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48944e136c0c3fc0dd04c0ed6cc4401bb00c7cf4
act_runner/internal/app/poll/poller.go
silverwind 48944e136c Use golangci-lint fmt to format code (#823) 
Use `golangci-lint fmt` to format code, replacing the previous gofumpt-based formatter. https://github.com/daixiang0/gci is used to order the imports.

Also drops the `gitea-vet` dependency since `gci` now handles import ordering.

Mirrors https://github.com/go-gitea/gitea/pull/37194.

---
This PR was written with the help of Claude Opus 4.7

Reviewed-on: https://gitea.com/gitea/act_runner/pulls/823
Reviewed-by: Nicolas <173651+bircni@noreply.gitea.com>
Co-authored-by: silverwind <me@silverwind.io>
Co-committed-by: silverwind <me@silverwind.io>
2026-04-17 22:05:01 +00:00

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// Copyright 2023 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package poll
import (
"context"
"errors"
"fmt"
"math/rand/v2"
"sync"
"sync/atomic"
"time"
"gitea.com/gitea/act_runner/internal/app/run"
"gitea.com/gitea/act_runner/internal/pkg/client"
"gitea.com/gitea/act_runner/internal/pkg/config"
"gitea.com/gitea/act_runner/internal/pkg/metrics"
runnerv1 "code.gitea.io/actions-proto-go/runner/v1"
"connectrpc.com/connect"
log "github.com/sirupsen/logrus"
)
type Poller struct {
client client.Client
runner *run.Runner
cfg *config.Config
tasksVersion atomic.Int64 // tasksVersion used to store the version of the last task fetched from the Gitea.
pollingCtx context.Context
shutdownPolling context.CancelFunc
jobsCtx context.Context
shutdownJobs context.CancelFunc
done chan struct{}
}
// workerState holds per-goroutine polling state. Backoff counters are
// per-worker so that with Capacity > 1, N workers each seeing one empty
// response don't combine into a "consecutive N empty" reading on a shared
// counter and trigger an unnecessarily long backoff.
type workerState struct {
consecutiveEmpty int64
consecutiveErrors int64
// lastBackoff is the last interval reported to the PollBackoffSeconds gauge
// from this worker; used to suppress redundant no-op Set calls when the
// backoff plateaus (e.g. at FetchIntervalMax).
lastBackoff time.Duration
}
func New(cfg *config.Config, client client.Client, runner *run.Runner) *Poller {
pollingCtx, shutdownPolling := context.WithCancel(context.Background())
jobsCtx, shutdownJobs := context.WithCancel(context.Background())
done := make(chan struct{})
return &Poller{
client: client,
runner: runner,
cfg: cfg,
pollingCtx: pollingCtx,
shutdownPolling: shutdownPolling,
jobsCtx: jobsCtx,
shutdownJobs: shutdownJobs,
done: done,
}
}
func (p *Poller) Poll() {
wg := &sync.WaitGroup{}
for i := 0; i < p.cfg.Runner.Capacity; i++ {
wg.Add(1)
go p.poll(wg)
}
wg.Wait()
// signal that we shutdown
close(p.done)
}
func (p *Poller) PollOnce() {
p.pollOnce(&workerState{})
// signal that we're done
close(p.done)
}
func (p *Poller) Shutdown(ctx context.Context) error {
p.shutdownPolling()
select {
// graceful shutdown completed succesfully
case <-p.done:
return nil
// our timeout for shutting down ran out
case <-ctx.Done():
// when both the timeout fires and the graceful shutdown
// completed succsfully, this branch of the select may
// fire. Do a non-blocking check here against the graceful
// shutdown status to avoid sending an error if we don't need to.
_, ok := <-p.done
if !ok {
return nil
}
// force a shutdown of all running jobs
p.shutdownJobs()
// wait for running jobs to report their status to Gitea
<-p.done
return ctx.Err()
}
}
func (p *Poller) poll(wg *sync.WaitGroup) {
defer wg.Done()
s := &workerState{}
for {
p.pollOnce(s)
select {
case <-p.pollingCtx.Done():
return
default:
continue
}
}
}
