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consumer.go
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consumer.go
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package taskq
import (
"context"
"errors"
"fmt"
"sync"
"sync/atomic"
"time"
"github.com/go-redis/redis_rate/v9"
"github.com/bsm/redislock"
"github.com/vmihailenco/taskq/v3/internal"
)
const stopTimeout = 30 * time.Second
var ErrAsyncTask = errors.New("taskq: async task")
type Delayer interface {
Delay() time.Duration
}
type ConsumerStats struct {
NumWorker uint32
NumFetcher uint32
BufferSize uint32
Buffered uint32
InFlight uint32
Processed uint32
Retries uint32
Fails uint32
Timing time.Duration
}
//------------------------------------------------------------------------------
const (
stateInit = iota
stateStarted
stateStoppingFetchers
stateStoppingWorkers
)
// Consumer reserves messages from the queue, processes them,
// and then either releases or deletes messages from the queue.
type Consumer struct {
q Queue
opt *QueueOptions
buffer chan *Message // never closed
limiter *limiter
startStopMu sync.Mutex
state int32 // atomic
stopCh chan struct{}
cfgs *configRoulette
numWorker int32 // atomic
numFetcher int32 // atomic
fetchersWG sync.WaitGroup
workersWG sync.WaitGroup
consecutiveNumErr uint32
queueEmptyVote int32
inFlight uint32
processed uint32
fails uint32
retries uint32
timings sync.Map
hooks []ConsumerHook
}
// NewConsumer creates new Consumer for the queue using provided processing options.
func NewConsumer(q Queue) *Consumer {
opt := q.Options()
c := &Consumer{
q: q,
opt: opt,
buffer: make(chan *Message, opt.BufferSize),
limiter: &limiter{
bucket: q.Name(),
limiter: opt.RateLimiter,
limit: opt.RateLimit,
},
}
return c
}
// StartConsumer creates new QueueConsumer and starts it.
func StartConsumer(ctx context.Context, q Queue) *Consumer {
c := NewConsumer(q)
if err := c.Start(ctx); err != nil {
panic(err)
}
return c
}
// AddHook adds a hook into message processing.
func (c *Consumer) AddHook(hook ConsumerHook) {
c.hooks = append(c.hooks, hook)
}
func (c *Consumer) Queue() Queue {
return c.q
}
func (c *Consumer) Options() *QueueOptions {
return c.opt
}
func (c *Consumer) Len() int {
return len(c.buffer)
}
// Stats returns processor stats.
func (c *Consumer) Stats() *ConsumerStats {
return &ConsumerStats{
NumWorker: uint32(atomic.LoadInt32(&c.numWorker)),
NumFetcher: uint32(atomic.LoadInt32(&c.numFetcher)),
BufferSize: uint32(cap(c.buffer)),
Buffered: uint32(len(c.buffer)),
InFlight: atomic.LoadUint32(&c.inFlight),
Processed: atomic.LoadUint32(&c.processed),
Retries: atomic.LoadUint32(&c.retries),
Fails: atomic.LoadUint32(&c.fails),
Timing: c.timing(),
}
}
func (c *Consumer) Add(msg *Message) error {
_ = c.limiter.Reserve(msg.Ctx, 1)
c.buffer <- msg
return nil
}
// Start starts consuming messages in the queue.
