I just had an interview where I was asked to create a memory leak with Java.

Needless to say, I felt pretty dumb, having no idea how to start creating one.

What would an example be?

  • 51
    Ironically, the harder question for every non-trivial Java program is how not to create a memory leak! May 12, 2021 at 15:00
  • 4
    Keep adding new objects to a container, but forget to add the code that removes them or implement partially working code that doesn't clean up all of them as the program progresses.
    – Galik
    Jul 23, 2021 at 4:58
  • 8
    The most common memory leaks in Java server systems are in shared state -- caches and services which are shared between requests. Many of the answers here seem to be over-complex, ignoring this obvious and common area. One rather common leak pattern is probably an application-scoped Map with request-scoped keys (eg, some kind of hand-rolled cache).
    – Thomas W
    Feb 3, 2022 at 2:37
  • Java usually has Connect, Process, Close to accomplish work. Failure to Close is sometimes reported/considered to be a memory leak. Another clue can be found in General Log, if you see CONNECT and no matching Quit for the process id. Apr 3 at 12:42

61 Answers 61


I think that a valid example could be using ThreadLocal variables in an environment where threads are pooled.

For instance, using ThreadLocal variables in Servlets to communicate with other web components, having the threads being created by the container and maintaining the idle ones in a pool. ThreadLocal variables, if not correctly cleaned up, will live there until, possibly, the same web component overwrites their values.

Of course, once identified, the problem can be solved easily.


There are many different situations memory will leak. One I encountered, which expose a map that should not be exposed and used in other place.

public class ServiceFactory {

    private Map<String, Service> services;

    private static ServiceFactory singleton;

    private ServiceFactory() {
        services = new HashMap<String, Service>();

    public static synchronized ServiceFactory getDefault() {

        if (singleton == null) {
            singleton = new ServiceFactory();
        return singleton;

    public void addService(String name, Service serv) {
        services.put(name, serv);

    public void removeService(String name) {

    public Service getService(String name, Service serv) {
        return services.get(name);

    // The problematic API, which exposes the map.
    // and user can do quite a lot of thing from this API.
    // for example, create service reference and forget to dispose or set it null
    // in all this is a dangerous API, and should not expose
    public Map<String, Service> getAllServices() {
        return services;


// Resource class is a heavy class
class Service {


I want to give advice on how to monitor an application for the memory leaks with the tools that are available in the JVM. It doesn't show how to generate the memory leak, but explains how to detect it with the minimum tools available.

You need to monitor Java memory consumption first.

The simplest way to do this is to use the jstat utility that comes with JVM:

jstat -gcutil <process_id> <timeout>

It will report memory consumption for each generation (young, eldery and old) and garbage collection times (young and full).

As soon as you spot that a full garbage collection is executed too often and takes too much time, you can assume that application is leaking memory.

Then you need to create a memory dump using the jmap utility:

jmap -dump:live,format=b,file=heap.bin <process_id>

Then you need to analyse the heap.bin file with a memory analyser, Eclipse Memory Analyzer (MAT) for example.

MAT will analyze the memory and provide you suspect information about memory leaks.


An example I recently fixed is creating new GC and Image objects, but forgetting to call dispose() method.

GC javadoc snippet:

Application code must explicitly invoke the GC.dispose() method to release the operating system resources managed by each instance when those instances are no longer required. This is particularly important on Windows95 and Windows98 where the operating system has a limited number of device contexts available.

Image javadoc snippet:

Application code must explicitly invoke the Image.dispose() method to release the operating system resources managed by each instance when those instances are no longer required.


A thread that does not terminate (say sleeps indefinitely in its run method). It will not be garbage collected even if we lose a reference to it. You can add fields to make the thread object is a big as you want.

The currently top answer lists more tricks around this, but these seem redundant.


Theoretically you can't. The Java memory model prevents it. However, because Java has to be implemented, there are some caveats you can use. It depends on what you can use:

  • If you can use native, you can allocate memory that you do not relinquish later.

  • If that is not available, there is a dirty little secret about Java that not much people know. You can ask for a direct access array that is not managed by GC, and therefore can be easily used to make a memory leak. This is provided by DirectByteBuffer (http://download.oracle.com/javase/1.5.0/docs/api/java/nio/ByteBuffer.html#allocateDirect(int)).

