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producer.go
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producer.go
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package river
import (
"context"
"encoding/json"
"errors"
"log/slog"
"strings"
"sync/atomic"
"time"
"github.com/riverqueue/river/internal/jobcompleter"
"github.com/riverqueue/river/internal/notifier"
"github.com/riverqueue/river/internal/rivercommon"
"github.com/riverqueue/river/internal/util/chanutil"
"github.com/riverqueue/river/internal/workunit"
"github.com/riverqueue/river/riverdriver"
"github.com/riverqueue/river/rivershared/baseservice"
"github.com/riverqueue/river/rivershared/startstop"
"github.com/riverqueue/river/rivershared/testsignal"
"github.com/riverqueue/river/rivershared/util/randutil"
"github.com/riverqueue/river/rivershared/util/serviceutil"
"github.com/riverqueue/river/rivertype"
)
const (
queuePollIntervalDefault = 2 * time.Second
queueReportIntervalDefault = 10 * time.Minute
)
// Test-only properties.
type producerTestSignals struct {
DeletedExpiredQueueRecords testsignal.TestSignal[struct{}] // notifies when the producer deletes expired queue records
Paused testsignal.TestSignal[struct{}] // notifies when the producer is paused
PolledQueueConfig testsignal.TestSignal[struct{}] // notifies when the producer polls for queue settings
ReportedQueueStatus testsignal.TestSignal[struct{}] // notifies when the producer reports queue status
Resumed testsignal.TestSignal[struct{}] // notifies when the producer is resumed
StartedExecutors testsignal.TestSignal[struct{}] // notifies when runOnce finishes a pass
}
func (ts *producerTestSignals) Init() {
ts.DeletedExpiredQueueRecords.Init()
ts.Paused.Init()
ts.PolledQueueConfig.Init()
ts.ReportedQueueStatus.Init()
ts.Resumed.Init()
ts.StartedExecutors.Init()
}
type producerConfig struct {
ClientID string
Completer jobcompleter.JobCompleter
ErrorHandler ErrorHandler
// FetchCooldown is the minimum amount of time to wait between fetches of new
// jobs. Jobs will only be fetched *at most* this often, but if no new jobs
// are coming in via LISTEN/NOTIFY then fetches may be delayed as long as
// FetchPollInterval.
FetchCooldown time.Duration
// FetchPollInterval is the amount of time between periodic fetches for new
// jobs. Typically new jobs will be picked up ~immediately after insert via
// LISTEN/NOTIFY, but this provides a fallback.
FetchPollInterval time.Duration
GlobalMiddleware []rivertype.WorkerMiddleware
JobTimeout time.Duration
MaxWorkers int
// Notifier is a notifier for subscribing to new job inserts and job
// control. If nil, the producer will operate in poll-only mode.
Notifier *notifier.Notifier
Queue string
// QueueEventCallback gets called when a queue's config changes (such as
// pausing or resuming) events can be emitted to subscriptions.
QueueEventCallback func(event *Event)
// QueuePollInterval is the amount of time between periodic checks for
// queue setting changes. This is only used in poll-only mode (when no
// notifier is provided).
QueuePollInterval time.Duration
// QueueReportInterval is the amount of time between periodic reports
// of the queue status.
QueueReportInterval time.Duration
RetryPolicy ClientRetryPolicy
SchedulerInterval time.Duration
Workers *Workers
}
func (c *producerConfig) mustValidate() *producerConfig {
if c.Completer == nil {
panic("producerConfig.Completer is required")
}
if c.ClientID == "" {
panic("producerConfig.ClientID is required")
}
if c.FetchCooldown <= 0 {
panic("producerConfig.FetchCooldown must be great than zero")
}
if c.FetchPollInterval <= 0 {
panic("producerConfig.FetchPollInterval must be greater than zero")
}
if c.JobTimeout < -1 {
panic("producerConfig.JobTimeout must be greater or equal to zero")
}
if c.MaxWorkers == 0 {
panic("producerConfig.MaxWorkers is required")
}
if c.Queue == "" {
panic("producerConfig.Queue is required")
}
if c.QueuePollInterval == 0 {
c.QueuePollInterval = queuePollIntervalDefault
}
if c.QueuePollInterval <= 0 {
panic("producerConfig.QueueSettingsPollInterval must be greater than zero")
}
if c.QueueReportInterval == 0 {
c.QueueReportInterval = queueReportIntervalDefault
}
if c.QueueReportInterval <= 0 {
panic("producerConfig.QueueSettingsReportInterval must be greater than zero")
}
if c.RetryPolicy == nil {
panic("producerConfig.RetryPolicy is required")
}
if c.SchedulerInterval == 0 {
panic("producerConfig.SchedulerInterval is required")
}
if c.Workers == nil {
panic("producerConfig.Workers is required")
}
return c
}
// producer manages a fleet of Workers up to a maximum size. It periodically fetches jobs
// from the adapter and dispatches them to Workers. It receives completed job results from Workers.