func (c *Consumer) Start(ctx context.Context) error {
if err := c.start(); err != nil {
return err
}
if c.opt.MinNumWorker < c.opt.MaxNumWorker {
c.cfgs = newConfigRoulette(c.opt)
cfg := c.cfgs.Select(nil, false)
c.replaceConfig(ctx, cfg)
c.fetchersWG.Add(1)
go func() {
defer c.fetchersWG.Done()
c.autotune(ctx, cfg)
}()
} else {
c.replaceConfig(ctx, &consumerConfig{
NumFetcher: 0, // fetcher is automatically started when needed
NumWorker: c.opt.MinNumWorker,
})
}
return nil
}
func (c *Consumer) start() error {
c.startStopMu.Lock()
defer c.startStopMu.Unlock()
switch atomic.LoadInt32(&c.state) {
case stateInit:
atomic.StoreInt32(&c.state, stateStarted)
c.stopCh = make(chan struct{})
case stateStarted:
return fmt.Errorf("taskq: Consumer is already started")
case stateStoppingFetchers, stateStoppingWorkers:
return fmt.Errorf("taskq: Consumer is stopping")
}
atomic.StoreInt32(&c.numFetcher, 0)
atomic.StoreInt32(&c.numWorker, 0)
return nil
}
// Stop is StopTimeout with 30 seconds timeout.
func (c *Consumer) Stop() error {
return c.StopTimeout(stopTimeout)
}
// StopTimeout waits workers for timeout duration to finish processing current
// messages and stops workers.
func (c *Consumer) StopTimeout(timeout time.Duration) error {
c.startStopMu.Lock()
defer c.startStopMu.Unlock()
switch atomic.LoadInt32(&c.state) {
case stateInit:
return fmt.Errorf("taskq: Consumer is not started")
case stateStarted:
atomic.StoreInt32(&c.state, stateStoppingFetchers)
close(c.stopCh)
case stateStoppingFetchers, stateStoppingWorkers:
return fmt.Errorf("taskq: Consumer is stopping")
}
// Stop all fetchers.
atomic.StoreInt32(&c.numFetcher, -1)
defer func() {
atomic.StoreInt32(&c.numWorker, -1)
atomic.StoreInt32(&c.state, stateInit)
}()
timer := time.NewTimer(timeout)
defer timer.Stop()
done := make(chan struct{}, 1)
go func() {
c.fetchersWG.Wait()
done <- struct{}{}
}()
var firstErr error
select {
case <-done:
case <-timer.C:
firstErr = fmt.Errorf("taskq: %s: fetchers are not stopped after %s", c, timeout)
}
if !atomic.CompareAndSwapInt32(&c.state, stateStoppingFetchers, stateStoppingWorkers) {
panic("not reached")
}
if firstErr != nil {
return firstErr
}
go func() {
c.workersWG.Wait()
done <- struct{}{}
}()
select {
case <-done:
case <-timer.C:
return fmt.Errorf("taskq: %s: workers are not stopped after %s", c, timeout)
}
return nil
}
func (c *Consumer) paused() time.Duration {
if c.opt.PauseErrorsThreshold == 0 ||
atomic.LoadUint32(&c.consecutiveNumErr) < uint32(c.opt.PauseErrorsThreshold) {
return 0
}
return time.Minute
}
func (c *Consumer) addWorker(ctx context.Context, id int32) bool {
c.startStopMu.Lock()
defer c.startStopMu.Unlock()
if atomic.CompareAndSwapInt32(&c.numWorker, id, id+1) {
c.workersWG.Add(1)
go func() {
defer c.workersWG.Done()
c.worker(ctx, id)
}()
return true
}
return false
}
func (c *Consumer) removeWorker(id int32) bool { //nolint:unused
return atomic.CompareAndSwapInt32(&c.numWorker, id+1, id)
}
func (c *Consumer) addFetcher(ctx context.Context, id int32) bool {
c.startStopMu.Lock()
defer c.startStopMu.Unlock()
if atomic.CompareAndSwapInt32(&c.numFetcher, id, id+1) {
c.fetchersWG.Add(1)
go func() {
defer c.fetchersWG.Done()
c.fetcher(ctx, id)
}()
return true
}
return false
}
func (c *Consumer) ensureFetcher(ctx context.Context) {
if atomic.LoadInt32(&c.numFetcher) == 0 {
c.addFetcher(ctx, 0)
}
}
func (c *Consumer) removeFetcher(num int32) bool {
return atomic.CompareAndSwapInt32(&c.numFetcher, num+1, num)
}
// ProcessAll starts workers to process messages in the queue and then stops
// them when all messages are processed.