  • If you can't use any of those, you still can make a memory leak by tricking the GC. The JVM is implemented using a generational garbage collection. What this means is that the heap is divided into areas: young, adults and elders. An object when its created starts at the young area. As it is used more and more, it progresses into adults up to elders. An object that reaches the eldery area most likely will not be garbage collected. You cannot be sure that an object is leaked and if you ask for a stop and clean GC it may clean it, but for a long period of time it will be leaked. More information is at (http://java.sun.com/docs/hotspot/gc1.4.2/faq.html)

  • Also, class objects are not required to be GC'ed. There might be a way to do it.

  • 3
    The native memory allocated by a DirectByteBuffer is freed in a finalizer when the DirectByteBuffer is garbage collected. It certainly doesn't leak.
    – Boann
    Aug 31, 2013 at 5:04

Most of the memory leaks I've seen in Java concern processes getting out of sync.

Process A talks to B via TCP, and tells process B to create something. B issues the resource an ID, say 432423, which A stores in an object and uses while talking to B. At some point the object in A is reclaimed by garbage collection (maybe due to a bug), but A never tells B that (maybe another bug).

Now A doesn't have the ID of the object it's created in B's RAM any more, and B doesn't know that A has no more reference to the object. In effect, the object is leaked.


Throw an unhandled exception from the finalize method.


There are many answers on how to create a memory leak in Java, but please note the point asked during the interview.

"how to create a memory leak with Java?" is an open-ended question, whose purpose is to evaluate the degree of experience a developer has.

If I ask you "Do you have experience troubleshooting memory leaks in Java?", your answer would be a simple "Yes". I would have then to follow up with "Could you give me examples where you hat to troubleshoot memory leaks?", to which you would give me one or two examples.

However, when the interviewer asks "how to create a memory leak with Java?" the expected answer should follow alongs these lines:

  • I've encountered a memory leak ... (say when) [that shows me experience]
  • The code that was causing it was... (explain code) [you fixed it yourself]
  • The fix I applied was based on ... (explain fix) [this gives me a chance to ask specifics about the fix]
  • The test I did was ... [gives me the chance of asking other testing methodologies]
  • I documented it this way ... [extra points. Good if you documented it]
  • So, it is reasonable to think that, if we follow this in reverse order, which is, get the code I fixed, and remove my fix, that we would have a memory leak.

When the developer fails to follow this line of thought I try to guide him/her asking "Could you give me an example of how could Java leak memory?", followed by "Did you ever have to fix any memory leak in Java?"

Note that I am not asking for an example on how to leak memory in Java. That would be silly. Who would be interested in a developer who can effectively write code that leaks memory?

  • Regarding the last sentence, the best way to win over the evil is knowing it well. If you want to write a secure web application, you should make yourself familiar with the most common exploit techniques and vulnerabilities, like SQL injections or buffer overflows. Similarly, if you want to write leak-free code, you should at least be able to describe the most common ways of leaking memory, like lost pointers in C/C++. Definitely less straightforward in Java, though. Jun 21, 2015 at 16:40

A few suggestions:

  • use commons-logging in a servlet container (a bit provocative perhaps)
  • start a thread in a servlet container and don't return from its run method
  • load animated GIF images in a servlet container (this will start an animation thread)

The above effects could be 'improved' by redeploying the application ;)

I recently stumbled upon this:

  • Calling "new java.util.zip.Inflater();" without calling "Inflater.end()" ever

Read https://bugs.java.com/bugdatabase/view_bug?bug_id=5072161 and linked issues for an in-depth-discussion.

