {
s.Unlock()
continue
}
p.value -= v.Value
delete(p.decaying, rm.tag)
s.Unlock()
case t := <-d.closeTagCh:
// Stop tracking the tag.
d.tagsMu.Lock()
delete(d.knownTags, t.name)
d.tagsMu.Unlock()
// Remove the tag from all peers that had it in the connmgr.
for _, s := range d.mgr.segments {
// visit all segments, and attempt to remove the tag from all the peers it stores.
s.Lock()
for _, p := range s.peers {
if dt, ok := p.decaying[t]; ok {
// decrease the value of the tagInfo, and delete the tag.
p.value -= dt.Value
delete(p.decaying, t)
}
}
s.Unlock()
}
case <-d.closeCh:
return
}
}
}
// decayingTag represents a decaying tag, with an associated decay interval, a
// decay function, and a bump function.
type decayingTag struct {
trkr *decayer
name string
interval time.Duration
nextTick time.Time
decayFn connmgr.DecayFn
bumpFn connmgr.BumpFn
// closed marks this tag as closed, so that if it's bumped after being
// closed, we can return an error. 0 = false; 1 = true; guarded by atomic.
closed int32
}
var _ connmgr.DecayingTag = (*decayingTag)(nil)
func (t *decayingTag) Name() string {
return t.name
}
func (t *decayingTag) Interval() time.Duration {
return t.interval
}
// Bump bumps a tag for this peer.
func (t *decayingTag) Bump(p peer.ID, delta int) error {
if atomic.LoadInt32(&t.closed) == 1 {
return fmt.Errorf("decaying tag %s had been closed; no further bumps are accepted", t.name)
}
bmp := bumpCmd{peer: p, tag: t, delta: delta}
select {
case t.trkr.bumpTagCh <- bmp:
return nil
default:
return fmt.Errorf(
"unable to bump decaying tag for peer %s, tag %s, delta %d; queue full (len=%d)",
p.Pretty(), t.name, delta, len(t.trkr.bumpTagCh))
}
}
func (t *decayingTag) Remove(p peer.ID) error {
if atomic.LoadInt32(&t.closed) == 1 {
return fmt.Errorf("decaying tag %s had been closed; no further removals are accepted", t.name)
}
rm := removeCmd{peer: p, tag: t}
select {
case t.trkr.removeTagCh <- rm:
return nil
default:
return fmt.Errorf(
"unable to remove decaying tag for peer %s, tag %s; queue full (len=%d)",
p.Pretty(), t.name, len(t.trkr.removeTagCh))
}
}
func (t *decayingTag) Close() error {
if !atomic.CompareAndSwapInt32(&t.closed, 0, 1) {
log.Warnf("duplicate decaying tag closure: %s; skipping", t.name)
return nil
}
select {
case t.trkr.closeTagCh <- t:
return nil
default:
return fmt.Errorf("unable to close decaying tag %s; queue full (len=%d)", t.name, len(t.trkr.closeTagCh))
}
}