2163d60037
Currently we are tracking loop time with RunOnce method metrics but it may give inaccurate values if loop if waiting for observer for a ver long time. We had such case with GC which is only loop observer in GC peer and its joning loop every 5 days. Change-Id: I08546c912e00c3641488de6a5d75948fe75c8e99
543 lines
15 KiB
Go
543 lines
15 KiB
Go
// Copyright (C) 2021 Storj Labs, Inc.
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// See LICENSE for copying information.
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package segmentloop
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import (
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"context"
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"errors"
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"fmt"
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"time"
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"github.com/spacemonkeygo/monkit/v3"
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"github.com/zeebo/errs"
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"go.uber.org/zap"
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"golang.org/x/time/rate"
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"storj.io/common/errs2"
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"storj.io/common/sync2"
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"storj.io/storj/satellite/metabase"
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)
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const batchsizeLimit = 5000
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var (
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mon = monkit.Package()
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// Error is a standard error class for this component.
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Error = errs.Class("segments loop")
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// ErrClosed is a loop closed error.
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ErrClosed = Error.New("loop closed")
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)
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// Segment contains information about segment metadata which will be received by observers.
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type Segment metabase.LoopSegmentEntry
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// Inline returns true if segment is inline.
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func (s Segment) Inline() bool {
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return s.Redundancy.IsZero() && len(s.Pieces) == 0
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}
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// Expired checks if segment expired relative to now.
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func (s *Segment) Expired(now time.Time) bool {
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return s.ExpiresAt != nil && s.ExpiresAt.Before(now)
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}
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// Observer is an interface defining an observer that can subscribe to the segments loop.
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//
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// architecture: Observer
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type Observer interface {
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LoopStarted(context.Context, LoopInfo) error
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RemoteSegment(context.Context, *Segment) error
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InlineSegment(context.Context, *Segment) error
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}
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// LoopInfo contains information about the current loop.
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type LoopInfo struct {
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Started time.Time
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}
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// NullObserver is an observer that does nothing. This is useful for joining
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// and ensuring the segments loop runs once before you use a real observer.
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type NullObserver struct{}
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// LoopStarted is called at each loop start.
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func (NullObserver) LoopStarted(context.Context, LoopInfo) error {
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return nil
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}
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// RemoteSegment implements the Observer interface.
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func (NullObserver) RemoteSegment(context.Context, *Segment) error {
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return nil
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}
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// InlineSegment implements the Observer interface.
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func (NullObserver) InlineSegment(context.Context, *Segment) error {
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return nil
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}
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type observerContext struct {
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immediate bool
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trigger bool
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observer Observer
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ctx context.Context
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done chan error
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remote *monkit.DurationDist
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inline *monkit.DurationDist
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}
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func newObserverContext(ctx context.Context, obs Observer) *observerContext {
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name := fmt.Sprintf("%T", obs)
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key := monkit.NewSeriesKey("observer").WithTag("name", name)
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return &observerContext{
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observer: obs,
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ctx: ctx,
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done: make(chan error),
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inline: monkit.NewDurationDist(key.WithTag("pointer_type", "inline")),
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remote: monkit.NewDurationDist(key.WithTag("pointer_type", "remote")),
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}
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}
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func (observer *observerContext) RemoteSegment(ctx context.Context, segment *Segment) error {
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start := time.Now()
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defer func() { observer.remote.Insert(time.Since(start)) }()
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return observer.observer.RemoteSegment(ctx, segment)
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}
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func (observer *observerContext) InlineSegment(ctx context.Context, segment *Segment) error {
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start := time.Now()
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defer func() { observer.inline.Insert(time.Since(start)) }()
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return observer.observer.InlineSegment(ctx, segment)
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}
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func (observer *observerContext) HandleError(err error) bool {
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if err != nil {
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observer.done <- err
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observer.Finish()
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return true
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}
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return false
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}
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func (observer *observerContext) Finish() {
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close(observer.done)
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name := fmt.Sprintf("%T", observer.observer)
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stats := allObserverStatsCollectors.GetStats(name)
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stats.Observe(observer)
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}
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func (observer *observerContext) Wait() error {
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return <-observer.done
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}
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// Config contains configurable values for the segments loop.