//
// The producer never fetches more jobs than the number of free Worker slots it
// has available. This is not optimal for throughput compared to pre-fetching
// extra jobs, but it is better for smaller job counts or slower jobs where even
// distribution and minimizing execution latency is more important.
type producer struct {
baseservice.BaseService
startstop.BaseStartStop
// Jobs which are currently being worked. Only used by main goroutine.
activeJobs map[int64]*jobExecutor
completer jobcompleter.JobCompleter
config *producerConfig
exec riverdriver.Executor
errorHandler ErrorHandler
workers *Workers
// Receives job IDs to cancel. Written by notifier goroutine, only read from
// main goroutine.
cancelCh chan int64
// Set to true when the producer thinks it should trigger another fetch as
// soon as slots are available. This is written and read by the main
// goroutine.
fetchWhenSlotsAreAvailable bool
// Receives completed jobs from workers. Written by completed workers, only
// read from main goroutine.
jobResultCh chan *rivertype.JobRow
jobTimeout time.Duration
// An atomic count of the number of jobs actively being worked on. This is
// written to by the main goroutine, but read by the dispatcher.
numJobsActive atomic.Int32
numJobsRan atomic.Uint64
paused bool
// Receives control messages from the notifier goroutine. Written by notifier
// goroutine, only read from main goroutine.
queueControlCh chan *jobControlPayload
retryPolicy ClientRetryPolicy
testSignals producerTestSignals
}
func newProducer(archetype *baseservice.Archetype, exec riverdriver.Executor, config *producerConfig) *producer {
if archetype == nil {
panic("archetype is required")
}
if exec == nil {
panic("exec is required")
}
return baseservice.Init(archetype, &producer{
activeJobs: make(map[int64]*jobExecutor),
cancelCh: make(chan int64, 1000),
completer: config.Completer,
config: config.mustValidate(),
exec: exec,
errorHandler: config.ErrorHandler,
jobResultCh: make(chan *rivertype.JobRow, config.MaxWorkers),
jobTimeout: config.JobTimeout,
queueControlCh: make(chan *jobControlPayload, 100),
retryPolicy: config.RetryPolicy,
workers: config.Workers,
})
}
// Start starts the producer. It backgrounds a goroutine which is stopped when
// context is cancelled or Stop is invoked.
//
// This variant uses a single context as fetchCtx and workCtx, and is here to
// implement startstop.Service so that the producer can be stored as a service
// variable and used with various service utilities. StartWorkContext below
// should be preferred for production use.
func (p *producer) Start(ctx context.Context) error {
return p.StartWorkContext(ctx, ctx)
}
func (p *producer) Stop() {
p.Logger.Debug(p.Name + ": Stopping")
p.BaseStartStop.Stop()
p.Logger.Debug(p.Name + ": Stop returned")
}
// Start starts the producer. It backgrounds a goroutine which is stopped when
// context is cancelled or Stop is invoked.
