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I created a class "String" and placed that in package "java" [ actually i wanted to create java.lang to see which class is loaded by classLoader as

Once a class is loaded into a JVM, the same class (I repeat, the same class) will not be loaded again

quoted from oreilly ] . But that thing later, why on running this class i am getting
java.lang.SecurityException: Prohibited package name: java

For which security reason java is not allowing me to have a class in java package? What one could do if there will not be no such check?

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5 Answers

up vote 7 down vote accepted

User code is never allowed to put classes into one of the standard Java packages. That way, user code cannot access any package-private classes/methods/fields in the Java implementation. Some of those package-private objects allow access to JVM internals. (I'm thinking of SharedSecrets in particular.)

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In principle I agree with the analysis of the risks posed, but note that you can only access package-private stuff if your class is in a package with the same name and it is loaded by the same ClassLoader. –  Sami Koivu Sep 27 '10 at 19:34
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No, this isn't the reason. User code can access private members in java classes through the Reflection API. And what about code under the javax package? The JVM does allow new classes to be defined there. –  Rogério Feb 8 '11 at 15:59
    
@Rogerio: Using the reflection API to access private stuff requires a SecurityManager check. Obviously, if you have no security manager installed, all bets are off anyway. –  Chris Jester-Young Feb 8 '11 at 16:19
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A program could bypass security measures if a program could override JVM core classes with trojan versions. For example, String is used practically everywhere.

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java is a reserved package name. Only classes inside the JVM can reside in this package.

If anyone could write in the Java package, that could result in libraries arbitrarily replacing core Java classes by their own implementations. That could result in a lot of thinks, from breaking core Java features to execution of malicious code.

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Firstly, these types of restrictions are in place to enforce the Java sandbox. That is, running untrusted code in a trusted environment. Such as running an applet from some site (that you don't necessarily trust), on your computer (the trusted environment) in your browser. The intent is to disallow untrusted code from gaining access to package-private stuff which could help it escape the sandbox.

Normally these restrictions are enforced by the SecurityManager, so they shouldn't happen when you run your own application on the command-line (unless you explicitly specify to use a SecurityManager). When you control the environment, you could just go and edit the String.class definition inside the rt.jar of your Java (and you can, technically anyway, not sure what licensing says). As I said the restrictions are normally in the SecurityManager, but this particular rule about java.* packages is in the ClassLoader class.

To answer your question: My guess is that java.* check is there because of a) historic reasons b) somewhere in the Java core there's a check on the name of the class, something like: All class that start with java.* get special treatment.

However, consider that even if you managed to create a class called java.lang.String, it would not be the same class as the java.lang.String defined by the Java core. It would just be a class with the exact same name. Class identity is more than just the name of the class, even though this can be tricky to perceive unless you really play with ClassLoaders.

So a class loaded by the application classloader in the package java.lang, would not have access to the core java.lang package-private stuff.

To illustrate this, try to create a class called javax.swing.JButton with a main method and execute it. You'll get a java.lang.NoSuchMethodError: main. That's because java finds the "real" JButton before your class, and the real JButton doesn't have a main method.

In a Java standalone application you might be able to go around this restriction by calling one of the private native defineClassx methods directly via use of reflection and setAccessible.

BTW: The core java.lang.String is guaranteed to be loaded before your code ever executes because it's referenced everywhere, you would not get there first with your user code. The JVM gets set up to a degree before ever even trying to load your class, let alone execute it.

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This is the best answer, but there is more to it. With use of the java.lang.instrument API through a "Java agent", it is possible to redefine any class loaded by any class loader, including the java.lang.String class defined by the bootstrap class loader. –  Rogério Feb 8 '11 at 16:07
    
@Rogerio, also how do all the other commentators think one uses -Xbootclasspath (e.g. to use jsr166 for java.util.ForkJoinPool)? How would one have compiled the jsr jar? –  Ustaman Sangat Jan 3 '12 at 23:24
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You cannot have "java.*" package names. This is actually hard-coded in the Java core so you cannot even grant a security manager permission to work around it (cf. ClassLoader::preDefineClass(...))

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