  • To add to the discussion about what a memory leak is in my opinion the idea of "intentional" is important. Of course a field (static or not) pointing to a huge data structure is not yet a memory leak. But if the datastructure pointed to is of no use for your logic, just lingering around, polluting your heap, perhaps ever growing until GC gives up with an OOME, then i call it a "memory leak". The memory leaked is just no longer available to me. Just like in former times where i called malloc without ever returning this to os - purify to the rescue.
    – Peter
    Jul 22, 2011 at 15:05
  • The inflater is a good one, while not true leak (if will be finalized) it eats up native memory very well and it's hard to diagnose. You deserve a vote (but I do not vote myself). I added some more info in my answer (didn't spot yours earlier)
    – bestsss
    Dec 27, 2011 at 1:17
  • Finlizers were a bad idea, and there is no guarantee that they will ever be called. Google for Cliff Click and his comments about this...
    – Peter
    Feb 2, 2012 at 11:39
  • All JVMs (minus JDK7 before 7.0.2) invoke finalizer(s) more or less in good fashion. Finalizer are absolutely necessary for Direct buffers to work (even more mapped files, esp. on Windows). They are just unreliable (baring that I know what Cliff Click says about)
    – bestsss
    Feb 2, 2012 at 15:04

If the maximum heap size is X. Y1....Yn no of instances

So, total memory = number of instances X bytes per instance. If X1......Xn is bytes per instances, then total memory(M)=Y1 * X1+.....+Yn *Xn. So, if M>X, it exceeds the heap space.

The following can be the problems in code

  1. Use of more instances variable then local one.
  2. Creating instances every time instead of pooling object.
  3. Not creating the object on demand.
  4. Making the object reference null after the completion of operation. Again, recreating when it is demanded in program.

The String.substring method in Java 1.6 create a memory leak. This blog post explains it:

How SubString method works in Java - Memory Leak Fixed in JDK 1.7


A memory leak in Java is not your typical C/C++ memory leak.

To understand how the JVM works, read the Understanding Memory Management.

Basically, the important part is:

The Mark and Sweep Model

The JRockit JVM uses the mark and sweep garbage collection model for performing garbage collections of the whole heap. A mark and sweep garbage collection consists of two phases, the mark phase and the sweep phase.

During the mark phase all objects that are reachable from Java threads, native handles and other root sources are marked as alive, as well as the objects that are reachable from these objects and so forth. This process identifies and marks all objects that are still used, and the rest can be considered garbage.

During the sweep phase the heap is traversed to find the gaps between the live objects. These gaps are recorded in a free list and are made available for new object allocation.

The JRockit JVM uses two improved versions of the mark and sweep model. One is mostly concurrent mark and sweep and the other is parallel mark and sweep. You can also mix the two strategies, running for example mostly concurrent mark and parallel sweep.

So, to create a memory leak in Java; the easiest way to do that is to create a database connection, do some work, and simply not Close() it; then generate a new database connection while staying in scope. This isn't hard to do in a loop for example. If you have a worker that pulls from a queue and pushes to a database you can easily create a memory leak by forgetting to Close() connections or opening them when not necessary, and so forth.

Eventually, you'll consume the heap that has been allocated to the JVM by forgetting to Close() the connection. This will result in the JVM garbage collecting like crazy; eventually resulting in java.lang.OutOfMemoryError: Java heap space errors. It should be noted that the error may not mean there is a memory leak; it could just mean you don't have enough memory; databases like Cassandra and Elasticsearch for example can throw that error because they don't have enough heap space.

It's worth noting that this is true for all GC languages. Below, are some examples I've seen working as an SRE:

  • Node.js using Redis as a queue; the development team created new connections every 12 hours and forgot to close the old ones. Eventually node was OOMd because it consumed all the memory.
  • Go (I'm guilty of this one); parsing large JSON files with json.Unmarshal and then passing the results by reference and keeping them open. Eventually, this resulted in the entire heap being consumed by accidental references I kept open to decode JSON.

One possibility is to create a wrapper for an ArrayList that only provides one method: one that adds things to the ArrayList. Make the ArrayList itself private. Now, construct one of these wrapper objects in global scope (as a static object in a class) and qualify it with the final keyword (e.g. public static final ArrayListWrapper wrapperClass = new ArrayListWrapper()). So now the reference cannot be altered. That is, wrapperClass = null won't work and can't be used to free the memory. But there's also no way to do anything with wrapperClass other than add objects to it. Therefore, any objects you do add to wrapperClass are impossible to recycle.


