I am using Spring RestTemplate to make a HTTP Calls to my RestService. I am using spring framework 3.2.8 version of RestTemplate. I cannot upgrade this since in our company we have a parent POM in which we are using Spring Framework version 3.2.8 so I need to stick to that.

Let's say I have two machines:

  • machineA: This machine is running my code which uses RestTemplate as my HttpClient and from this machine I make HTTP Calls to my RestService which is running on a different machine (machineB). I have wrapped the below code around multithreaded application so that I can do load and performance testing on my client code.
  • machineB: On this machine, I am running my RestService.

Now the problem I am seeing is whenever I run a load and performance testing on machineA - Meaning, my client code will make lot of HTTPClient calls to the RestService running on machineB very fast since the client code is getting called in a multithreaded way.

I always see lot of TIME_WAIT connections on machineA as shown below:

    14 LISTEN
     2 SYN_SENT
 10230 TIME_WAIT

   14 LISTEN
    1 SYN_SENT

   14 LISTEN
    1 SYN_SENT

I don't think it's a good sign that we have lot of TIME_WAIT connections here. Problem Statement:-

  • What does this high TIME_WAIT connection mean here in a simple language on machineA?
  • Is there any reason why this is happening with RestTemplate or is it just the way I am using RestTemplate? If I am doing anything wrong in the way I am using RestTemplate, then what's the right way to use it?

Do I need to set any keep-alive header or Connection:Close thing while using RestTemplate? Any inputs/suggestions are greatly appreciated as I am confuse what's going on here.

Below is how I am using RestTemplate in my code base in a simple way (just to explain the whole idea of how I am using RestTemplate):

public class DataClient implements Client {

    private final RestTemplate restTemplate = new RestTemplate();
    private ExecutorService executor = Executors.newFixedThreadPool(10);

    // for synchronous call
    public String getSyncData(DataKey key) {        
        String response = null;
        Future<String> handler = null;
        try {
            handler = getAsyncData(key);
            response = handler.get(100, TimeUnit.MILLISECONDS); // we have a 100 milliseconds timeout value set
        } catch (TimeoutException ex) {
            // log an exception
        } catch (Exception ex) {
            // log an exception

        return response;

    // for asynchronous call
    public Future<String> getAsyncData(DataKey key) {
        Future<String> future = null;

        try {
            Task task = new Task(key, restTemplate);
            future = executor.submit(task); 
        } catch (Exception ex) {
            // log an exception

        return future;

And below is my simple Task class

class Task implements Callable<String> {

    private final RestTemplate restTemplate;
    private final DataKey key;

    public Task(DataKey key, RestTemplate restTemplate) {
        this.key = key;
        this.restTemplate = restTemplate;

    public String call() throws Exception {
        ResponseEntity<String> response = null;

        String url = "some_url_created_by_using_key";

        // handling all try catch here
        response = restTemplate.exchange(url, HttpMethod.GET, null, String.class);

        return response.getBody();

"TIME_WAIT" is the state that a TCP connection mantains during a configurable amount of time after closed (FIN/FIN reception). In this way, a possible "delayed" packet of one connection can not be mixed with a latter connection that reuses same port.

In a high-traffic test, it is normal to have a lot of them, but they should disappear after a few minutes test finished.

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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