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basic_lifecycler.go
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basic_lifecycler.go
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package ring
import (
"context"
"fmt"
mathrand "math/rand"
"sort"
"sync"
"time"
"github.com/go-kit/log"
"github.com/go-kit/log/level"
"github.com/pkg/errors"
"github.com/prometheus/client_golang/prometheus"
"github.com/cortexproject/cortex/pkg/ring/kv"
"github.com/cortexproject/cortex/pkg/util/services"
)
type BasicLifecyclerDelegate interface {
// OnRingInstanceRegister is called while the lifecycler is registering the
// instance within the ring and should return the state and set of tokens to
// use for the instance itself.
OnRingInstanceRegister(lifecycler *BasicLifecycler, ringDesc Desc, instanceExists bool, instanceID string, instanceDesc InstanceDesc) (InstanceState, Tokens)
// OnRingInstanceTokens is called once the instance tokens are set and are
// stable within the ring (honoring the observe period, if set).
OnRingInstanceTokens(lifecycler *BasicLifecycler, tokens Tokens)
// OnRingInstanceStopping is called while the lifecycler is stopping. The lifecycler
// will continue to hearbeat the ring the this function is executing and will proceed
// to unregister the instance from the ring only after this function has returned.
OnRingInstanceStopping(lifecycler *BasicLifecycler)
// OnRingInstanceHeartbeat is called while the instance is updating its heartbeat
// in the ring.
OnRingInstanceHeartbeat(lifecycler *BasicLifecycler, ringDesc *Desc, instanceDesc *InstanceDesc)
}
type BasicLifecyclerConfig struct {
// ID is the instance unique ID.
ID string
// Addr is the instance address, in the form "address:port".
Addr string
// Zone is the instance availability zone. Can be an empty string
// if zone awareness is unused.
Zone string
HeartbeatPeriod time.Duration
TokensObservePeriod time.Duration
NumTokens int
// If true lifecycler doesn't unregister instance from the ring when it's stopping. Default value is false,
// which means unregistering.
KeepInstanceInTheRingOnShutdown bool
}
// BasicLifecycler is a basic ring lifecycler which allows to hook custom
// logic at different stages of the lifecycle. This lifecycler should be
// used to build higher level lifecyclers.
//
// This lifecycler never change the instance state. It's the delegate
// responsibility to ChangeState().
type BasicLifecycler struct {
*services.BasicService
cfg BasicLifecyclerConfig
logger log.Logger
store kv.Client
delegate BasicLifecyclerDelegate
metrics *BasicLifecyclerMetrics
// Channel used to execute logic within the lifecycler loop.
actorChan chan func()
// These values are initialised at startup, and never change
ringName string
ringKey string
// The current instance state.
currState sync.RWMutex
currInstanceDesc *InstanceDesc
}
// NewBasicLifecycler makes a new BasicLifecycler.
func NewBasicLifecycler(cfg BasicLifecyclerConfig, ringName, ringKey string, store kv.Client, delegate BasicLifecyclerDelegate, logger log.Logger, reg prometheus.Registerer) (*BasicLifecycler, error) {
l := &BasicLifecycler{
cfg: cfg,
ringName: ringName,
ringKey: ringKey,
logger: logger,
store: store,
delegate: delegate,
metrics: NewBasicLifecyclerMetrics(ringName, reg),
actorChan: make(chan func()),
}
l.metrics.tokensToOwn.Set(float64(cfg.NumTokens))
l.BasicService = services.NewBasicService(l.starting, l.running, l.stopping)
return l, nil
}
func (l *BasicLifecycler) GetInstanceID() string {
return l.cfg.ID
}
func (l *BasicLifecycler) GetInstanceAddr() string {
return l.cfg.Addr
}
func (l *BasicLifecycler) GetInstanceZone() string {
return l.cfg.Zone
}
func (l *BasicLifecycler) GetState() InstanceState {
l.currState.RLock()
defer l.currState.RUnlock()
if l.currInstanceDesc == nil {
return PENDING
}
return l.currInstanceDesc.GetState()
}
func (l *BasicLifecycler) GetTokens() Tokens {
l.currState.RLock()
defer l.currState.RUnlock()
if l.currInstanceDesc == nil {
return Tokens{}
}
return l.currInstanceDesc.GetTokens()
}
// GetRegisteredAt returns the timestamp when the instance has been registered to the ring
// or a zero value if the lifecycler hasn't been started yet or was already registered and its
// timestamp is unknown.