In Java a "memory leak" is primarily just you using too much memory which is different than in C where you are no longer using the memory but forget to return (free) it. When an interviewer asks about Java memory leaks they are asking about JVM memory usage just appearing to keep going up and they determined that restarting the JVM on a regular basis is the best fix (unless the interviewer is extremely technically savvy).

So answer this question as if they asked what makes JVM memory usage grow over time. Good answers would be storing too much data in a HttpSessions with overly long timeout or a poorly implemented in-memory cache (singleton) that never flushes old entries. Another potential answer is having lots of JSPs or dynamically generated classes. Classes are loaded into an area of memory called PermGen that is usually small and most JVMs don't implement class unloading.


Swing has it very easy with dialogs. Create a JDialog, show it, the user closes it, and leak!

You have to call dispose() or configure setDefaultCloseOperation(DISPOSE_ON_CLOSE).


If you don't use a compacting garbage collector, you can have some sort of a memory leak due to heap fragmentation.


Lapsed Listerners is a good example of memory leaks: Object is added as a Listener. All references to the object are nulled when the object is not needed anymore. However, forgetting to remove the object from the Listener list keeps the object alive and even responding to events, thereby wasting both memory and CPU. See http://www.drdobbs.com/jvm/java-qa/184404011


Carelessly using a non-static inner class inside a class which has its own life cycle.

In Java, non-static inner and anonymous classes hold an implicit reference to their outer class. Static inner classes, on the other hand, do not.

Here is a common example to have memory leak in Android, which is not obvious though:

public class SampleActivity extends Activity {

  private final Handler mLeakyHandler = new Handler() { // Non-static inner class, holds the reference to the SampleActivity outer class
    public void handleMessage(Message msg) {
      // ...

  protected void onCreate(Bundle savedInstanceState) {

    // Post a message and delay its execution for a long time.
    mLeakyHandler.postDelayed(new Runnable() {//here, the anonymous inner class holds the reference to the SampleActivity class too
      public void run() {

    // Go back to the previous Activity.

This will prevent the activity context from being garbage collected.

  • Would making mLeakyHandler static prevent it from leaking memory? And are there any (other) ways to prevent mLeakyHandler from leaking the activity? Also, how would you go about solving the same problem for the anonymous Runnable inner class? Jun 24, 2015 at 13:08
  • 1
    @ban-geoengineering Yes, make it static and if you need to involve the outter activity, make the handler to hold a WeakReference to the activity, please check androiddesignpatterns.com/2013/01/…
    – JaskeyLam
    Jun 25, 2015 at 2:20

a memory leak is a type of resource leak that occurs when a computer program incorrectly manages memory allocations in such a way that memory which is no longer needed is not released => Wikipedia definition

It's kind of relatively context-based topic, you can just create one based on your taste as long as the unused references will never be used by clients, but still stay alive.

The first example should be a custom stack without nulling the obsolete references in Effective Java, item 6.

Of course there are many more as long as you want, but if we just take look at the Java built-in classes, it could be some as


Let's check some super silly code to produce the leak.

public class MemoryLeak {
    private static final int HUGE_SIZE = 10_000;

    public static void main(String... args) {

    private static void letsLeakNow() {
        Map<Integer, Object> leakMap = new HashMap<>();
        for (int i = 0; i < HUGE_SIZE; ++i) {
            leakMap.put(i * 2, getListWithRandomNumber());

    private static List<Integer> getListWithRandomNumber() {
        List<Integer> originalHugeIntList = new ArrayList<>();
        for (int i = 0; i < HUGE_SIZE; ++i) {
            originalHugeIntList.add(new Random().nextInt());
        return originalHugeIntList.subList(0, 1);

Actually there is another trick we can cause memory leak using HashMap by taking advantage of its looking process. There are actually two types:

  • hashCode() is always the same but equals() are different;
  • use random hashCode() and equals() always true;


hashCode() -> bucket => equals() to locate the pair

I was about to mention substring() first and then subList() but it seems this issue is already fixed as its source presents in JDK 8.

