Removing the 128-bit key restriction in Java
An issue in choosing an encryption key size in Java is that by default, current versions of the JDK have a deliberate key size restriction built in. If you try to perform, say, 256-bit AES encryption with the default JDK, you'll find that it dutifully throws an InvalidKeyException, complaining with the not-too-explicit message "Illegal key size or default parameters". If you get this exception, you're probably not doing anything wrong: You've just hit an arbitrary restriction imposed by (at least Sun's) JDK with default settings.
It turns out that the Cipher class will generally not allow encryption with a key size of more than 128 bits. The apparent reason behind this is that some countries (although increasingly fewer) have restrictions on the permitted key strength of imported encryption software, although the actual number 128 is questionable (see below). The good news is that:
You can easily remove the restriction by overriding the security policy files with others that Sun provides.Of course, by "easily", we mean "easy for somebody who doesn't mind downloading a zip, extracting some files from them and copying them to the right place inside the JRE folder". For some customers, this could make deployment a little impractical.
At present, the file you need is called Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files 6 and is currently available at the Java SE download page. This zip file contains a couple of policy jars, which you need copy over the top of the ones already in the lib/security directory of your JRE.
How to determine if a client has this restrictionYou can use Cipher.getMaxAllowedKeyLength() to return the maximum key length (in bits) permitted for a given algorithm. For example, to find out the maximum permitted key size with AES, we can call:
int maxKeyLen = Cipher.getMaxAllowedKeyLength("AES");
Note that this method generally returns the maximum key length permitted by policy, not necessarily by that algorithm!
Where did the number 128 come from?Now I have to confess, not being a politician, lawyer or lobotomised chimpanzee, I don't fully understand the rationale behind the number 128, for at least two reasons:
An issue in choosing an encryption key size in Java is that by default, current versions of the JDK have a deliberate key size restriction built in. If you try to perform, say, 256-bit AES encryption with the default JDK, you'll find that it dutifully throws an InvalidKeyException, complaining with the not-too-explicit message "Illegal key size or default parameters". If you get this exception, you're probably not doing anything wrong: You've just hit an arbitrary restriction imposed by (at least Sun's) JDK with default settings.
It turns out that the Cipher class will generally not allow encryption with a key size of more than 128 bits. The apparent reason behind this is that some countries (although increasingly fewer) have restrictions on the permitted key strength of imported encryption software, although the actual number 128 is questionable (see below). The good news is that:
You can easily remove the restriction by overriding the security policy files with others that Sun provides.Of course, by "easily", we mean "easy for somebody who doesn't mind downloading a zip, extracting some files from them and copying them to the right place inside the JRE folder". For some customers, this could make deployment a little impractical.
At present, the file you need is called Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files 6 and is currently available at the Java SE download page. This zip file contains a couple of policy jars, which you need copy over the top of the ones already in the lib/security directory of your JRE.
How to determine if a client has this restrictionYou can use Cipher.getMaxAllowedKeyLength() to return the maximum key length (in bits) permitted for a given algorithm. For example, to find out the maximum permitted key size with AES, we can call:
int maxKeyLen = Cipher.getMaxAllowedKeyLength("AES");
Note that this method generally returns the maximum key length permitted by policy, not necessarily by that algorithm!
Where did the number 128 come from?Now I have to confess, not being a politician, lawyer or lobotomised chimpanzee, I don't fully understand the rationale behind the number 128, for at least two reasons:
- It's difficult to actually find a reference to any country's current import law that specifically mentions the magic number 128 (see Bert-Jaap Koops' cryptography law survey).
- In any case, the JDK ships with a 160-bit secure hash algorithm and a random number generator built on this algorithm. (Remember, you can create a stream cipher by XORing your data with a secure random number source; however strong or weak you argue it is, SecureRandom can in effect serve as a 160-bit encryption algorithm.)
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