Is there a way, either in code or with JVM arguments, to override the current time, as presented via System.currentTimeMillis, other than manually changing the system clock on the host machine?

A little background:

We have a system that runs a number of accounting jobs that revolve much of their logic around the current date (ie 1st of the month, 1st of the year, etc)

Unfortunately, a lot of the legacy code calls functions such as new Date() or Calendar.getInstance(), both of which eventually call down to System.currentTimeMillis.

For testing purposes, right now, we are stuck with manually updating the system clock to manipulate what time and date the code thinks that the test is being run.

So my question is:

Is there a way to override what is returned by System.currentTimeMillis? For example, to tell the JVM to automatically add or subtract some offset before returning from that method?

Thanks in advance!

  • 1
    I don't know whether it's relevant anymore, but there is another method to achieve this with AspectJ, see my answer at: stackoverflow.com/questions/18239859/… – Nándor Előd Fekete Dec 5 '13 at 12:28
  • @NándorElődFekete the solution in the link is interesting, however it requires recompiling the code. I wonder if the original poster has the ability to recompile, given the fact he's claiming to be dealing with legacy code. – cleberz Jul 11 '17 at 20:54
  • 1
    @cleberz One of the nice properties of AspectJ is that is operates on bytecode directly, so it doesn't need the original source code to work. – Nándor Előd Fekete Jul 11 '17 at 21:24
  • @NándorElődFekete thank you so much for the hint. I was unaware of the aspectJ bytecode-level instrumentation (especially the JDK classes instrumentation). It took me a while but I was able to figure out I had to both a compile-time weaving of the rt.jar as well as a load-time weaving of the non-jdk classes in order to suit my needs (override System.currentTimeMillis() and System.nanoTime()). – cleberz Jul 21 '17 at 18:39
  • @cleberz I have another answer for weaving through JRE classes, you can check it out as well. – Nándor Előd Fekete Jul 21 '17 at 19:02

12 Answers 12

up vote 93 down vote accepted

I strongly recommend that instead of messing with the system clock, you bite the bullet and refactor that legacy code to use a replaceable clock. Ideally that should be done with dependency injection, but even if you used a replaceable singleton you would gain testability.

This could almost be automated with search and replace for the singleton version:

  • Replace Calendar.getInstance() with Clock.getInstance().getCalendarInstance().
  • Replace new Date() with Clock.getInstance().newDate()
  • Replace System.currentTimeMillis() with Clock.getInstance().currentTimeMillis()

(etc as required)

Once you've taken that first step, you can replace the singleton with DI a bit at a time.

  • 14
    I can't believe you didn't show the joda-time version :( – Stephen Jan 4 '10 at 19:49
  • 31
    Cluttering your code by abstracting or wrapping all potential APIs to increase testability is IMHO not a very good idea. Even if you can do the refactoring once with a simple search & replace, the code becomes much harder to read, understand and maintain. Several mock frameworks ought to be able to modify the behaviour of System.currentTimeMillis, if not, using AOP or self-made instrumentalization is the better choice. – jarnbjo Jan 5 '10 at 0:24
  • 15
    @jarnbjo: Well, you're welcome to your opinion of course - but this is a pretty well-established technique IMO, and I've certainly used it to great effect. Not only does it improve testability - it also makes your dependency on the system time explicit, which can be useful when getting an overview of the code. – Jon Skeet Jan 5 '10 at 6:20
  • 21
    UPDATE The new java.time package built into Java 8 includes a java.time.Clock class "to allow alternate clocks to be plugged in as and when required". – Basil Bourque Oct 26 '14 at 8:02
  • 4
    This answer implies that DI is all good. Personally, I am yet to see an application in the real world which makes good use of it. Instead, we see a profusion of pointless separate interfaces, stateless "objects", data-only "objects", and low cohesion classes. IMO, simplicity and object-oriented design (with true, statefull objects) is a better choice. Regarding static methods, sure they are not OO, but injecting a stateless dependency whose instance don't operate on any instance state is not really better; it's just a fancy way of disguising what is effectively "static" behavior anyway. – Rogério Nov 30 '14 at 17:04

tl;dr

Is there a way, either in code or with JVM arguments, to override the current time, as presented via System.currentTimeMillis, other than manually changing the system clock on the host machine?