public String substring(int beginIndex, int endIndex) {
    if (beginIndex < 0) {
        throw new StringIndexOutOfBoundsException(beginIndex);
    if (endIndex > value.length) {
        throw new StringIndexOutOfBoundsException(endIndex);
    int subLen = endIndex - beginIndex;
    if (subLen < 0) {
        throw new StringIndexOutOfBoundsException(subLen);
    return ((beginIndex == 0) && (endIndex == value.length)) ? this
            : new String(value, beginIndex, subLen);

import sun.misc.Unsafe;
import java.lang.reflect.Field;

public class Main {
    public static void main(String args[]) {
        try {
            Field f = Unsafe.class.getDeclaredField("theUnsafe");
            ((Unsafe) f.get(null)).allocateMemory(2000000000);
        } catch (Exception e) {
  • An explanation would be in order. E.g., what is the gist/idea? How is it different from previous answers? May 13, 2021 at 0:01

I experienced a very real memory leak with javax.swing.JPopupMenu.

I have a GUI application which displays multiple tabbed documents. After closing a document, it lingered in memory if a right-click context menu had been used on any component on the tab. The menus were shared among tabs, and it turns out that after you call popupMenu.show(Component invoker, int x, int y), the component quietly persists as the menu's "invoker" until it is next changed, or cleared by setInvoker(null). Indirectly, the invoker reference was persisting the entire document and everything associated with it.

It's worth noting that a menu can only hold one reference to an old component this way, so this memory leak cannot grow without bound.


Create a JNI function containing just a while-true loop and call it with a large object from another thread. The GC doesn't like JNI very much and is going to keep the object in memory forever.


One of the Java memory leakings examples is MySQLs memory leaking bug resulting when ResultSets close method is forgotten to be called. For example:

while(true) {
    ResultSet rs = database.select(query);
    // going to next step of loop and leaving resultset without calling rs.close();

It's pretty easy:

Object[] o = new Object[]{};
while(true) {
    o = new Object[]{o};
  • Not a memory leak. The entire stack of objects is still collectible.
    – Boann
    Dec 24, 2022 at 9:27

A real-time example of a memory leak before JDK 1.7:

Suppose you read a file of 1000 lines of text and keep them in String objects:

String fileText = 1000 characters from file
fileText = fileText.subString(900, fileText.length());

In the above code, I initially read 1000 characters and then did substring to get only the 100 last characters. Now fileText should only refer to 100 characters and all other characters should get garbage collected as I lost the reference, but before JDK 1.7 the substring function indirectly referred to the original string of the last 100 characters and prevents the whole string from garbage collection and the whole 1000 characters will be there in memory until you lose reference of the substring.

You can create a memory leak example like the above.

  • I don,t think so. A new String is created and returned. Here is a code snippet from open-jdk 6 for subString function return ((beginIndex == 0) && (endIndex == count)) ? this : new String(offset + beginIndex, endIndex - beginIndex, value); Apr 19, 2018 at 9:12
  • 1
    correct new string object is getting created but if you see it is passing value which is char array of original string and newly created string keeps the reference of complete char array. you can just compare the implementation from java 6 to 8, java 7 and 8 uses Arrays.copyOfRange(value, offset, offset+count) to return actual substring Apr 19, 2018 at 9:27
  • Got it. Thanks. Apr 19, 2018 at 9:38
  • What do you mean by "real-time"? May 12, 2021 at 22:06

You can try making many buffered readers try to open the same file at once with a while loop with a condition that is never false. And the cherry on top is these are never closed.


A little improvement to previous answers (to generate memory leak faster) is to use instances of DOM Document loaded from big XML files.


Here is a very simple Java program that will run out of space

public class OutOfMemory {

    public static void main(String[] arg) {

        List<Long> mem = new LinkedList<Long>();
        while (true) {
            mem.add(new Long(Long.MAX_VALUE));
  • 37
    -1 this runs out of memory for sure, because the requirement is to have an infinite amount of memory. I don't call this a memory leak. It is just a stupid program.
    – rds
    Jan 17, 2013 at 10:59
  • 3
    also -1, not a mem leak, thats just allocating too much Apr 1, 2013 at 20:04

There's no such thing as a memory leak in Java. Memory leak is a phrase borrowed from C et al. Java deals with memory allocation internally with the help of the GC. There's memory wastefulness (ie. leaving stranded objects), but not memory leak.

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