// calculateInterval returns the polling interval with exponential backoff based on
// consecutive empty or error responses. The interval starts at FetchInterval and
// doubles with each consecutive empty/error, capped at FetchIntervalMax.
func (p *Poller) calculateInterval(s *workerState) time.Duration {
base := p.cfg.Runner.FetchInterval
maxInterval := p.cfg.Runner.FetchIntervalMax
n := max(s.consecutiveEmpty, s.consecutiveErrors)
if n <= 1 {
return base
}
// Capped exponential backoff: base * 2^(n-1), max shift=5 so multiplier <= 32
shift := min(n-1, 5)
interval := base * time.Duration(int64(1)<<shift)
return min(interval, maxInterval)
}
// addJitter adds +/- 20% random jitter to the given duration to avoid thundering herd.
func addJitter(d time.Duration) time.Duration {
if d <= 0 {
return d
}
// jitter range: [-20%, +20%] of d
jitterRange := int64(d) * 2 / 5 // 40% total range
if jitterRange <= 0 {
return d
}
jitter := rand.Int64N(jitterRange) - jitterRange/2
return d + time.Duration(jitter)
}
func (p *Poller) pollOnce(s *workerState) {
for {
task, ok := p.fetchTask(p.pollingCtx, s)
if !ok {
base := p.calculateInterval(s)
if base != s.lastBackoff {
metrics.PollBackoffSeconds.Set(base.Seconds())
s.lastBackoff = base
}
timer := time.NewTimer(addJitter(base))
select {
case <-timer.C:
case <-p.pollingCtx.Done():
timer.Stop()
return
}
continue
}
// Got a task — reset backoff counters for fast subsequent polling.
s.consecutiveEmpty = 0
s.consecutiveErrors = 0
p.runTaskWithRecover(p.jobsCtx, task)
return
}
}
func (p *Poller) runTaskWithRecover(ctx context.Context, task *runnerv1.Task) {
defer func() {
if r := recover(); r != nil {
err := fmt.Errorf("panic: %v", r)
log.WithError(err).Error("panic in runTaskWithRecover")
}
}()
if err := p.runner.Run(ctx, task); err != nil {
log.WithError(err).Error("failed to run task")
}
}
func (p *Poller) fetchTask(ctx context.Context, s *workerState) (*runnerv1.Task, bool) {
reqCtx, cancel := context.WithTimeout(ctx, p.cfg.Runner.FetchTimeout)
defer cancel()
// Load the version value that was in the cache when the request was sent.
v := p.tasksVersion.Load()
start := time.Now()
resp, err := p.client.FetchTask(reqCtx, connect.NewRequest(&runnerv1.FetchTaskRequest{
TasksVersion: v,
}))
// DeadlineExceeded is the designed idle path for a long-poll: the server
// found no work within FetchTimeout. Treat it as an empty response and do
// not record the duration — the timeout value would swamp the histogram.
if errors.Is(err, context.DeadlineExceeded) {
s.consecutiveEmpty++
s.consecutiveErrors = 0 // timeout is a healthy idle response
metrics.PollFetchTotal.WithLabelValues(metrics.LabelResultEmpty).Inc()
return nil, false
}
metrics.PollFetchDuration.Observe(time.Since(start).Seconds())
if err != nil {
log.WithError(err).Error("failed to fetch task")
s.consecutiveErrors++
metrics.PollFetchTotal.WithLabelValues(metrics.LabelResultError).Inc()
metrics.ClientErrors.WithLabelValues(metrics.LabelMethodFetchTask).Inc()
return nil, false
}
// Successful response — reset error counter.
s.consecutiveErrors = 0
if resp == nil || resp.Msg == nil {
s.consecutiveEmpty++
metrics.PollFetchTotal.WithLabelValues(metrics.LabelResultEmpty).Inc()
return nil, false
}
if resp.Msg.TasksVersion > v {
p.tasksVersion.CompareAndSwap(v, resp.Msg.TasksVersion)
}
if resp.Msg.Task == nil {
s.consecutiveEmpty++
metrics.PollFetchTotal.WithLabelValues(metrics.LabelResultEmpty).Inc()
return nil, false
}
// got a task, set `tasksVersion` to zero to force query db in next request.
p.tasksVersion.CompareAndSwap(resp.Msg.TasksVersion, 0)
metrics.PollFetchTotal.WithLabelValues(metrics.LabelResultTask).Inc()
return resp.Msg.Task, true
}
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