//
// When fetchCtx is cancelled, no more jobs will be fetched; however, if a fetch
// is already in progress, It will be allowed to complete and run any fetched
// jobs. When workCtx is cancelled, any in-progress jobs will have their
// contexts cancelled too.
func (p *producer) StartWorkContext(fetchCtx, workCtx context.Context) error {
fetchCtx, shouldStart, started, stopped := p.StartInit(fetchCtx)
if !shouldStart {
return nil
}
queue, err := func() (*rivertype.Queue, error) {
ctx, cancel := context.WithTimeout(fetchCtx, 10*time.Second)
defer cancel()
p.Logger.DebugContext(ctx, p.Name+": Fetching initial queue settings", slog.String("queue", p.config.Queue))
return p.exec.QueueCreateOrSetUpdatedAt(ctx, &riverdriver.QueueCreateOrSetUpdatedAtParams{
Metadata: []byte("{}"),
Name: p.config.Queue,
})
}()
if err != nil {
stopped()
if errors.Is(err, startstop.ErrStop) || strings.HasSuffix(err.Error(), "conn closed") || fetchCtx.Err() != nil {
return nil //nolint:nilerr
}
p.Logger.ErrorContext(fetchCtx, p.Name+": Error fetching initial queue settings", slog.String("err", err.Error()))
return err
}
initiallyPaused := queue != nil && (queue.PausedAt != nil)
p.paused = initiallyPaused
// TODO: fetcher should have some jitter in it to avoid stampeding issues.
fetchLimiter := chanutil.NewDebouncedChan(fetchCtx, p.config.FetchCooldown, true)
var (
controlSub *notifier.Subscription
insertSub *notifier.Subscription
)
if p.config.Notifier == nil {
p.Logger.DebugContext(fetchCtx, p.Name+": No notifier configured; starting in poll mode", "client_id", p.config.ClientID)
go p.pollForSettingChanges(fetchCtx, initiallyPaused)
} else {
var err error
handleInsertNotification := func(topic notifier.NotificationTopic, payload string) {
var decoded insertPayload
if err := json.Unmarshal([]byte(payload), &decoded); err != nil {
p.Logger.ErrorContext(workCtx, p.Name+": Failed to unmarshal insert notification payload", slog.String("err", err.Error()))
return
}
if decoded.Queue != p.config.Queue {
return
}
p.Logger.DebugContext(workCtx, p.Name+": Received insert notification", slog.String("queue", decoded.Queue))
fetchLimiter.Call()
}
insertSub, err = p.config.Notifier.Listen(fetchCtx, notifier.NotificationTopicInsert, handleInsertNotification)
if err != nil {
stopped()
if strings.HasSuffix(err.Error(), "conn closed") || errors.Is(err, context.Canceled) {
return nil
}
return err
}
controlSub, err = p.config.Notifier.Listen(fetchCtx, notifier.NotificationTopicControl, p.handleControlNotification(workCtx))
if err != nil {
stopped()
if strings.HasSuffix(err.Error(), "conn closed") || errors.Is(err, context.Canceled) {
return nil
}
return err
}
}
go func() {
started()
defer stopped() // this defer should come first so it's last out
p.Logger.DebugContext(fetchCtx, p.Name+": Run loop started", slog.String("queue", p.config.Queue), slog.Bool("paused", p.paused))
defer func() {
p.Logger.DebugContext(fetchCtx, p.Name+": Run loop stopped", slog.String("queue", p.config.Queue), slog.Uint64("num_completed_jobs", p.numJobsRan.Load()))
}()
if insertSub != nil {
defer insertSub.Unlisten(fetchCtx)
}
if controlSub != nil {
defer controlSub.Unlisten(fetchCtx)
}
go p.heartbeatLogLoop(fetchCtx)
go p.reportQueueStatusLoop(fetchCtx)
p.fetchAndRunLoop(fetchCtx, workCtx, fetchLimiter)
p.executorShutdownLoop()
}()
return nil
}
type controlAction string
const (
controlActionCancel controlAction = "cancel"
controlActionPause controlAction = "pause"
controlActionResume controlAction = "resume"
)
type jobControlPayload struct {
Action controlAction `json:"action"`
JobID int64 `json:"job_id"`
Queue string `json:"queue"`
}
type insertPayload struct {
Queue string `json:"queue"`
}
func (p *producer) handleControlNotification(workCtx context.Context) func(notifier.NotificationTopic, string) {
return func(topic notifier.NotificationTopic, payload string) {