func (c *Consumer) ProcessAll(ctx context.Context) error {
if err := c.Start(ctx); err != nil {
return err
}
var prev *ConsumerStats
var noWork int
for {
st := c.Stats()
if prev != nil &&
st.Buffered == 0 &&
st.InFlight == 0 &&
st.Processed == prev.Processed {
noWork++
if noWork == 2 {
break
}
} else {
noWork = 0
}
prev = st
time.Sleep(time.Second)
}
return c.Stop()
}
// ProcessOne processes at most one message in the queue.
func (c *Consumer) ProcessOne(ctx context.Context) error {
msg, err := c.reserveOne(ctx)
if err != nil {
return err
}
// TODO: wait
msg.Ctx = ctx
return c.Process(msg)
}
func (c *Consumer) reserveOne(ctx context.Context) (*Message, error) {
select {
case msg := <-c.buffer:
return msg, nil
default:
}
msgs, err := c.q.ReserveN(ctx, 1, c.opt.WaitTimeout)
if err != nil && err != internal.ErrNotSupported {
return nil, err
}
if len(msgs) == 0 {
return nil, errors.New("taskq: queue is empty")
}
if len(msgs) != 1 {
return nil, fmt.Errorf("taskq: queue returned %d messages", len(msgs))
}
return &msgs[0], nil
}
func (c *Consumer) fetcher(ctx context.Context, fetcherID int32) {
timer := time.NewTimer(time.Minute)
timer.Stop()
fetchTimeout := c.opt.ReservationTimeout
fetchTimeout -= fetchTimeout / 10
for {
if fetcherID >= atomic.LoadInt32(&c.numFetcher) {
return
}
if pauseTime := c.paused(); pauseTime > 0 {
internal.Logger.Printf("%s is automatically paused for dur=%s", c, pauseTime)
time.Sleep(pauseTime)
c.resetPause()
continue
}
timeout, err := c.fetchMessages(ctx, timer, fetchTimeout)
if err != nil {
if err == internal.ErrNotSupported {
atomic.StoreInt32(&c.numFetcher, -1)
continue
}
const backoff = time.Second
internal.Logger.Printf(
"%s fetchMessages failed: %s (sleeping for dur=%s)",
c, err, backoff)
time.Sleep(backoff)
continue
}
if timeout {
c.removeFetcher(fetcherID)
}
}
}
func (c *Consumer) fetchMessages(
ctx context.Context, timer *time.Timer, timeout time.Duration,
) (bool, error) {
size := c.limiter.Reserve(ctx, c.opt.ReservationSize)
msgs, err := c.q.ReserveN(ctx, size, c.opt.WaitTimeout)
if err != nil {
return false, err
}
if d := size - len(msgs); d > 0 {
c.limiter.Cancel(d)
c.voteQueueEmpty()
} else {
c.voteQueueFull()
}
timer.Reset(timeout)
for i := range msgs {
msg := &msgs[i]
select {
case c.buffer <- msg:
case <-timer.C:
for i := range msgs[i:] {
_ = c.q.Release(&msgs[i])
}
return true, nil
}
}
if !timer.Stop() {
<-timer.C
}
return false, nil
}
func (c *Consumer) worker(ctx context.Context, workerID int32) {
var lock *redislock.Lock
defer func() {
if lock != nil {
_ = lock.Release(ctx)
}
}()
timer := time.NewTimer(time.Minute)
timer.Stop()
for {
if workerID >= atomic.LoadInt32(&c.numWorker) {
return
}
if c.opt.WorkerLimit > 0 {
lock = c.lockWorker(ctx, lock, workerID)
}
msg := c.waitMessage(ctx, timer)
if msg == nil {
if atomic.LoadInt32(&c.state) >= stateStoppingWorkers {
return
}
continue
}
msg.Ctx = ctx
_ = c.Process(msg)
}
}
func (c *Consumer) waitMessage(ctx context.Context, timer *time.Timer) *Message {
const workerIdleTimeout = time.Second
select {
case msg := <-c.buffer:
return msg
default:
}
c.ensureFetcher(ctx)
timer.Reset(workerIdleTimeout)
select {
case msg := <-c.buffer:
if !timer.Stop() {
<-timer.C
}
return msg
case <-timer.C:
c.voteQueueEmpty()
return nil
case <-c.stopCh:
return nil
}
}
// Process is low-level API to process message bypassing the internal queue.