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type Config struct {
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CoalesceDuration time.Duration `help:"how long to wait for new observers before starting iteration" releaseDefault:"5s" devDefault:"5s" testDefault:"1s"`
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RateLimit float64 `help:"rate limit (default is 0 which is unlimited segments per second)" default:"0"`
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ListLimit int `help:"how many items to query in a batch" default:"2500"`
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AsOfSystemInterval time.Duration `help:"as of system interval" releaseDefault:"-5m" devDefault:"-1us" testDefault:"-1us"`
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SuspiciousProcessedRatio float64 `help:"ratio where to consider processed count as supicious" default:"0.03"`
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}
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// MetabaseDB contains iterators for the metabase data.
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type MetabaseDB interface {
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// Now returns the time on the database.
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Now(ctx context.Context) (time.Time, error)
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// IterateLoopStreams iterates through all streams passed in as arguments.
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IterateLoopSegments(ctx context.Context, opts metabase.IterateLoopSegments, fn func(context.Context, metabase.LoopSegmentsIterator) error) (err error)
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// GetTableStats gathers statistics about the tables.
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GetTableStats(context.Context, metabase.GetTableStats) (metabase.TableStats, error)
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}
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// Service is a segments loop service.
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//
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// architecture: Service
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type Service struct {
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log *zap.Logger
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config Config
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metabaseDB MetabaseDB
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join chan *observerContext
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done chan struct{}
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}
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// New creates a new segments loop service.
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func New(log *zap.Logger, config Config, metabaseDB MetabaseDB) *Service {
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return &Service{
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log: log,
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metabaseDB: metabaseDB,
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config: config,
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join: make(chan *observerContext),
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done: make(chan struct{}),
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}
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}
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// Join will join the looper for one full cycle until completion and then returns.
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// Joining will trigger a new iteration after coalesce duration.
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// On ctx cancel the observer will return without completely finishing.
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// Only on full complete iteration it will return nil.
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// Safe to be called concurrently.
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func (loop *Service) Join(ctx context.Context, observer Observer) (err error) {
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return loop.joinObserver(ctx, true, observer)
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}
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// Monitor will join the looper for one full cycle until completion and then returns.
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// Joining with monitoring won't trigger after coalesce duration.
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// On ctx cancel the observer will return without completely finishing.
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// Only on full complete iteration it will return nil.
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// Safe to be called concurrently.
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func (loop *Service) Monitor(ctx context.Context, observer Observer) (err error) {
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return loop.joinObserver(ctx, false, observer)
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}
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// joinObserver will join the looper for one full cycle until completion and then returns.
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// On ctx cancel the observer will return without completely finishing.
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// Only on full complete iteration it will return nil.
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// Safe to be called concurrently.
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func (loop *Service) joinObserver(ctx context.Context, trigger bool, obs Observer) (err error) {
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defer mon.Task()(&ctx)(&err)
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obsctx := newObserverContext(ctx, obs)
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obsctx.immediate = sync2.IsManuallyTriggeredCycle(ctx)
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obsctx.trigger = trigger || obsctx.immediate
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select {
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case loop.join <- obsctx:
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case <-ctx.Done():
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return ctx.Err()
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case <-loop.done:
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return ErrClosed
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}
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return obsctx.Wait()
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}
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// Run starts the looping service.
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// It can only be called once, otherwise a panic will occur.
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func (loop *Service) Run(ctx context.Context) (err error) {
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defer mon.Task()(&ctx)(&err)
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for {
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err := loop.RunOnce(ctx)
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if err != nil {
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loop.log.Error("segment loop failure", zap.Error(err))
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if errs2.IsCanceled(err) {
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return err
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}
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if ctx.Err() != nil {
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return errs.Combine(err, ctx.Err())
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}
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mon.Event("segmentloop_error") //mon:locked
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}
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}
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}
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// Close closes the looping services.
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func (loop *Service) Close() (err error) {
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close(loop.done)
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return nil
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}
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// RunOnce goes through segments one time and sends information to observers.
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//
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// It is not safe to call this concurrently with Run.
