Welcome to OGeek Q&A Community for programmer and developer-Open, Learning and Share
Welcome To Ask or Share your Answers For Others

Categories

0 votes
203 views
in Technique[技术] by (71.8m points)

concurrent programming - Java: reference escape

Read that the following code is an example of "unsafe construction" as it allows this reference to escape. I couldn't quite get how 'this' escapes. I am pretty new to the java world. Can any one help me understand this.

public class ThisEscape {
    public ThisEscape(EventSource source) {
        source.registerListener(
            new EventListener() {
                public void onEvent(Event e) {
                    doSomething(e);
                }
            });
    }
}
See Question&Answers more detail:os

与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…
Welcome To Ask or Share your Answers For Others

1 Reply

0 votes
by (71.8m points)

The example you have posted in your question comes from "Java Concurrency In Practice" by Brian Goetz et al. It is in section 3.2 "Publication and escape". I won't attempt to reproduce the details of that section here. (Go buy a copy for your bookshelf, or borrow a copy from your co-workers!)

The problem illustrated by the example code is that the constructor allows the reference to the object being constructed to "escape" before the constructor finishes creating the object. This is a problem for two reasons:

  1. If the reference escapes, something can use the object before its constructor has completed the initialization and see it in an inconsistent (partly initialized) state. Even if the object escapes after initialization has completed, declaring a subclass can cause this to be violated.

  2. According to JLS 17.5, final attributes of an object can be used safely without synchronization. However, this is only true if the object reference is not published (does not escape) before its constructor finished. If you break this rule, the result is an insidious concurrency bug that might bite you when the code is executed on a multi-core / multi-processor machines.

The ThisEscape example is sneaky because the reference is escaping via the this reference passed implicitly to the anonymous EventListener class constructor. However, the same problems will arise if the reference is explicitly published too soon.

Here's an example to illustrate the problem of incompletely initialized objects:

public class Thing {
    public Thing (Leaker leaker) {
        leaker.leak(this);
    }
}

public class NamedThing  extends Thing {
    private String name;

    public NamedThing (Leaker leaker, String name) {
        super(leaker);

    }

    public String getName() {
        return name; 
    }
}

If the Leaker.leak(...) method calls getName() on the leaked object, it will get null ... because at that point in time the object's constructor chain has not completed.

Here's an example to illustrate the unsafe publication problem for final attributes.

public class Unsafe {
    public final int foo = 42;
    public Unsafe(Unsafe[] leak) {
        leak[0] = this;   // Unsafe publication
        // Make the "window of vulnerability" large
        for (long l = 0; l < /* very large */ ; l++) {
            ...
        }
    }
}

public class Main {
    public static void main(String[] args) {
        final Unsafe[] leak = new Unsafe[1];
        new Thread(new Runnable() {
            public void run() {
                Thread.yield();   // (or sleep for a bit)
                new Unsafe(leak);
            }
        }).start();

        while (true) {
            if (leak[0] != null) {
                if (leak[0].foo == 42) {
                    System.err.println("OK");
                } else {
                    System.err.println("OUCH!");
                }
                System.exit(0);
            }
        }
    }
}

Some runs of this application may print "OUCH!" instead of "OK", indicating that the main thread has observed the Unsafe object in an "impossible" state due to unsafe publication via the leak array. Whether this happens or not will depend on your JVM and your hardware platform.

Now this example is clearly artificial, but it is not difficult to imagine how this kind of thing can happen in real multi-threaded applications.


The current Java Memory Model was specified in Java 5 (the 3rd edition of the JLS) as a result of JSR 133. Prior to then, memory-related aspects of Java were under-specified. Sources that refer to earlier versions / editions are out of date, but the information on the memory model in Goetz edition 1 is up to date.

There are some technical aspects of the memory model that are apparently in need of revision; see https://openjdk.java.net/jeps/188 and https://www.infoq.com/articles/The-OpenJDK9-Revised-Java-Memory-Model/. However, this work has yet to appear in a JLS revision.


与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…
OGeek|极客中国-欢迎来到极客的世界,一个免费开放的程序员编程交流平台!开放,进步,分享!让技术改变生活,让极客改变未来! Welcome to OGeek Q&A Community for programmer and developer-Open, Learning and Share
Click Here to Ask a Question

...