var decoded jobControlPayload
if err := json.Unmarshal([]byte(payload), &decoded); err != nil {
p.Logger.ErrorContext(workCtx, p.Name+": Failed to unmarshal job control notification payload", slog.String("err", err.Error()))
return
}
switch decoded.Action {
case controlActionPause, controlActionResume:
if decoded.Queue != rivercommon.AllQueuesString && decoded.Queue != p.config.Queue {
p.Logger.DebugContext(workCtx, p.Name+": Queue control notification for other queue", slog.String("action", string(decoded.Action)))
return
}
select {
case <-workCtx.Done():
case p.queueControlCh <- &decoded:
default:
p.Logger.WarnContext(workCtx, p.Name+": Queue control notification dropped due to full buffer", slog.String("action", string(decoded.Action)))
}
case controlActionCancel:
if decoded.Queue != p.config.Queue {
p.Logger.DebugContext(workCtx, p.Name+": Received job cancel notification for other queue",
slog.String("action", string(decoded.Action)),
slog.Int64("job_id", decoded.JobID),
slog.String("queue", decoded.Queue),
)
return
}
select {
case <-workCtx.Done():
case p.cancelCh <- decoded.JobID:
default:
p.Logger.WarnContext(workCtx, p.Name+": Job cancel notification dropped due to full buffer", slog.Int64("job_id", decoded.JobID))
}
default:
p.Logger.DebugContext(workCtx, p.Name+": Received job control notification with unknown action",
slog.String("action", string(decoded.Action)),
slog.Int64("job_id", decoded.JobID),
slog.String("queue", decoded.Queue),
)
}
}
}
func (p *producer) fetchAndRunLoop(fetchCtx, workCtx context.Context, fetchLimiter *chanutil.DebouncedChan) {
// Prime the fetchLimiter so we can make an initial fetch without waiting for
// an insert notification or a fetch poll.
fetchLimiter.Call()
fetchPollTimer := time.NewTimer(p.config.FetchPollInterval)
go func() {
for {
select {
case <-fetchCtx.Done():
// Stop fetch timer so no more fetches are triggered.
if !fetchPollTimer.Stop() {
<-fetchPollTimer.C
}
return
case <-fetchPollTimer.C:
fetchLimiter.Call()
fetchPollTimer.Reset(p.config.FetchPollInterval)
}
}
}()
fetchResultCh := make(chan producerFetchResult)
for {
select {
case <-fetchCtx.Done():
return
case msg := <-p.queueControlCh:
switch msg.Action {
case controlActionPause:
if p.paused {
continue
}
p.paused = true
p.Logger.DebugContext(workCtx, p.Name+": Paused", slog.String("queue", p.config.Queue), slog.String("queue_in_message", msg.Queue))
p.testSignals.Paused.Signal(struct{}{})
if p.config.QueueEventCallback != nil {
p.config.QueueEventCallback(&Event{Kind: EventKindQueuePaused, Queue: &rivertype.Queue{Name: p.config.Queue}})
}
case controlActionResume:
if !p.paused {
continue
}
p.paused = false
p.Logger.DebugContext(workCtx, p.Name+": Resumed", slog.String("queue", p.config.Queue), slog.String("queue_in_message", msg.Queue))
p.testSignals.Resumed.Signal(struct{}{})
if p.config.QueueEventCallback != nil {
p.config.QueueEventCallback(&Event{Kind: EventKindQueueResumed, Queue: &rivertype.Queue{Name: p.config.Queue}})
}
case controlActionCancel:
// Separate this case to make linter happy:
p.Logger.DebugContext(workCtx, p.Name+": Unhandled queue control action", "action", msg.Action)
default:
p.Logger.DebugContext(workCtx, p.Name+": Unknown queue control action", "action", msg.Action)
}
case jobID := <-p.cancelCh:
p.maybeCancelJob(jobID)
case <-fetchLimiter.C():
if p.paused {
continue
}
p.innerFetchLoop(workCtx, fetchResultCh)
// Ensure we can't start another fetch when fetchCtx is done, even if
// the fetchLimiter is also ready to fire:
select {
case <-fetchCtx.Done():
return
default:
}
case result := <-p.jobResultCh:
p.removeActiveJob(result.ID)
if p.fetchWhenSlotsAreAvailable {
// If we missed a fetch because all worker slots were full, or if we
// fetched the maximum number of jobs on the last attempt, get a little
// more aggressive triggering the fetch limiter now that we have a slot
// available.