func (l *BasicLifecycler) GetRegisteredAt() time.Time {
l.currState.RLock()
defer l.currState.RUnlock()
return l.currInstanceDesc.GetRegisteredAt()
}
// IsRegistered returns whether the instance is currently registered within the ring.
func (l *BasicLifecycler) IsRegistered() bool {
l.currState.RLock()
defer l.currState.RUnlock()
return l.currInstanceDesc != nil
}
func (l *BasicLifecycler) ChangeState(ctx context.Context, state InstanceState) error {
return l.run(func() error {
return l.changeState(ctx, state)
})
}
func (l *BasicLifecycler) starting(ctx context.Context) error {
if err := l.registerInstance(ctx); err != nil {
return errors.Wrap(err, "register instance in the ring")
}
// If we have registered an instance with some tokens and
// an observe period has been configured, we should now wait
// until tokens are "stable" within the ring.
if len(l.GetTokens()) > 0 && l.cfg.TokensObservePeriod > 0 {
if err := l.waitStableTokens(ctx, l.cfg.TokensObservePeriod); err != nil {
return errors.Wrap(err, "wait stable tokens in the ring")
}
}
// At this point, if some tokens have been set they're stable and we
// can notify the delegate.
if tokens := l.GetTokens(); len(tokens) > 0 {
l.metrics.tokensOwned.Set(float64(len(tokens)))
l.delegate.OnRingInstanceTokens(l, tokens)
}
return nil
}
func (l *BasicLifecycler) running(ctx context.Context) error {
var heartbeatTickerChan <-chan time.Time
if uint64(l.cfg.HeartbeatPeriod) > 0 {
heartbeatTicker := time.NewTicker(l.cfg.HeartbeatPeriod)
heartbeatTicker.Stop()
time.AfterFunc(time.Duration(uint64(mathrand.Int63())%uint64(l.cfg.HeartbeatPeriod)), func() {
l.heartbeat(ctx)
heartbeatTicker.Reset(l.cfg.HeartbeatPeriod)
})
defer heartbeatTicker.Stop()
heartbeatTickerChan = heartbeatTicker.C
}
for {
select {
case <-heartbeatTickerChan:
l.heartbeat(ctx)
case f := <-l.actorChan:
f()
case <-ctx.Done():
level.Info(l.logger).Log("msg", "ring lifecycler is shutting down", "ring", l.ringName)
return nil
}
}
}
func (l *BasicLifecycler) stopping(runningError error) error {
if runningError != nil {
return nil
}
// Let the delegate change the instance state (ie. to LEAVING) and handling any
// state transferring / flushing while we continue to heartbeat.
done := make(chan struct{})
go func() {
defer close(done)
l.delegate.OnRingInstanceStopping(l)
}()
// Heartbeat while the stopping delegate function is running.
heartbeatTickerStop, heartbeatTickerChan := newDisableableTicker(l.cfg.HeartbeatPeriod)
defer heartbeatTickerStop()
heartbeatLoop:
for {
select {
case <-heartbeatTickerChan:
l.heartbeat(context.Background())
case <-done:
break heartbeatLoop
}
}
if l.cfg.KeepInstanceInTheRingOnShutdown {
level.Info(l.logger).Log("msg", "keeping instance the ring", "ring", l.ringName)
} else {
// Remove the instance from the ring.
if err := l.unregisterInstance(context.Background()); err != nil {
return errors.Wrapf(err, "failed to unregister instance from the ring (ring: %s)", l.ringName)
}
level.Info(l.logger).Log("msg", "instance removed from the ring", "ring", l.ringName)
}
return nil
}
// registerInstance registers the instance in the ring. The initial state and set of tokens
// depends on the OnRingInstanceRegister() delegate function.