Yes.

Instant.now( 
    Clock.fixed( 
        Instant.parse( "2016-01-23T12:34:56Z"), ZoneOffset.UTC
    )
)

Clock In java.time

We have a new solution to the problem of a pluggable clock replacement to facilitate testing with faux date-time values. The java.time package in Java 8 includes an abstract class java.time.Clock, with an explicit purpose:

to allow alternate clocks to be plugged in as and when required

You could plug in your own implementation of Clock, though you likely can find one already made to meet your needs. For your convenience, java.time includes static methods to yield special implementations. These alternate implementations can be valuable during testing.

Altered cadence

The various tick… methods produce clocks that increment the current moment with a different cadence.

The default Clock reports a time updated as frequently as milliseconds in Java 8 and in Java 9 as fine as nanoseconds (depending on your hardware). You can ask for the true current moment to be reported with a different granularity.

False clocks

Some clocks can lie, producing a result different than that of the host OS’ hardware clock.

  • fixed - Reports a single unchanging (non-incrementing) moment as the current moment.
  • offset - Reports the current moment but shifted by the passed Duration argument.

For example, lock in the first moment of the earliest Christmas this year. in other words, when Santa and his reindeer make their first stop. The earliest time zone nowadays seems to be Pacific/Kiritimati at +14:00.

LocalDate ld = LocalDate.now( ZoneId.of( "America/Montreal" ) );
LocalDate xmasThisYear = MonthDay.of( Month.DECEMBER , 25 ).atYear( ld.getYear() );
ZoneId earliestXmasZone = ZoneId.of( "Pacific/Kiritimati" ) ;
ZonedDateTime zdtEarliestXmasThisYear = xmasThisYear.atStartOfDay( earliestXmasZone );
Instant instantEarliestXmasThisYear = zdtEarliestXmasThisYear.toInstant();
Clock clockEarliestXmasThisYear = Clock.fixed( instantEarliestXmasThisYear , earliestXmasZone );

Use that special fixed clock to always return the same moment. We get the first moment of Christmas day in Kiritimati, with UTC showing a wall-clock time of fourteen hours earlier, 10 AM on the prior date of the 24th of December.

Instant instant = Instant.now( clockEarliestXmasThisYear );
ZonedDateTime zdt = ZonedDateTime.now( clockEarliestXmasThisYear );

instant.toString(): 2016-12-24T10:00:00Z

zdt.toString(): 2016-12-25T00:00+14:00[Pacific/Kiritimati]

See live code in IdeOne.com.

True time, different time zone

You can control which time zone is assigned by the Clock implementation. This might be useful in some testing. But I do not recommend this in production code, where you should always specify explicitly the optional ZoneId or ZoneOffset arguments.

You can specify that UTC be the default zone.

ZonedDateTime zdtClockSystemUTC = ZonedDateTime.now ( Clock.systemUTC () );

You can specify any particular time zone. Specify a proper time zone name in the format of continent/region, such as America/Montreal, Africa/Casablanca, or Pacific/Auckland. Never use the 3-4 letter abbreviation such as EST or IST as they are not true time zones, not standardized, and not even unique(!).

ZonedDateTime zdtClockSystem = ZonedDateTime.now ( Clock.system ( ZoneId.of ( "America/Montreal" ) ) );

You can specify the JVM’s current default time zone should be the default for a particular Clock object.

ZonedDateTime zdtClockSystemDefaultZone = ZonedDateTime.now ( Clock.systemDefaultZone () );

Run this code to compare. Note that they all report the same moment, the same point on the timeline. They differ only in wall-clock time; in other words, three ways to say the same thing, three ways to display the same moment.

