I've been trying to write an HTTP client to fetch multiple feeds concurrently (up to 1k), also as an exercise to learn Netty 4.

My question is, if there is a good explanation somewhere how the new ByteBuf infrastructure works? Who "owns" them, how are they shared (are they?) ? Does every ChannelHandler in a ChannelPipeline has it's own ByteBuf?

Here is an example that left me puzzled:

I added an instance of the following class to a HTTP client pipeline:

public class MyFilter extends MessageToMessageDecoder<HttpObject> {

    @Override
    protected Object decode(ChannelHandlerContext ctx, HttpObject msg) throws Exception {
        // do some work, but leave msg unchanged
        BufUtil.retain(msg); // Why do I need to call BufUtil.retain(msg) ???
        return msg;
}

If I don't call BufUtil.retain on msg, it seems to get GCd and I get all sorts of spurious errors.

HttpContent extends ReferenceCounted to keep track of the life cycle of the buffer it holds. When a ReferenceCounted is instantiated, it starts its life with refCnt of 1. If you call retain() on it, refCnt is increased. refCnt is decreased on release(), and the underlying resource (ByteBuf in this case) is destroyed once refCnt becomes 0.

Usually, a handler does not need to keep a reference to the message it finished handling, because the message is usually thrown away or transformed into something else once handled. Therefore, release() method must be called on the message once your handler is done with it. This is often error-prone and will lead to resource leak very easily.

To avoid the leak that is very hard to track down, extend SimpleChannelInboundHandler which calls release() automatically on the messages once they are handled.

For more information about reference counting in Netty, please read this wiki page. It also gives you the detailed information about how to troubleshooting the buffer leaks by making use of Netty's buffer leak detection mechanism.

  • Hi, thanks. It makes sense in a setting where performance is of utmost importance. If only it could be made more evident... – laczoka Apr 5 '13 at 11:20
  • 1
    @trustin - I was also confused and surprised by all of this reference counting bleeding out into the user API. The API design should "do the least surprising thing" and "be as simple as possible". Perhaps you could use a familiar Java construct instead: a resource, as in try-with-resources. Or just have the message Object behave like a user would expect by default and only get the highly performance optimized, but more complicated version via a separate interface; Performance isn't as important as quickly building an application with confidence it isn't leaking memory. – Ryan Jun 23 '14 at 15:57
  • 1
    @Ryan, if there was an explicit way to specify the life cycle of an object in Java, such as destructors in C++, we would have never needed to introduce reference counting for most cases. However, Java does not have such a thing, and thus reference counting is the most efficient way to manage buffers. It's not pretty, but unfortunately, it was the only way to handle direct buffers safely. By the way, buffer leaks in Netty are relatively easy to find: netty.io/wiki/reference-counted-objects.html#wiki-h2-10 – trustin Jun 26 '14 at 10:06
  • 1
    @smwikipedia 'or' should be 'and thus' indeed. Thanks for a suggestion. – trustin Mar 4 '15 at 3:22
  • 1
    @smwikipedia for the thread you mentioned, I guess the chosen answer is great already. – trustin Mar 4 '15 at 3:24

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.