p.fetchWhenSlotsAreAvailable = false
fetchLimiter.Call()
}
}
}
}
func (p *producer) innerFetchLoop(workCtx context.Context, fetchResultCh chan producerFetchResult) {
limit := p.maxJobsToFetch()
if limit <= 0 {
// We have no slots for new jobs, so don't bother fetching. However, since
// we knew it was time to fetch, we keep track of what happened so we can
// trigger another fetch as soon as we have open slots.
p.fetchWhenSlotsAreAvailable = true
return
}
go p.dispatchWork(workCtx, limit, fetchResultCh)
for {
select {
case result := <-fetchResultCh:
if result.err != nil {
p.Logger.ErrorContext(workCtx, p.Name+": Error fetching jobs", slog.String("err", result.err.Error()))
} else if len(result.jobs) > 0 {
p.startNewExecutors(workCtx, result.jobs)
if len(result.jobs) == limit {
// Fetch returned the maximum number of jobs that were requested,
// implying there may be more in the queue. Trigger another fetch when
// slots are available.
p.fetchWhenSlotsAreAvailable = true
}
}
return
case result := <-p.jobResultCh:
p.removeActiveJob(result.ID)
case jobID := <-p.cancelCh:
p.maybeCancelJob(jobID)
}
}
}
func (p *producer) executorShutdownLoop() {
// No more jobs will be fetched or executed. However, we must wait for all
// in-progress jobs to complete.
for {
if len(p.activeJobs) == 0 {
break
}
result := <-p.jobResultCh
p.removeActiveJob(result.ID)
}
}
func (p *producer) addActiveJob(id int64, executor *jobExecutor) {
p.numJobsActive.Add(1)
p.activeJobs[id] = executor
}
func (p *producer) removeActiveJob(id int64) {
delete(p.activeJobs, id)
p.numJobsActive.Add(-1)
p.numJobsRan.Add(1)
}
func (p *producer) maybeCancelJob(id int64) {
executor, ok := p.activeJobs[id]
if !ok {
return
}
executor.Cancel()
}
func (p *producer) dispatchWork(workCtx context.Context, count int, fetchResultCh chan<- producerFetchResult) {
// This intentionally removes any deadlines or cancellation from the parent
// context because we don't want it to get cancelled if the producer is asked
// to shut down. In that situation, we want to finish fetching any jobs we are
// in the midst of fetching, work them, and then stop. Otherwise we'd have a
// risk of shutting down when we had already fetched jobs in the database,
// leaving those jobs stranded. We'd then potentially have to release them
// back to the queue.
jobs, err := p.exec.JobGetAvailable(context.WithoutCancel(workCtx), &riverdriver.JobGetAvailableParams{
AttemptedBy: p.config.ClientID,
Max: count,
Queue: p.config.Queue,
})
if err != nil {
fetchResultCh <- producerFetchResult{err: err}
return
}
fetchResultCh <- producerFetchResult{jobs: jobs}
}
// Periodically logs an informational log line giving some insight into the
// current state of the producer.
func (p *producer) heartbeatLogLoop(ctx context.Context) {
ticker := time.NewTicker(5 * time.Second)
defer ticker.Stop()
type jobCount struct {
ran uint64
active int
}
var prevCount jobCount
for {
select {
case <-ctx.Done():
return
case <-ticker.C:
curCount := jobCount{ran: p.numJobsRan.Load(), active: int(p.numJobsActive.Load())}
if curCount != prevCount {
p.Logger.InfoContext(ctx, p.Name+": Producer job counts",
slog.Uint64("num_completed_jobs", curCount.ran),
slog.Int("num_jobs_running", curCount.active),
slog.String("queue", p.config.Queue),
)
}
prevCount = curCount
}
}
}
func (p *producer) startNewExecutors(workCtx context.Context, jobs []*rivertype.JobRow) {
for _, job := range jobs {
workInfo, ok := p.workers.workersMap[job.Kind]
var workUnit workunit.WorkUnit
if ok {
workUnit = workInfo.workUnitFactory.MakeUnit(job)
}
// jobCancel will always be called by the executor to prevent leaks.