System.out.println ( "zdtClockSystemUTC.toString(): " + zdtClockSystemUTC );
System.out.println ( "zdtClockSystem.toString(): " + zdtClockSystem );
System.out.println ( "zdtClockSystemDefaultZone.toString(): " + zdtClockSystemDefaultZone );

America/Los_Angeles was the JVM current default zone on the computer that ran this code.

zdtClockSystemUTC.toString(): 2016-12-31T20:52:39.688Z

zdtClockSystem.toString(): 2016-12-31T15:52:39.750-05:00[America/Montreal]

zdtClockSystemDefaultZone.toString(): 2016-12-31T12:52:39.762-08:00[America/Los_Angeles]

The Instant class is always in UTC by definition. So these three zone-related Clock usages have exactly the same effect.

Instant instantClockSystemUTC = Instant.now ( Clock.systemUTC () );
Instant instantClockSystem = Instant.now ( Clock.system ( ZoneId.of ( "America/Montreal" ) ) );
Instant instantClockSystemDefaultZone = Instant.now ( Clock.systemDefaultZone () );

instantClockSystemUTC.toString(): 2016-12-31T20:52:39.763Z

instantClockSystem.toString(): 2016-12-31T20:52:39.763Z

instantClockSystemDefaultZone.toString(): 2016-12-31T20:52:39.763Z

Default clock

The implementation used by default for Instant.now is the one returned by Clock.systemUTC(). This is the implementation used when you do not specify a Clock. See for yourself in pre-release Java 9 source code for Instant.now.

public static Instant now() {
    return Clock.systemUTC().instant();
}

The default Clock for OffsetDateTime.now and ZonedDateTime.now is Clock.systemDefaultZone(). See source code.

public static ZonedDateTime now() {
    return now(Clock.systemDefaultZone());
}

The behavior of the default implementations changed between Java 8 and Java 9. In Java 8, the current moment is captured with a resolution only in milliseconds despite the classes’ ability to store a resolution of nanoseconds. Java 9 brings a new implementation able to capture the current moment with a resolution of nanoseconds – depending, of course, on the capability of your computer hardware clock.


About java.time

The java.time framework is built into Java 8 and later. These classes supplant the troublesome old legacy date-time classes such as java.util.Date, Calendar, & SimpleDateFormat.

The Joda-Time project, now in maintenance mode, advises migration to the java.time classes.

To learn more, see the Oracle Tutorial. And search Stack Overflow for many examples and explanations. Specification is JSR 310.

You may exchange java.time objects directly with your database. Use a JDBC driver compliant with JDBC 4.2 or later. No need for strings, no need for java.sql.* classes.

Where to obtain the java.time classes?

The ThreeTen-Extra project extends java.time with additional classes. This project is a proving ground for possible future additions to java.time. You may find some useful classes here such as Interval, YearWeek, YearQuarter, and more.

As said by Jon Skeet:

"use Joda Time" is almost always the best answer to any question involving "how do I achieve X with java.util.Date/Calendar?"

So here goes (presuming you've just replaced all your new Date() with new DateTime().toDate())

//Change to specific time
DateTimeUtils.setCurrentMillisFixed(millis);
//or set the clock to be a difference from system time
DateTimeUtils.setCurrentMillisOffset(millis);
//Reset to system time
DateTimeUtils.setCurrentMillisSystem();

If you want import a library that has an interface (see Jon's comment below), you could just use Prevayler's Clock, which will provide implementations as well as the standard interface. The full jar is only 96kB, so it shouldn't break the bank...