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func (loop *Service) RunOnce(ctx context.Context) (err error) {
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defer mon.Task()(&ctx)(&err) //mon:locked
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coalesceTimer := time.NewTimer(loop.config.CoalesceDuration)
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defer coalesceTimer.Stop()
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stopTimer(coalesceTimer)
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earlyExit := make(chan *observerContext)
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earlyExitDone := make(chan struct{})
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monitorEarlyExit := func(obs *observerContext) {
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select {
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case <-obs.ctx.Done():
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select {
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case <-earlyExitDone:
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case earlyExit <- obs:
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}
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case <-earlyExitDone:
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}
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}
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timerStarted := false
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observers := []*observerContext{}
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waitformore:
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for {
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select {
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// when the coalesce timer hits, we have waited enough for observers to join.
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case <-coalesceTimer.C:
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break waitformore
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// wait for a new observer to join.
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case obsctx := <-loop.join:
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// when the observer triggers the loop and it's the first one,
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// then start the coalescing timer.
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if obsctx.trigger {
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if !timerStarted {
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coalesceTimer.Reset(loop.config.CoalesceDuration)
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timerStarted = true
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}
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}
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observers = append(observers, obsctx)
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go monitorEarlyExit(obsctx)
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if obsctx.immediate {
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break waitformore
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}
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// remove an observer from waiting when it's canceled before the loop starts.
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case obsctx := <-earlyExit:
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for i, obs := range observers {
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if obs == obsctx {
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observers = append(observers[:i], observers[i+1:]...)
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break
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}
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}
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obsctx.HandleError(obsctx.ctx.Err())
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// reevalute, whether we acually need to start the loop.
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timerShouldRun := false
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for _, obs := range observers {
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timerShouldRun = timerShouldRun || obs.trigger
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}
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if !timerShouldRun && timerStarted {
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stopTimer(coalesceTimer)
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}
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// when ctx done happens we can finish all the waiting observers.
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case <-ctx.Done():
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close(earlyExitDone)
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errorObservers(observers, ctx.Err())
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return ctx.Err()
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}
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}
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close(earlyExitDone)
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return loop.iterateDatabase(ctx, observers)
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}
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func stopTimer(t *time.Timer) {
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t.Stop()
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// drain if it contains something
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select {
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case <-t.C:
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default:
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}
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}
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// Wait waits for run to be finished.
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// Safe to be called concurrently.
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func (loop *Service) Wait() {
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<-loop.done
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}
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var errNoObservers = errs.New("no observers")
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func (loop *Service) iterateDatabase(ctx context.Context, observers []*observerContext) (err error) {
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defer mon.Task()(&ctx)(&err)
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defer func() {
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if err != nil {
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errorObservers(observers, err)
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return
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}
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finishObservers(observers)
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}()
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before, err := loop.metabaseDB.GetTableStats(ctx, metabase.GetTableStats{
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AsOfSystemInterval: loop.config.AsOfSystemInterval,
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})
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if err != nil {
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return Error.Wrap(err)
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}
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var processed processedStats
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processed, observers, err = loop.iterateSegments(ctx, observers)
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if errors.Is(err, errNoObservers) {
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return nil
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}
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if err != nil {
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return Error.Wrap(err)
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}
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after, err := loop.metabaseDB.GetTableStats(ctx, metabase.GetTableStats{
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AsOfSystemInterval: loop.config.AsOfSystemInterval,
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})
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if err != nil {
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return Error.Wrap(err)
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}
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if err := loop.verifyCount(before.SegmentCount, after.SegmentCount, processed.segments); err != nil {
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return Error.Wrap(err)
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}
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return err
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}
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func (loop *Service) verifyCount(before, after, processed int64) error {
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low, high := before, after
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if low > high {
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low, high = high, low
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}
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var deltaFromBounds int64
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var ratio float64
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if processed < low {
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deltaFromBounds = low - processed
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// +1 to avoid division by zero
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ratio = float64(deltaFromBounds) / float64(low+1)
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} else if processed > high {
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deltaFromBounds = processed - high
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// +1 to avoid division by zero
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ratio = float64(deltaFromBounds) / float64(high+1)
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}
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mon.IntVal("segmentloop_verify_before").Observe(before)
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mon.IntVal("segmentloop_verify_after").Observe(after)
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mon.IntVal("segmentloop_verify_processed").Observe(processed)
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mon.IntVal("segmentloop_verify_outside").Observe(deltaFromBounds)
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mon.FloatVal("segmentloop_verify_outside_ratio").Observe(ratio)
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// If we have very few items from the bounds, then it's expected and the ratio does not capture it well.