func (l *BasicLifecycler) registerInstance(ctx context.Context) error {
var instanceDesc InstanceDesc
err := l.store.CAS(ctx, l.ringKey, func(in interface{}) (out interface{}, retry bool, err error) {
ringDesc := GetOrCreateRingDesc(in)
var exists bool
instanceDesc, exists = ringDesc.Ingesters[l.cfg.ID]
if exists {
level.Info(l.logger).Log("msg", "instance found in the ring", "instance", l.cfg.ID, "ring", l.ringName, "state", instanceDesc.GetState(), "tokens", len(instanceDesc.GetTokens()), "registered_at", instanceDesc.GetRegisteredAt().String())
} else {
level.Info(l.logger).Log("msg", "instance not found in the ring", "instance", l.cfg.ID, "ring", l.ringName)
}
// We call the delegate to get the desired state right after the initialization.
state, tokens := l.delegate.OnRingInstanceRegister(l, *ringDesc, exists, l.cfg.ID, instanceDesc)
// Ensure tokens are sorted.
sort.Sort(tokens)
// If the instance didn't already exist, then we can safely set the registered timestamp to "now",
// otherwise we have to honor the previous value (even if it was zero, because means it was unknown
// but it's definitely not "now").
var registeredAt time.Time
if exists {
registeredAt = instanceDesc.GetRegisteredAt()
} else {
registeredAt = time.Now()
}
if !exists {
instanceDesc = ringDesc.AddIngester(l.cfg.ID, l.cfg.Addr, l.cfg.Zone, tokens, state, registeredAt)
return ringDesc, true, nil
}
// Always overwrite the instance in the ring (even if already exists) because some properties
// may have changed (stated, tokens, zone, address) and even if they didn't the heartbeat at
// least did.
instanceDesc = ringDesc.AddIngester(l.cfg.ID, l.cfg.Addr, l.cfg.Zone, tokens, state, registeredAt)
return ringDesc, true, nil
})
if err != nil {
return err
}
l.currState.Lock()
l.currInstanceDesc = &instanceDesc
l.currState.Unlock()
return nil
}
func (l *BasicLifecycler) waitStableTokens(ctx context.Context, period time.Duration) error {
heartbeatTickerStop, heartbeatTickerChan := newDisableableTicker(l.cfg.HeartbeatPeriod)
defer heartbeatTickerStop()
// The first observation will occur after the specified period.
level.Info(l.logger).Log("msg", "waiting stable tokens", "ring", l.ringName)
observeChan := time.After(period)
for {
select {
case <-observeChan:
if !l.verifyTokens(ctx) {
// The verification has failed
level.Info(l.logger).Log("msg", "tokens verification failed, keep observing", "ring", l.ringName)
observeChan = time.After(period)
break
}
level.Info(l.logger).Log("msg", "tokens verification succeeded", "ring", l.ringName)
return nil
case <-heartbeatTickerChan:
l.heartbeat(ctx)
case <-ctx.Done():
return ctx.Err()
}
}
}
// Verifies that tokens that this instance has registered to the ring still belong to it.
// Gossiping ring may change the ownership of tokens in case of conflicts.
// If instance doesn't own its tokens anymore, this method generates new tokens and stores them to the ring.
func (l *BasicLifecycler) verifyTokens(ctx context.Context) bool {
result := false
err := l.updateInstance(ctx, func(r *Desc, i *InstanceDesc) bool {
// At this point, we should have the same tokens as we have registered before.
actualTokens, takenTokens := r.TokensFor(l.cfg.ID)
if actualTokens.Equals(l.GetTokens()) {
// Tokens have been verified. No need to change them.
result = true
return false
}
// uh, oh... our tokens are not our anymore. Let's try new ones.
needTokens := l.cfg.NumTokens - len(actualTokens)
level.Info(l.logger).Log("msg", "generating new tokens", "count", needTokens, "ring", l.ringName)
newTokens := GenerateTokens(needTokens, takenTokens)
actualTokens = append(actualTokens, newTokens...)
