How do you kill a Thread in Java?

See this thread by Sun on why they deprecated Thread.stop(). It goes into detail about why this was a bad method and what should be done to safely stop threads in general.

The way they recommend is to use a shared variable as a flag which asks the background thread to stop. This variable can then be set by a different object requesting the thread terminate.

Generally you don't..

You ask it to interrupt whatever it is doing using Thread.interrupt() (javadoc link)

A good explanation of why is in the javadoc here (java technote link)

In Java threads are not killed, but the stopping of a thread is done in a cooperative way. The thread is asked to terminate and the thread can then shutdown gracefully.

Often a volatile boolean field is used which the thread periodically checks and terminates when it is set to the corresponding value.

I would not use a boolean to check whether the thread should terminate. If you use volatile as a field modifier, this will work reliable, but if your code becomes more complex, for instead uses other blocking methods inside the while loop, it might happen, that your code will not terminate at all or at least takes longer as you might want.

Certain blocking library methods support interruption.

Every thread has already a boolean flag interrupted status and you should make use of it. It can be implemented like this:

public void run() {
 try {
 while (!interrupted()) {
 // ...
 }
 } catch (InterruptedException consumed)
 /* Allow thread to exit */
 }
}
public void cancel() { interrupt(); }

Source code adapted from Java Concurrency in Practice. Since the cancel() method is public you can let another thread invoke this method as you wanted.

One way is by setting a class variable and using it as a sentinel.

Class Outer {
 public static volatile flag = true;
 Outer() {
 new Test().start();
 }
 class Test extends Thread {
 public void run() {
 while (Outer.flag) {
 //do stuff here
 }
 }
 }
}

Set an external class variable, i.e. flag = true in the above example. Set it to false to 'kill' the thread.

I want to add several observations, based on the comments that have accumulated.

1. Thread.stop() will stop a thread if the security manager allows it.
2. Thread.stop() is dangerous. Having said that, if you are working in a JEE environment and you have no control over the code being called, it may be necessary; see Why is Thread.stop deprecated?
3. You should never stop stop a container worker thread. If you want to run code that tends to hang, (carefully) start a new daemon thread and monitor it, killing if necessary.
4. stop() creates a new ThreadDeathError error on the calling thread and then throws that error on the target thread. Therefore, the stack trace is generally worthless.
5. In JRE 6, stop() checks with the security manager and then calls stop1() that calls stop0(). stop0() is native code.
6. As of Java 13 Thread.stop() has not been removed (yet), but Thread.stop(Throwable) was removed in Java 11. (mailing list, JDK-8204243)

There is a way how you can do it. But if you had to use it, either you are a bad programmer or you are using a code written by bad programmers. So, you should think about stopping being a bad programmer or stopping using this bad code. This solution is only for situations when THERE IS NO OTHER WAY.

Thread f = <A thread to be stopped>
Method m = Thread.class.getDeclaredMethod( "stop0" , new Class[]{Object.class} );
m.setAccessible( true );
m.invoke( f , new ThreadDeath() );

I'd vote for Thread.stop().

As for instance you have a long lasting operation (like a network request). Supposedly you are waiting for a response, but it can take time and the user navigated to other UI. This waiting thread is now a) useless b) potential problem because when he will get result, it's completely useless and he will trigger callbacks that can lead to number of errors.

All of that and he can do response processing that could be CPU intense. And you, as a developer, cannot even stop it, because you can't throw if (Thread.currentThread().isInterrupted()) lines in all code.

So the inability to forcefully stop a thread it weird.

The question is rather vague. If you meant "how do I write a program so that a thread stops running when I want it to", then various other responses should be helpful. But if you meant "I have an emergency with a server I cannot restart right now and I just need a particular thread to die, come what may", then you need an intervention tool to match monitoring tools like jstack.

For this purpose I created jkillthread. See its instructions for usage.

There is of course the case where you are running some kind of not-completely-trusted code. (I personally have this by allowing uploaded scripts to execute in my Java environment. Yes, there are security alarm bell ringing everywhere, but it's part of the application.) In this unfortunate instance you first of all are merely being hopeful by asking script writers to respect some kind of boolean run/don't-run signal. Your only decent fail safe is to call the stop method on the thread if, say, it runs longer than some timeout.

But, this is just "decent", and not absolute, because the code could catch the ThreadDeath error (or whatever exception you explicitly throw), and not rethrow it like a gentlemanly thread is supposed to do. So, the bottom line is AFAIA there is no absolute fail safe.

'Killing a thread' is not the right phrase to use. Here is one way we can implement graceful completion/exit of the thread on will:

Runnable which I used:

class TaskThread implements Runnable {
 boolean shouldStop;
 public TaskThread(boolean shouldStop) {
 this.shouldStop = shouldStop;
 }
 @Override
 public void run() {
 System.out.println("Thread has started");
 while (!shouldStop) {
 // do something
 }
 System.out.println("Thread has ended");
 }
 public void stop() {
 shouldStop = true;
 }
}

The triggering class:

public class ThreadStop {
 public static void main(String[] args) {
 System.out.println("Start");
 // Start the thread
 TaskThread task = new TaskThread(false);
 Thread t = new Thread(task);
 t.start();
 // Stop the thread
 task.stop();
 System.out.println("End");
 }
}

There is no way to gracefully kill a thread.