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const minimumDeltaThreshold = 100
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if deltaFromBounds < minimumDeltaThreshold {
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return nil
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}
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if ratio > loop.config.SuspiciousProcessedRatio {
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return Error.New("processed count looks suspicious: before:%v after:%v processed:%v ratio:%v threshold:%v", before, after, processed, ratio, loop.config.SuspiciousProcessedRatio)
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}
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return nil
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}
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type processedStats struct {
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segments int64
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}
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func (loop *Service) iterateSegments(ctx context.Context, observers []*observerContext) (processed processedStats, _ []*observerContext, err error) {
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defer mon.Task()(&ctx)(&err)
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rateLimiter := rate.NewLimiter(rate.Limit(loop.config.RateLimit), 1)
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if loop.config.RateLimit == 0 {
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rateLimiter = rate.NewLimiter(rate.Inf, 1)
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}
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limit := loop.config.ListLimit
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if limit <= 0 || limit > batchsizeLimit {
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limit = batchsizeLimit
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}
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startingTime, err := loop.metabaseDB.Now(ctx)
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if err != nil {
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return processed, observers, Error.Wrap(err)
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}
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observers = withObservers(ctx, observers, func(ctx context.Context, observer *observerContext) bool {
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err := observer.observer.LoopStarted(ctx, LoopInfo{Started: startingTime})
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return !observer.HandleError(err)
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})
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if len(observers) == 0 {
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return processed, observers, errNoObservers
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}
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err = loop.metabaseDB.IterateLoopSegments(ctx, metabase.IterateLoopSegments{
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BatchSize: limit,
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AsOfSystemTime: startingTime,
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AsOfSystemInterval: loop.config.AsOfSystemInterval,
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}, func(ctx context.Context, iterator metabase.LoopSegmentsIterator) error {
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defer mon.TaskNamed("iterateLoopSegmentsCB")(&ctx)(&err)
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var entry metabase.LoopSegmentEntry
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for iterator.Next(ctx, &entry) {
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if err := ctx.Err(); err != nil {
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return err
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}
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timer := mon.Timer("iterateLoopSegmentsRateLimit").Start()
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if err := rateLimiter.Wait(ctx); err != nil {
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// We don't really execute concurrent batches so we should never
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// exceed the burst size of 1 and this should never happen.
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// We can also enter here if the context is cancelled.
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timer.Stop()
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return err
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}
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timer.Stop()
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observers = withObservers(ctx, observers, func(ctx context.Context, observer *observerContext) bool {
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segment := Segment(entry)
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return !observer.HandleError(handleSegment(ctx, observer, &segment))
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})
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if len(observers) == 0 {
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return errNoObservers
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}
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processed.segments++
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mon.IntVal("segmentsProcessed").Observe(processed.segments) //mon:locked
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}
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return nil
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})
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return processed, observers, err
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}
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func withObservers(ctx context.Context, observers []*observerContext, handleObserver func(ctx context.Context, observer *observerContext) bool) []*observerContext {
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defer mon.Task()(&ctx)(nil)
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nextObservers := observers[:0]
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for _, observer := range observers {
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keepObserver := handleObserver(ctx, observer)
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if keepObserver {
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nextObservers = append(nextObservers, observer)
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}
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}
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return nextObservers
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}
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func handleSegment(ctx context.Context, observer *observerContext, segment *Segment) (err error) {
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defer mon.Task()(&ctx)(&err)
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if segment.Inline() {
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if err := observer.InlineSegment(ctx, segment); err != nil {
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return err
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}
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} else {
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if err := observer.RemoteSegment(ctx, segment); err != nil {
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return err
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}
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}
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return observer.ctx.Err()
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}
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func finishObservers(observers []*observerContext) {
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for _, observer := range observers {
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observer.Finish()
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}
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}
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func errorObservers(observers []*observerContext, err error) {
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for _, observer := range observers {
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observer.HandleError(err)
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}
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}
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