sort.Sort(actualTokens)
i.Tokens = actualTokens
return true
})
if err != nil {
level.Error(l.logger).Log("msg", "failed to verify tokens", "ring", l.ringName, "err", err)
return false
}
return result
}
// unregister removes our entry from the store.
func (l *BasicLifecycler) unregisterInstance(ctx context.Context) error {
level.Info(l.logger).Log("msg", "unregistering instance from ring", "ring", l.ringName)
err := l.store.CAS(ctx, l.ringKey, func(in interface{}) (out interface{}, retry bool, err error) {
if in == nil {
return nil, false, fmt.Errorf("found empty ring when trying to unregister")
}
ringDesc := in.(*Desc)
ringDesc.RemoveIngester(l.cfg.ID)
return ringDesc, true, nil
})
if err != nil {
return err
}
l.currState.Lock()
l.currInstanceDesc = nil
l.currState.Unlock()
l.metrics.tokensToOwn.Set(0)
l.metrics.tokensOwned.Set(0)
return nil
}
func (l *BasicLifecycler) updateInstance(ctx context.Context, update func(*Desc, *InstanceDesc) bool) error {
var instanceDesc InstanceDesc
err := l.store.CAS(ctx, l.ringKey, func(in interface{}) (out interface{}, retry bool, err error) {
ringDesc := GetOrCreateRingDesc(in)
var ok bool
instanceDesc, ok = ringDesc.Ingesters[l.cfg.ID]
// This could happen if the backend store restarted (and content deleted)
// or the instance has been forgotten. In this case, we do re-insert it.
if !ok {
level.Warn(l.logger).Log("msg", "instance missing in the ring, adding it back", "ring", l.ringName)
instanceDesc = ringDesc.AddIngester(l.cfg.ID, l.cfg.Addr, l.cfg.Zone, l.GetTokens(), l.GetState(), l.GetRegisteredAt())
}
prevTimestamp := instanceDesc.Timestamp
changed := update(ringDesc, &instanceDesc)
if ok && !changed {
return nil, false, nil
}
// Memberlist requires that the timestamp always change, so we do update it unless
// was updated in the callback function.
if instanceDesc.Timestamp == prevTimestamp {
instanceDesc.Timestamp = time.Now().Unix()
}
ringDesc.Ingesters[l.cfg.ID] = instanceDesc
return ringDesc, true, nil
})
if err != nil {
return err
}
l.currState.Lock()
l.currInstanceDesc = &instanceDesc
l.currState.Unlock()
return nil
}
// heartbeat updates the instance timestamp within the ring. This function is guaranteed
// to be called within the lifecycler main goroutine.
func (l *BasicLifecycler) heartbeat(ctx context.Context) {
err := l.updateInstance(ctx, func(r *Desc, i *InstanceDesc) bool {
l.delegate.OnRingInstanceHeartbeat(l, r, i)
i.Timestamp = time.Now().Unix()
return true
})
if err != nil {
level.Warn(l.logger).Log("msg", "failed to heartbeat instance in the ring", "ring", l.ringName, "err", err)
return
}
l.metrics.heartbeats.Inc()
}
// changeState of the instance within the ring. This function is guaranteed
// to be called within the lifecycler main goroutine.
func (l *BasicLifecycler) changeState(ctx context.Context, state InstanceState) error {
err := l.updateInstance(ctx, func(_ *Desc, i *InstanceDesc) bool {
// No-op if the state hasn't changed.
if i.State == state {
return false
}
i.State = state
return true
})
if err != nil {
level.Warn(l.logger).Log("msg", "failed to change instance state in the ring", "from", l.GetState(), "to", state, "err", err)
}
return err
}
// run a function within the lifecycler service goroutine.
func (l *BasicLifecycler) run(fn func() error) error {
sc := l.ServiceContext()
if sc == nil {
return errors.New("lifecycler not running")
}
errCh := make(chan error)
wrappedFn := func() {
errCh <- fn()
}
select {
case <-sc.Done():
return errors.New("lifecycler not running")
case l.actorChan <- wrappedFn:
return <-errCh
}
}