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gotosocial/vendor/codeberg.org/gruf/go-sched/scheduler.go

241 lines
5.3 KiB
Go

package sched
import (
"context"
"sort"
"time"
"codeberg.org/gruf/go-atomics"
"codeberg.org/gruf/go-runners"
)
var (
// neverticks is a timer channel that never ticks (it's starved).
neverticks = make(chan time.Time)
// alwaysticks is a timer channel that always ticks (it's closed).
alwaysticks = func() chan time.Time {
ch := make(chan time.Time)
close(ch)
return ch
}()
)
// Scheduler provides a means of running jobs at specific times and
// regular intervals, all while sharing a single underlying timer.
type Scheduler struct {
jobs []*Job // jobs is a list of tracked Jobs to be executed
jch chan interface{} // jch accepts either Jobs or job IDs to notify new/removed jobs
svc runners.Service // svc manages the main scheduler routine
jid atomics.Uint64 // jid is used to iteratively generate unique IDs for jobs
}
// New returns a new Scheduler instance with given job change queue size.
func NewScheduler(queue int) Scheduler {
if queue < 0 {
queue = 10
}
return Scheduler{jch: make(chan interface{}, queue)}
}
// Start will attempt to start the Scheduler. Immediately returns false if the Service is already running, and true after completed run.
func (sch *Scheduler) Start() bool {
return sch.svc.Run(sch.run)
}
// Stop will attempt to stop the Scheduler. Immediately returns false if not running, and true only after Scheduler is fully stopped.
func (sch *Scheduler) Stop() bool {
return sch.svc.Stop()
}
// Running will return whether Scheduler is running.
func (sch *Scheduler) Running() bool {
return sch.svc.Running()
}
// Schedule will add provided Job to the Scheduler, returning a cancel function.
func (sch *Scheduler) Schedule(job *Job) (cancel func()) {
if job == nil {
// Ensure there's a job!
panic("nil job")
}
// Get last known job ID
last := sch.jid.Load()
// Give this job an ID and check overflow
if job.id = sch.jid.Add(1); job.id < last {
panic("scheduler job id overflow")
}
// Pass job to scheduler
sch.jch <- job
// Return cancel function for job ID
return func() { sch.jch <- job.id }
}
// run is the main scheduler run routine, which runs for as long as ctx is valid.
func (sch *Scheduler) run(ctx context.Context) {
var (
// timerset represents whether timer was running
// for a particular run of the loop. false means
// that tch == neverticks || tch == alwaysticks
timerset bool
// timer tick channel (or a never-tick channel)
tch <-chan time.Time
// timer notifies this main routine to wake when
// the job queued needs to be checked for executions
timer *time.Timer
// stopdrain will stop and drain the timer
// if it has been running (i.e. timerset == true)
stopdrain = func() {
if timerset && !timer.Stop() {
<-timer.C
}
}
)
for {
select {
// Handle received job/id
case v := <-sch.jch:
sch.handle(v)
continue
// No more
default:
}
// Done
break
}
// Create a stopped timer
timer = time.NewTimer(1)
<-timer.C
for {
// Reset timer state
timerset = false
if len(sch.jobs) > 0 {
// Sort jobs by next occurring
sort.Sort(byNext(sch.jobs))
// Get execution time
now := time.Now()
// Get next job time
next := sch.jobs[0].Next()
if until := next.Sub(now); until <= 0 {
// This job is behind schedule,
// set timer to always tick
tch = alwaysticks
} else {
// Reset timer to period
timer.Reset(until)
tch = timer.C
timerset = true
}
} else {
// Unset timer
tch = neverticks
}
select {
// Scheduler stopped
case <-ctx.Done():
stopdrain()
return
// Timer ticked, run scheduled
case now := <-tch:
sch.schedule(now)
// Received update, handle job/id
case v := <-sch.jch:
sch.handle(v)
stopdrain()
}
}
}
// handle takes an interfaces received from Scheduler.jch and handles either:
// - Job --> new job to add.
// - uint64 --> job ID to remove.
func (sch *Scheduler) handle(v interface{}) {
switch v := v.(type) {
// New job added
case *Job:
// Get current time
now := time.Now()
// Update the next call time
next := v.timing.Next(now)
v.next.Store(next)
// Append this job to queued
sch.jobs = append(sch.jobs, v)
// Job removed
case uint64:
for i := 0; i < len(sch.jobs); i++ {
if sch.jobs[i].id == v {
// This is the job we're looking for! Drop this
sch.jobs = append(sch.jobs[:i], sch.jobs[i+1:]...)
return
}
}
}
}
// schedule will iterate through the scheduler jobs and execute those necessary, updating their next call time.
func (sch *Scheduler) schedule(now time.Time) {
for i := 0; i < len(sch.jobs); {
// Scope our own var
job := sch.jobs[i]
// We know these jobs are ordered by .Next(), so as soon
// as we reach one with .Next() after now, we can return
if job.Next().After(now) {
return
}
// Update the next call time
next := job.timing.Next(now)
job.next.Store(next)
// Run this job async!
go job.Run(now)
if job.Next().IsZero() {
// Zero time, this job is done and can be dropped
sch.jobs = append(sch.jobs[:i], sch.jobs[i+1:]...)
continue
}
// Iter
i++
}
}
// byNext is an implementation of sort.Interface to sort Jobs by their .Next() time.
type byNext []*Job
func (by byNext) Len() int {
return len(by)
}
func (by byNext) Less(i int, j int) bool {
return by[i].Next().Before(by[j].Next())
}
func (by byNext) Swap(i int, j int) {
by[i], by[j] = by[j], by[i]
}