func (c *Consumer) Process(msg *Message) error {
atomic.AddUint32(&c.inFlight, 1)
if msg.Delay > 0 {
err := c.q.Add(msg)
if err != nil {
return err
}
c.delete(msg)
return nil
}
if msg.Err != nil {
msg.Delay = -1
c.Put(msg)
return msg.Err
}
evt, err := c.beforeProcessMessage(msg)
if err != nil {
msg.Err = err
c.Put(msg)
return err
}
msg.evt = evt
start := time.Now()
msgErr := c.opt.Handler.HandleMessage(msg)
if msgErr == ErrAsyncTask {
return ErrAsyncTask
}
c.updateTiming(msg.TaskName, time.Since(start))
msg.Err = msgErr
c.Put(msg)
return msg.Err
}
func (c *Consumer) updateTiming(taskName string, x time.Duration) {
const decay = float64(1) / 10
timing := new(int64)
if v, loaded := c.timings.LoadOrStore(taskName, timing); loaded {
timing = v.(*int64)
}
for i := 0; i < 100; i++ {
oldVal := atomic.LoadInt64(timing)
var newVal int64
if oldVal != 0 {
newVal = int64(float64(oldVal)*(1-decay) + float64(x)*decay)
} else {
newVal = int64(x)
}
if atomic.CompareAndSwapInt64(timing, oldVal, newVal) {
break
}
}
}
func (c *Consumer) timing() time.Duration {
var mean int64
c.timings.Range(func(_, value interface{}) bool {
x := atomic.LoadInt64(value.(*int64))
if mean != 0 {
mean = (mean + x) / 2
} else {
mean = x
}
return true
})
return time.Duration(mean)
}
func (c *Consumer) Put(msg *Message) {
if err := c.afterProcessMessage(msg); err != nil {
msg.Err = err
}
if msg.Err == nil {
c.resetPause()
atomic.AddUint32(&c.processed, 1)
c.delete(msg)
return
}
atomic.AddUint32(&c.consecutiveNumErr, 1)
if msg.Delay <= 0 {
atomic.AddUint32(&c.fails, 1)
c.delete(msg)
return
}
atomic.AddUint32(&c.retries, 1)
c.release(msg)
}
func (c *Consumer) release(msg *Message) {
if msg.Err != nil {
internal.Logger.Printf("task=%q failed (will retry=%d in dur=%s): %s",
msg.TaskName, msg.ReservedCount, msg.Delay, msg.Err)
}
err := c.q.Release(msg)
if err != nil {
internal.Logger.Printf("task=%q Release failed: %s", msg.TaskName, err)
}
atomic.AddUint32(&c.inFlight, ^uint32(0))
}
func (c *Consumer) delete(msg *Message) {
if msg.Err != nil {
internal.Logger.Printf("task=%q handler failed after retry=%d: %s",
msg.TaskName, msg.ReservedCount, msg.Err)
err := c.opt.Handler.HandleMessage(msg)
if err != nil {
internal.Logger.Printf("task=%q fallback handler failed: %s", msg.TaskName, err)
}
}
err := c.q.Delete(msg)
if err != nil {
internal.Logger.Printf("task=%q Delete failed: %s", msg.TaskName, err)
}
atomic.AddUint32(&c.inFlight, ^uint32(0))
}
// Purge discards messages from the internal queue.
