45

I have been looking around for examples on how to implement a function that allows you to execute tasks at a certain time in Go, but I couldn't find anything.

I implemented one myself and I am sharing it in the answers, so other people can have a reference for their own implementation.

1
  • 2
    shameless plug: perhaps you could check this out: minimalist cron go-package: github.com/roylee0704/gron
    – Roy Lee
    Jun 14, 2016 at 7:49

6 Answers 6

39

This is a general implementation, which lets you set:

  • interval period
  • hour to tick
  • minute to tick
  • second to tick

UPDATED: (the memory leak was fixed)

import (
"fmt"
"time"
)

const INTERVAL_PERIOD time.Duration = 24 * time.Hour

const HOUR_TO_TICK int = 23
const MINUTE_TO_TICK int = 00
const SECOND_TO_TICK int = 03

type jobTicker struct {
    timer *time.Timer
}

func runningRoutine() {
    jobTicker := &jobTicker{}
    jobTicker.updateTimer()
    for {
        <-jobTicker.timer.C
        fmt.Println(time.Now(), "- just ticked")
        jobTicker.updateTimer()
    }
}

func (t *jobTicker) updateTimer() {
    nextTick := time.Date(time.Now().Year(), time.Now().Month(), 
    time.Now().Day(), HOUR_TO_TICK, MINUTE_TO_TICK, SECOND_TO_TICK, 0, time.Local)
    if !nextTick.After(time.Now()) {
        nextTick = nextTick.Add(INTERVAL_PERIOD)
    }
    fmt.Println(nextTick, "- next tick")
    diff := nextTick.Sub(time.Now())
    if t.timer == nil {
        t.timer = time.NewTimer(diff)
    } else {
        t.timer.Reset(diff)
    }
}
5
  • 9
    This implementation leaks memory. > Stop the ticker to release associated resources.
    – Caleb
    Feb 27, 2016 at 12:55
  • 2
    @Caleb is right, each time we create a new ticker, the old one will never be released. a better solution is here: stackoverflow.com/a/39295990/2791115
    – simon_xia
    Sep 2, 2016 at 15:32
  • @Caleb, thanks! feel free to update the code on the answer, to fix the leak
    – Daniele B
    Aug 10, 2017 at 1:50
  • isn't it got garbage collected?
    – An Phung
    Mar 9, 2018 at 17:46
  • This doesn't handle NTP clock adjustment well... a daily ticker fires twice sometimes.
    – rustyx
    May 6, 2020 at 21:18
30

In case someone drops in on this question searching for a quick solution. I found a neat library that makes it really easy to schedule jobs.

Link: https://github.com/jasonlvhit/gocron

The API is pretty straightforward:

import (
    "fmt"
    "github.com/jasonlvhit/gocron"
)

func task() {
    fmt.Println("Task is being performed.")
}

func main() {
    s := gocron.NewScheduler()
    s.Every(2).Hours().Do(task)
    <- s.Start()
}
0
24

the answer provided by @Daniele B is not good enough, as @Caleb says, that implementation leaks memory, because each time we create a new ticker, the old one will never be released.

so I wrap the time.timer, and reset it everytime, a example here:

package main

import (
    "fmt"
    "time"
)

const INTERVAL_PERIOD time.Duration = 24 * time.Hour

const HOUR_TO_TICK int = 23
const MINUTE_TO_TICK int = 21
const SECOND_TO_TICK int = 03

type jobTicker struct {
    t *time.Timer
}

func getNextTickDuration() time.Duration {
    now := time.Now()
    nextTick := time.Date(now.Year(), now.Month(), now.Day(), HOUR_TO_TICK, MINUTE_TO_TICK, SECOND_TO_TICK, 0, time.Local)
    if nextTick.Before(now) {
        nextTick = nextTick.Add(INTERVAL_PERIOD)
    }
    return nextTick.Sub(time.Now())
}

func NewJobTicker() jobTicker {
    fmt.Println("new tick here")
    return jobTicker{time.NewTimer(getNextTickDuration())}
}

func (jt jobTicker) updateJobTicker() {
    fmt.Println("next tick here")
    jt.t.Reset(getNextTickDuration())
}

func main() {
    jt := NewJobTicker()
    for {
        <-jt.t.C
        fmt.Println(time.Now(), "- just ticked")
        jt.updateJobTicker()
    }
}
10

I have created a package that actually supports crontab syntax if you are familiar with it, for example:

ctab := crontab.New()
ctab.AddJob("*/5 * * * *", myFunc)
ctab.AddJob("0 0 * * *", myFunc2)

Package link: https://github.com/mileusna/crontab

1
  • This is actually really nice! Thx for creating this package :)
    – Bijan
    Sep 30, 2020 at 19:02
8

This is another general implementation without need for a third party library.

Disclaimer: This implementation works with UTC. For managing timezones it has to be modified.

Run a func once a day at noon.

  • Period: time.Hour * 24
  • Offset: time.Hour * 12

Run a func twice a day at 03:40 (00:00 + 03:40) and 15:40 (12:00 + 03:40).

  • Period: time.Hour * 12
  • Offset: time.Hour * 3 + time.Minute * 40

Updated (2020-01-28):

Changes:

  • context.Context can be used for cancellation, makes it testable.
  • time.Ticker removes the need for calculating the time of the next execution.
package main

import (
    "context"
    "time"
)

// Schedule calls function `f` with a period `p` offsetted by `o`.
func Schedule(ctx context.Context, p time.Duration, o time.Duration, f func(time.Time)) {
    // Position the first execution
    first := time.Now().Truncate(p).Add(o)
    if first.Before(time.Now()) {
        first = first.Add(p)
    }
    firstC := time.After(first.Sub(time.Now()))

    // Receiving from a nil channel blocks forever
    t := &time.Ticker{C: nil}

    for {
        select {
        case v := <-firstC:
            // The ticker has to be started before f as it can take some time to finish
            t = time.NewTicker(p)
            f(v)
        case v := <-t.C:
            f(v)
        case <-ctx.Done():
            t.Stop()
            return
        }
    }

}

Original:

package main

import (
    "time"
)

// Repeat calls function `f` with a period `d` offsetted by `o`.
func Repeat(d time.Duration, o time.Duration, f func(time.Time)) {
    next := time.Now().Truncate(d).Add(o)
    if next.Before(time.Now()) {
        next = next.Add(d)
    }

    t := time.NewTimer(next.Sub(time.Now()))

    for {
        v := <-t.C
        next = next.Add(d)
        t.Reset(next.Sub(time.Now()))
        f(v)
    }
}
0
0

I'm using https://github.com/ehsaniara/gointerlock. It's also supported in distributed systems and has a builtin distributer lock (Redis)

import (
    "context"
    "fmt"
    "github.com/ehsaniara/gointerlock"
    "log"
    "time"
)

var job = gointerlock.GoInterval{
    Interval: 2 * time.Second,
    Arg:      myJob,
}

err := job.Run(ctx)
if err != nil {
    log.Fatalf("Error: %s", err)
}

func myJob() {
    fmt.Println(time.Now(), " - called")
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.