Part of our code is time sensitive and we need to able to reserve something and then release it in 30-60 seconds etc, which we can just do a time.Sleep(60 * time.Second)

I have just implemented time interface and during test use a stubbed implementation of the time interface, similar to this golang-nuts discussion.

However, time.Now() is called in multiple sites which means we need to pass a variable around to keep track of how much time we have actually slept.

I was wondering if there is an alternative way to stub out time.Now() globally. Maybe making a system call to change the system clock?

Maybe we can write our own time package which basically wraps around the time package but allows us to change it?

Our current implementation works well, I am a go beginner and I am curious to see if anyone has other ideas?


With implementing a custom interface you are already on the right way. I take it you use the following advise from the golang nuts thread you've posted:

type Clock interface {
  Now() time.Time
  After(d time.Duration) <-chan time.Time

and provide a concrete implementation

type realClock struct{}
func (realClock) Now() time.Time { return time.Now() }
func (realClock) After(d time.Duration) <-chan time.Time { return time.After(d) }

and a testing implementation.


Changing the system time while making tests (or in general) is a bad idea. You don't know what depends on the system time while executing tests and you don't want to find out the hard way by spending days of debugging into that. Just don't do it.

There is also no way to shadow the time package globally and doing that would not do anything more you couldn't do with the interface solution. You can write your own time package which uses the standard library and provides a function to switch to a mock time library for testing if it is the time object you need to pass around with the interface solution that is bothering you.

The best way to design and test your code would probably be to make as much code stateless as possible. Split your functionality in testable, stateless parts. Testing these components separately is much easier then. Also, less side effects means that it is much easier to make the code run concurrently.

  • 6
    I created a package based on this idea: github.com/101loops/clock – stephanos Apr 21 '14 at 17:14
  • 1
    @stephanos you should post this as separate answer as it's easy to miss. Also usage examples on the repo itself would be useful. – Kamil Dziedzic Mar 28 '16 at 10:57

I use the bouk/monkey package to replace the time.Now() calls in my code with a fake:

package main

import (


func main() {
    wayback := time.Date(1974, time.May, 19, 1, 2, 3, 4, time.UTC)
    patch := monkey.Patch(time.Now, func() time.Time { return wayback })
    defer patch.Unpatch()
    fmt.Printf("It is now %s\n", time.Now())

This works well in tests to fake out system dependencies and avoids the abused DI pattern. Production code stays separate from test code and you gain useful control of system dependencies.


If the methods you need to mock are few, such as Now(), you can make a package variable which can be overwritten by tests:

package foo

import "time"

var Now = time.Now

// The rest of your code...which calls Now() instead of time.Now()

then in your test file:

package foo

import (

var Now = func() time.Time { return ... }

// Your tests
  • 5
    Note: you don't have to make Now public for it to be accessible in the tests. – Ramfjord Oct 27 '17 at 0:30

Also if you need to just stub time.Now you can inject dependency as a function, e.g.

func moonPhase(now func() time.Time) {
  if now == nil {
    now = time.Now

  // use now()...

// Then dependent code uses just

// And tests inject own version
stubNow := func() time.Time { return time.Unix(1515151515, 0) }

Granted all that is a bit ugly if you come from dynamic languages background (e.g. Ruby) :(


From Google result I found relatively simple solution: Here

The basic idea is using another function call "nowFunc" to get the time.Now(). In your main, initialize this function to return time.Now(). In your test, initialize this function to return a fixed fake time.

  • Im also using this method but wonder if there's any downside to the approach. The nice thing about this is it avoids having to pass a Clock interface around. – sthomps Nov 2 '18 at 17:04

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