func (c *Consumer) Purge() error {
for {
select {
case msg := <-c.buffer:
c.delete(msg)
default:
return nil
}
}
}
type ProcessMessageEvent struct {
Message *Message
StartTime time.Time
Stash map[interface{}]interface{}
}
type ConsumerHook interface {
BeforeProcessMessage(*ProcessMessageEvent) error
AfterProcessMessage(*ProcessMessageEvent) error
}
func (c *Consumer) beforeProcessMessage(msg *Message) (*ProcessMessageEvent, error) {
if len(c.hooks) == 0 {
return nil, nil
}
evt := &ProcessMessageEvent{
Message: msg,
StartTime: time.Now(),
}
for _, hook := range c.hooks {
if err := hook.BeforeProcessMessage(evt); err != nil {
return nil, err
}
}
return evt, nil
}
func (c *Consumer) afterProcessMessage(msg *Message) error {
if msg.evt == nil {
return nil
}
var firstErr error
for _, hook := range c.hooks {
if err := hook.AfterProcessMessage(msg.evt); err != nil && firstErr == nil {
firstErr = err
}
}
return firstErr
}
func (c *Consumer) resetPause() {
atomic.StoreUint32(&c.consecutiveNumErr, 0)
}
func (c *Consumer) lockWorker(
ctx context.Context,
lock *redislock.Lock,
workerID int32,
) *redislock.Lock {
lockTimeout := c.opt.ReservationTimeout + 10*time.Second
timer := time.NewTimer(time.Minute)
timer.Stop()
for {
var err error
if lock == nil {
key := fmt.Sprintf("%s:worker:lock:%d", c.q.Name(), workerID)
lock, err = redislock.Obtain(ctx, c.opt.Redis, key, lockTimeout, nil)
} else {
err = lock.Refresh(ctx, lockTimeout, nil)
}
if err == nil {
return lock
}
if err != redislock.ErrNotObtained {
internal.Logger.Printf("redislock.Lock failed: %s", err)
}
if lock != nil {
_ = lock.Release(ctx)
lock = nil
}
timer.Reset(500 * time.Millisecond)
select {
case <-timer.C:
case <-c.stopCh:
if lock != nil {
_ = lock.Release(ctx)
}
return nil
}
}
}
func (c *Consumer) String() string {
fnum := atomic.LoadInt32(&c.numFetcher)
wnum := atomic.LoadInt32(&c.numWorker)
inFlight := atomic.LoadUint32(&c.inFlight)
processed := atomic.LoadUint32(&c.processed)
retries := atomic.LoadUint32(&c.retries)
fails := atomic.LoadUint32(&c.fails)
timing := c.timing()
return fmt.Sprintf(
"%s %d/%d %d/%d/%d %d/%d/%d %s",
c.q.Name(),
fnum, wnum,
inFlight, len(c.buffer), cap(c.buffer),
processed, retries, fails,
timing)
}
func (c *Consumer) voteQueueEmpty() {
c.changeQueueEmptyVote(+1)
}
func (c *Consumer) voteQueueFull() {
c.changeQueueEmptyVote(-1)
}
func (c *Consumer) changeQueueEmptyVote(d int32) {
const quorum = 7
for i := 0; i < 100; i++ {
n := atomic.LoadInt32(&c.queueEmptyVote)
if (d < 0 && n <= -quorum) || (d > 0 && n >= quorum) {
break
}
if atomic.CompareAndSwapInt32(&c.queueEmptyVote, n, n+d) {
break
}
}
}
func (c *Consumer) queueEmpty() bool {
return atomic.LoadInt32(&c.queueEmptyVote) >= 3
}
func (c *Consumer) autotune(ctx context.Context, cfg *consumerConfig) {
timer := time.NewTimer(time.Hour)
defer timer.Stop()
for c.timing() == 0 {
timer.Reset(250 * time.Millisecond)
select {
case <-timer.C:
// continue