  • 8
    No, I wouldn't recommend this - it doesn't move you towards a genuinely replaceable clock; it keeps you using statics throughout. Using Joda Time is of course a good idea, but I'd still want to go with a Clock interface or similar. – Jon Skeet Jan 4 '10 at 20:23
  • @Jon: True - for testing, it's ok, but it's better to have an interface. – Stephen Jan 4 '10 at 21:34
  • 5
    @Jon: This is a smooth and IMHO perfect and easy way if you want to test time dependent code which already uses JodaTime. Trying to reinvent the wheel by introducing yet another abstraction layer/framework is not the way to go, if everything was solved for you with JodaTime already. – Stefan Haberl Jul 25 '12 at 9:23
  • 2
    @JonSkeet: This is not what Mike was asking for originally. He wanted a tool to test time dependent code and not a full-blown replaceable clock in production code. I prefer keeping my architecture as complex as needed but as simple as possible. Introducing an additional layer of abstraction (i.e. interface) here is simply not necessary – Stefan Haberl Jul 25 '12 at 14:18
  • 2
    @StefanHaberl: There are many things which aren't strictly "necessary" - but really what I'm suggesting is making an already-present dependency explicit and more easily testable in isolation. Faking the system time with statics has all the normal problems of statics - it's global state for no good reason. Mike was asking for a way to write testable code which used the current date and time. I still believe my suggestion is far cleaner (and makes dependencies clearer) than effectively fudging a static. – Jon Skeet Jul 25 '12 at 14:43

While using some DateFactory pattern seems nice, it does not cover libraries you can't control - imagine Validation annotation @Past with implementation relying on System.currentTimeMillis (there is such).

That's why we use jmockit to mock the system time directly:

import mockit.Mock;
import mockit.MockClass;
...
@MockClass(realClass = System.class)
public static class SystemMock {
    /**
     * Fake current time millis returns value modified by required offset.
     *
     * @return fake "current" millis
     */
    @Mock
    public static long currentTimeMillis() {
        return INIT_MILLIS + offset + millisSinceClassInit();
    }
}

Mockit.setUpMock(SystemMock.class);

Because it's not possible to get to the original unmocked value of millis, we use nano timer instead - this is not related to wall clock, but relative time suffices here:

// runs before the mock is applied
private static final long INIT_MILLIS = System.currentTimeMillis();
private static final long INIT_NANOS = System.nanoTime();

private static long millisSinceClassInit() {
    return (System.nanoTime() - INIT_NANOS) / 1000000;
}

There is documented problem, that with HotSpot the time gets back to normal after a number of calls - here is the issue report: http://code.google.com/p/jmockit/issues/detail?id=43

To overcome this we have to turn on one specific HotSpot optimization - run JVM with this argument -XX:-Inline.

While this may not be perfect for production, it is just fine for tests and it is absolutely transparent for application, especially when DataFactory doesn't make business sense and is introduced only because of tests. It would be nice to have built-in JVM option to run in different time, too bad it is not possible without hacks like this.

Complete story is in my blog post here: http://virgo47.wordpress.com/2012/06/22/changing-system-time-in-java/

Complete handy class SystemTimeShifter is provided in the post. Class can be used in your tests, or it can be used as the first main class before your real main class very easily in order to run your application (or even whole appserver) in a different time. Of course, this is intented for testing purposes mainly, not for production environment.

EDIT July 2014: JMockit changed a lot lately and you are bound to use JMockit 1.0 to use this correctly (IIRC). Definitely can't upgrade to newest version where interface is completly different. I was thinking about inlining just the necessary stuff, but as we don't need this thing in our new projects I'm not developing this thing at all.

  • 1
    The fact that you're changing the time for every class goes both ways... for instance if you'd mock nanoTime instead of currentTimeMillis you'd have to be very careful not to break java.util.concurrent. As a rule of thumb, if a 3rd party library is hard to use in tests, you shouldn't mock the inputs of the library: you should mock the library itself. – Dan Berindei Jan 31 '13 at 12:40
  • We use this technique for tests where we don't mock anything else. It is integration test and we test the whole stack whether it does what it should when some activity happens the first time in year, etc. Good point about nanoTime, luckily we don't need to mock that one as it has no wall-clock meaning at all. I'd love to see Java with time shifting features as I needed them more than once already and messing with system time because of this is very unlucky. – virgo47 Feb 11 '13 at 12:29

Powermock works great. Just used it to mock System.currentTimeMillis().