jobCtx, jobCancel := context.WithCancelCause(workCtx)
executor := baseservice.Init(&p.Archetype, &jobExecutor{
CancelFunc: jobCancel,
ClientJobTimeout: p.jobTimeout,
ClientRetryPolicy: p.retryPolicy,
Completer: p.completer,
ErrorHandler: p.errorHandler,
InformProducerDoneFunc: p.handleWorkerDone,
GlobalMiddleware: p.config.GlobalMiddleware,
JobRow: job,
SchedulerInterval: p.config.SchedulerInterval,
WorkUnit: workUnit,
})
p.addActiveJob(job.ID, executor)
go executor.Execute(jobCtx)
}
p.Logger.DebugContext(workCtx, p.Name+": Distributed batch of jobs to executors", "num_jobs", len(jobs))
p.testSignals.StartedExecutors.Signal(struct{}{})
}
func (p *producer) maxJobsToFetch() int {
return p.config.MaxWorkers - int(p.numJobsActive.Load())
}
func (p *producer) handleWorkerDone(job *rivertype.JobRow) {
p.jobResultCh <- job
}
func (p *producer) pollForSettingChanges(ctx context.Context, lastPaused bool) {
ticker := time.NewTicker(p.config.QueuePollInterval)
for {
select {
case <-ctx.Done():
return
case <-ticker.C:
updatedQueue, err := p.fetchQueueSettings(ctx)
if err != nil {
p.Logger.ErrorContext(ctx, p.Name+": Error fetching queue settings", slog.String("err", err.Error()))
continue
}
shouldBePaused := (updatedQueue.PausedAt != nil)
if lastPaused != shouldBePaused {
action := controlActionPause
if !shouldBePaused {
action = controlActionResume
}
payload := &jobControlPayload{
Action: action,
Queue: p.config.Queue,
}
p.Logger.DebugContext(ctx, p.Name+": Queue control state changed from polling",
slog.String("queue", p.config.Queue),
slog.String("action", string(action)),
slog.Bool("paused", shouldBePaused),
)
select {
case p.queueControlCh <- payload:
lastPaused = shouldBePaused
default:
p.Logger.WarnContext(ctx, p.Name+": Queue control notification dropped due to full buffer", slog.String("action", string(action)))
}
}
p.testSignals.PolledQueueConfig.Signal(struct{}{})
}
}
}
func (p *producer) fetchQueueSettings(ctx context.Context) (*rivertype.Queue, error) {
ctx, cancel := context.WithTimeout(ctx, 10*time.Second)
defer cancel()
return p.exec.QueueGet(ctx, p.config.Queue)
}
func (p *producer) reportQueueStatusLoop(ctx context.Context) {
serviceutil.CancellableSleep(ctx, randutil.DurationBetween(p.Rand, 0, time.Second))
reportTicker := time.NewTicker(p.config.QueueReportInterval)
for {
select {
case <-ctx.Done():
reportTicker.Stop()
return
case <-reportTicker.C:
p.reportQueueStatusOnce(ctx)
}
}
}
func (p *producer) reportQueueStatusOnce(ctx context.Context) {
ctx, cancel := context.WithTimeout(ctx, 10*time.Second)
defer cancel()
p.Logger.DebugContext(ctx, p.Name+": Reporting queue status", slog.String("queue", p.config.Queue))
_, err := p.exec.QueueCreateOrSetUpdatedAt(ctx, &riverdriver.QueueCreateOrSetUpdatedAtParams{
Metadata: []byte("{}"),
Name: p.config.Queue,
})
if err != nil && errors.Is(context.Cause(ctx), startstop.ErrStop) {
return
}
if err != nil {
p.Logger.ErrorContext(ctx, p.Name+": Queue status update, error updating in database", slog.String("err", err.Error()))
return
}
p.testSignals.ReportedQueueStatus.Signal(struct{}{})
}
type producerFetchResult struct {
jobs []*rivertype.JobRow
err error
}