case <-c.stopCh:
return
}
}
for {
timer.Reset(c.autotuneInterval())
select {
case <-timer.C:
cfg = c.autotuneTick(ctx, cfg)
case <-c.stopCh:
return
}
}
}
func (c *Consumer) autotuneInterval() time.Duration {
const min = 500 * time.Millisecond
const max = time.Minute
d := 10 * c.timing()
if d < min {
return min
}
if d > max {
return max
}
return d
}
func (c *Consumer) autotuneTick(ctx context.Context, cfg *consumerConfig) *consumerConfig {
processed := int(atomic.LoadUint32(&c.processed))
retries := int(atomic.LoadUint32(&c.retries))
cfg.Update(processed, retries, c.timing())
if newCfg := c.cfgs.Select(cfg, c.queueEmpty()); newCfg != nil {
cfg = newCfg
c.replaceConfig(ctx, cfg)
}
return cfg
}
func (c *Consumer) replaceConfig(ctx context.Context, cfg *consumerConfig) {
if numFetcher := atomic.LoadInt32(&c.numFetcher); numFetcher != -1 {
if numFetcher > cfg.NumFetcher {
// Remove extra fetchers.
atomic.StoreInt32(&c.numFetcher, cfg.NumFetcher)
} else {
for id := numFetcher; id < cfg.NumFetcher; id++ {
if !c.addFetcher(ctx, id) {
internal.Logger.Printf("taskq: addFetcher id=%d failed", id)
}
}
}
}
numWorker := atomic.LoadInt32(&c.numWorker)
if numWorker > cfg.NumWorker {
// Remove extra workers.
atomic.StoreInt32(&c.numWorker, cfg.NumWorker)
} else {
for id := numWorker; id < cfg.NumWorker; id++ {
if !c.addWorker(ctx, id) {
internal.Logger.Printf("taskq: addWorker id=%d failed", id)
}
}
}
cfg.Reset(
int(atomic.LoadUint32(&c.processed)),
int(atomic.LoadUint32(&c.retries)))
}
//------------------------------------------------------------------------------
type limiter struct {
bucket string
limiter *redis_rate.Limiter
limit redis_rate.Limit
allowedCount uint32 // atomic
cancelled uint32 // atomic
}
func (l *limiter) Reserve(ctx context.Context, max int) int {
if l.limiter == nil || l.limit.IsZero() {
return max
}
for {
cancelled := atomic.LoadUint32(&l.cancelled)
if cancelled == 0 {
break
}
if cancelled >= uint32(max) {
if atomic.CompareAndSwapUint32(&l.cancelled, cancelled, uint32(max)-1) {
return max
}
continue
}
if atomic.CompareAndSwapUint32(&l.cancelled, cancelled, uint32(cancelled)-1) {
return int(cancelled)
}
}
for {
res, err := l.limiter.AllowAtMost(ctx, l.bucket, l.limit, max)
if err != nil {
time.Sleep(100 * time.Millisecond)
continue
}
if res.Allowed > 0 {
atomic.AddUint32(&l.allowedCount, 1)
return res.Allowed
}
atomic.StoreUint32(&l.allowedCount, 0)
time.Sleep(res.RetryAfter)
}
}
func (l *limiter) Cancel(n int) {
if l.limiter == nil {
return
}
atomic.AddUint32(&l.cancelled, uint32(n))
}
func (l *limiter) Limited() bool {
return l.limiter != nil && atomic.LoadUint32(&l.allowedCount) < 3
}
//------------------------------------------------------------------------------
func exponentialBackoff(min, max time.Duration, retry int) time.Duration {
var d time.Duration
if retry > 0 {
d = min << uint(retry-1)
}
if d < min {
return min
}
if d > max {
return max
}
return d
}