  • I tried to use Powermock, and if I understood it correctly it wouldn't really mock callee side. Instead it finds all callers and than applies the mock. This may be extremely time consuming as you have to let it check EVERY class in your classpath if you want to be realy really sure your application works in shifted time. Correct me if I'm wrong about Powermock way of mocking. – virgo47 Jan 2 '13 at 13:59
  • 1
    @virgo47 No, you understood it wrong. PowerMock will never "check every class in your classpath"; it will only check the classes that you specifically tell it to check (through the @PrepareForTest annotation on the test class). – Rogério Nov 30 '14 at 16:34
  • 1
    @Rogério - that's exactly how I understand it - I said "you have to let it...". That is if you expect call to System.currentTimeMillis anywhere on your classpath (any lib) you have to check every class. That's what I meant, nothing else. The point is that you mock that behavior on caller side ("you specifically tell"). This is OK for simple test but not for tests where you can't be sure what calls that method from where (e.g. more complex component tests with libraries involved). That does not mean Powermock is wrong at all, it just means that you can't use it for this type of test. – virgo47 Dec 1 '14 at 13:14
  • 1
    @virgo47 Yes, I see what you mean. I thought you meant that PowerMock would have to automatically examine every class in the classpath, which obviously would be absurd. In practice, though, for unit tests we usually know which class(es) reads the time, so it's not an issue to specify it; for integration tests, indeed, the requirement in PowerMock to have all using classes specified may be a problem. – Rogério Dec 2 '14 at 14:11

Use Aspect-Oriented Programming (AOP, for example AspectJ) to weave the System class to return a predefined value which you could set within your test cases.

Or weave the application classes to redirect the call to System.currentTimeMillis() or to new Date() to another utility class of your own.

Weaving system classes (java.lang.*) is however a little bit more trickier and you might need to perform offline weaving for rt.jar and use a separate JDK/rt.jar for your tests.

It's called Binary weaving and there are also special tools to perform weaving of System classes and circumvent some problems with that (e.g. bootstrapping the VM may not work)

  • Interesting idea +1 – whiskeysierra Jan 4 '10 at 20:44
  • This works, of course, but it's much easier to do with a mocking tool than with an AOP tool; the latter kind of tool is just too generic for the purpose in question. – Rogério Nov 30 '14 at 16:39

There really isn't a way to do this directly in the VM, but you could all something to programmatically set the system time on the test machine. Most (all?) OS have command line commands to do this.

  • For example, on windows the date and time commands. On Linux the date command. – Jeremy Raymond Jan 4 '10 at 19:46
  • Why shouldn't it be possible to do this with AOP or instrumentalization (been there done that)? – jarnbjo Jan 5 '10 at 0:26

Without doing re-factoring, can you test run in an OS virtual machine instance?

In my opinion only a none-invasive solution can work. Especially if you have external libs and a big legacy code base there is no reliable way to mock out time.

JMockit ... works only for restricted number of times

PowerMock & Co ...needs to mock the clients to System.currentTimeMillis(). Again an invasive option.

From this I only see the mentioned javaagent or aop approach being transparent to the whole system. Has anybody done that and could point to such a solution?

@jarnbjo: could you show some of the javaagent code please?

  • 3
    jmockit solution working for unlimited number of times with a little -XX:-Inline hack (on Sun's HotSpot): virgo47.wordpress.com/2012/06/22/changing-system-time-in-java Complete handy class SystemTimeShifter is provided in the post. Class can be used in your tests, or it can be used as the first main class before your real main class very easily in order to run your application (or even whole appserver) in a different time. Of course, this is intented for testing purposes mainly, not for production environment. – virgo47 Jul 2 '12 at 19:21

A working way to override current system time for JUnit testing purposes in a Java 8 web application with EasyMock, without Joda Time, and without PowerMock.