You can try to interrupt the thread, one commons strategy is to use a poison pill to message the thread to stop itself

public class CancelSupport {
 public static class CommandExecutor implements Runnable {
 private BlockingQueue<String> queue;
 public static final String POISON_PILL = "stopnow";
 public CommandExecutor(BlockingQueue<String> queue) {
 this.queue=queue;
 }
 @Override
 public void run() {
 boolean stop=false;
 while(!stop) {
 try {
 String command=queue.take();
 if(POISON_PILL.equals(command)) {
 stop=true;
 } else {
 // do command
 System.out.println(command);
 }
 } catch (InterruptedException e) {
 stop=true;
 }
 }
 System.out.println("Stopping execution");
 }
 }

}

BlockingQueue<String> queue=new LinkedBlockingQueue<String>();
Thread t=new Thread(new CommandExecutor(queue));
queue.put("hello");
queue.put("world");
t.start();
Thread.sleep(1000);
queue.put("stopnow");

http://anandsekar.github.io/cancel-support-for-threads/

Generally you don't kill, stop, or interrupt a thread (or check wheter it is interrupted()), but let it terminate naturally.

It is simple. You can use any loop together with (volatile) boolean variable inside run() method to control thread's activity. You can also return from active thread to the main thread to stop it.

This way you gracefully kill a thread :) .

Attempts of abrupt thread termination are well-known bad programming practice and evidence of poor application design. All threads in the multithreaded application explicitly and implicitly share the same process state and forced to cooperate with each other to keep it consistent, otherwise your application will be prone to the bugs which will be really hard to diagnose. So, it is a responsibility of developer to provide an assurance of such consistency via careful and clear application design.

There are two main right solutions for the controlled threads terminations:

• Use of the shared volatile flag
• Use of the pair of Thread.interrupt() and Thread.interrupted() methods.

Good and detailed explanation of the issues related to the abrupt threads termination as well as examples of wrong and right solutions for the controlled threads termination can be found here:

https://www.securecoding.cert.org/confluence/display/java/THI05-J.+Do+not+use+Thread.stop%28%29+to+terminate+threads

Here are a couple of good reads on the subject:

What Do You Do With InterruptedException?

Shutting down threads cleanly

I didn't get the interrupt to work in Android, so I used this method, works perfectly:

boolean shouldCheckUpdates = true;
private void startupCheckForUpdatesEveryFewSeconds() {
 Thread t = new Thread(new CheckUpdates());
 t.start();
}
private class CheckUpdates implements Runnable{
 public void run() {
 while (shouldCheckUpdates){
 //Thread sleep 3 seconds
 System.out.println("Do your thing here");
 }
 }
}
 public void stop(){
 shouldCheckUpdates = false;
 }

Thread.stop is deprecated so how do we stop a thread in java ?

Always use interrupt method and future to request cancellation

1. When the task responds to interrupt signal, for example, blocking queue take method.

Callable < String > callable = new Callable < String > () {
 @Override
 public String call() throws Exception {
 String result = "";
 try {
 //assume below take method is blocked as no work is produced.
 result = queue.take();
 } catch (InterruptedException e) {
 Thread.currentThread().interrupt();
 }
 return result;
 }
};
Future future = executor.submit(callable);
try {
 String result = future.get(5, TimeUnit.SECONDS);
} catch (TimeoutException e) {
 logger.error("Thread timedout!");
 return "";
} finally {
 //this will call interrupt on queue which will abort the operation.
 //if it completes before time out, it has no side effects
 future.cancel(true);
}

2. When the task does not respond to interrupt signal.Suppose the task performs socket I/O which does not respond to interrupt signal and thus using above approach will not abort the task, future would time out but the cancel in finally block will have no effect, thread will keep on listening to socket. We can close the socket or call close method on connection if implemented by pool.

public interface CustomCallable < T > extends Callable < T > {
 void cancel();
 RunnableFuture < T > newTask();
}
public class CustomExecutorPool extends ThreadPoolExecutor {
 protected < T > RunnableFuture < T > newTaskFor(Callable < T > callable) {
 if (callable instanceof CancellableTask)
 return ((CancellableTask < T > ) callable).newTask();
 else
 return super.newTaskFor(callable);
 }
}
public abstract class UnblockingIOTask < T > implements CustomCallable < T > {
 public synchronized void cancel() {
 try {
 obj.close();
 } catch (IOException e) {
 logger.error("io exception", e);
 }
 }
 public RunnableFuture < T > newTask() {
 return new FutureTask < T > (this) {
 public boolean cancel(boolean mayInterruptIfRunning) {
 try {
 this.cancel();
 } finally {
 return super.cancel(mayInterruptIfRunning);
 }
 }
 };
 }
}

After 15+ years of developing in Java there is one thing I want to say to the world.

Deprecating Thread.stop() and all the holy battle against its use is just another bad habit or design flaw unfortunately became a reality... (eg. want to talk about the Serializable interface?)

The battle is focusing on the fact that killing a thread can leave an object into an inconsistent state. And so? Welcome to multithread programming. You are a programmer, and you need to know what you are doing, and yes.. killing a thread can leave an object in inconsistent state. If you are worried about it use a flag and let the thread quit gracefully; but there are TONS of times where there is no reason to be worried.

But no.. if you type thread.stop() you're likely to be killed by all the people who looks/comments/uses your code. So you have to use a flag, call interrupt(), place if(!flag) all around your code because you're not looping at all, and finally pray that the 3rd-party library you're using to do your external call is written correctly and doesn't handle the InterruptException improperly.

• java
• multithreading