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The below class is my security key provider for encryption.

public class MySecretKey {
private String key="2sfdsdf7787fgrtdfg#$%@cj5";
//Some Util methods goes on  Here .

First I didn't belive that one can access the private data without a getter, but, My goodness, I am able to see the key in the console now .

And somewhere else using reflection we can see the code like below :

public static void main(String[] args) throws Exception {
        Stacker myClass = new Stacker();
        Field key= myClass.getClass().getDeclaredField("key");

How can I hide my key from outside my class :( ,even private keyword also not helping me in case of Reflection.

Please give me some hint .

Thanks in advance.

share|improve this question
possible duplicate of Java reflection framework and security – Luiggi Mendoza Feb 15 '13 at 21:07
Your key would be available in the compiled code anyways... – Alex DiCarlo Feb 15 '13 at 21:08
Yup. There's no way to keep data compiled into your code like that secure. Step one of the proper solution, however, is not to compile your code together with untrusted code. – Louis Wasserman Feb 15 '13 at 21:09
I thought of the encryption key as just one example of a private field that can be accessed with reflection and setAccesible(true). There have been a few cases where I subclassed a library class, but I needed access to the superclass's private field for proper execution, e.g. a HashMap, so I used this reflection trick. Of course encryption keys should never reside in code, but I think that there are other cases where this trick merely breaks encapsulation, not security. In short, this question is about preventing the reflection trick, not securing an encryption key. +1 – rgettman Feb 15 '13 at 21:18
I think, in general, information hiding (using private/protected/etc. members) is a trick to help prevent bugs and to help prevent poor code design; not as a security measure. I.e. it might stop bad (as in foolish) code from being written, not bad (as in malicious) code from being executed. – Nick Feb 15 '13 at 21:27
up vote 1 down vote accepted

setAccessible says

First, if there is a security manager, its checkPermission method is called with a ReflectPermission("suppressAccessChecks") permission.

so you can prevent this by denying the suppressAccessChecks permission.

Really though, it'd be better to avoid relying on the JVM to preserve object inviolability. Joe-E allows for mutual-suspicion between classes within a JVM, but the JVM wasn't designed for that.

share|improve this answer

All the strings defined in a Java class can be easily inspected by opening the class file in a hexadecimal editor, they're not, by any means, hidden. not to mention that they can be retrieved programatically using reflection, as you just discovered.

The mechanism you're using for "hiding" a private key is broken, and utterly flawed. You should instead store the key in an external file, for example a serialized, encrypted key store, protected by other means - for example, a password or another key stored elsewhere.

share|improve this answer
This is a good point, but object inviolability is still relied on to protect one-time secrets obtained from a SecureRandom after class load. I don't think the OP excludes that use case. – Mike Samuel Feb 15 '13 at 21:30
This is just moving the problem forward... where do you hide the password used to uncipher the private key holder ? – ZNK - M Jan 21 '14 at 9:10

The preferred solution is to store the key in a file, and then use file system permissions to restrict access to the file. It's not a perfect solution (certainly not as convenient) but it's better than hardwiring the key in the code.

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