Here's what you need to do:

What needs to be done in the tested class

Step 1

Add a new java.time.Clock attribute to the tested class MyService and make sure the new attribute will be initialized properly at default values with an instantiation block or a constructor:

import java.time.Clock;
import java.time.LocalDateTime;

public class MyService {
  // (...)
  private Clock clock;
  public Clock getClock() { return clock; }
  public void setClock(Clock newClock) { clock = newClock; }

  public void initDefaultClock() {
    setClock(
      Clock.system(
        Clock.systemDefaultZone().getZone() 
        // You can just as well use
        // java.util.TimeZone.getDefault().toZoneId() instead
      )
    );
  }
  { 
    initDefaultClock(); // initialisation in an instantiation block, but 
                        // it can be done in a constructor just as well
  }
  // (...)
}

Step 2

Inject the new attribute clock into the method which calls for a current date-time. For instance, in my case I had to perform a check of whether a date stored in dataase happened before LocalDateTime.now(), which I remplaced with LocalDateTime.now(clock), like so:

import java.time.Clock;
import java.time.LocalDateTime;

public class MyService {
  // (...)
  protected void doExecute() {
    LocalDateTime dateToBeCompared = someLogic.whichReturns().aDate().fromDB();
    while (dateToBeCompared.isBefore(LocalDateTime.now(clock))) {
      someOtherLogic();
    }
  }
  // (...) 
}

What needs to be done in the test class

Step 3

In the test class, create a mock clock object and inject it into the tested class's instance just before you call the tested method doExecute(), then reset it back right afterwards, like so:

import java.time.Clock;
import java.time.LocalDateTime;
import java.time.OffsetDateTime;
import org.junit.Test;

public class MyServiceTest {
  // (...)
  private int year = 2017;
  private int month = 2;
  private int day = 3;

  @Test
  public void doExecuteTest() throws Exception {
    // (...) EasyMock stuff like mock(..), expect(..), replay(..) and whatnot

    MyService myService = new MyService();
    Clock mockClock =
      Clock.fixed(
        LocalDateTime.of(year, month, day, 0, 0).toInstant(OffsetDateTime.now().getOffset()),
        Clock.systemDefaultZone().getZone() // or java.util.TimeZone.getDefault().toZoneId()
      );
    myService.setClock(mockClock); // set it before calling the tested method

    myService.doExecute(); // calling tested method 

    myService.initDefaultClock(); // reset the clock to default right afterwards with our own previously created method

    // (...) remaining EasyMock stuff: verify(..) and assertEquals(..)
    }
  }

Check it in debug mode and you will see the date of 2017 Feb 3 has been correctly injected into myService instance and used in the comparison instruction, and then has been properly reset to current date with initDefaultClock().

If you're running Linux, you can use the master branch of libfaketime, or at the time of testing commit 4ce2835.

Simply set the environment variable with the time you'd like to mock your java application with, and run it using ld-preloading:

# bash
export FAKETIME="1985-10-26 01:21:00"
export DONT_FAKE_MONOTONIC=1
LD_PRELOAD=/usr/local/lib/faketime/libfaketimeMT.so.1 java -jar myapp.jar

The second environment variable is paramount for java applications, which otherwise would freeze. It requires the master branch of libfaketime at the time of writing.

If you'd like to change the time of a systemd managed service, just add the following to your unit file overrides, e.g. for elasticsearch this would be /etc/systemd/system/elasticsearch.service.d/override.conf:

[Service]
Environment="FAKETIME=2017-10-31 23:00:00"
Environment="DONT_FAKE_MONOTONIC=1"
Environment="LD_PRELOAD=/usr/local/lib/faketime/libfaketimeMT.so.1"

Don't forget to reload systemd using `systemctl daemon-reload

If you want to mock the method having System.currentTimeMillis() argument then you can pass anyLong() of Matchers class as an argument.

P.S. I am able to run my test case successfully using the above trick and just to share more details about my test that I am using PowerMock and Mockito frameworks.

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