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It is known that SecureRandom class provide strong cryptographic security for generated random number. java.util.Random is insecure for the situation which requires cryptographic security. The typical usage of SecureRandom is:

SecureRandom random = new SecureRandom();
byte bytes[] = new byte[20];
random.nextBytes(bytes);

However, I met a case:

SecureRandom random = new SecureRandom();
int number = random.ints();

The method ints() is inherited from the java.util.Random class. I am confused when SecureRandom which is a secure random number generator uses a method inherited from the insecure random number generator, whether it is secure?

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    To add to my upvote: This is a very good question with a clear title, a concise description and good structure. If only more questions we see every day could be like this! Thank you! – Lutz Horn Jul 30 at 7:31
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    Do you mean IntStream numbers = random.ints();? – Andy Turner Jul 30 at 8:04
33

Yes it is secure.

Code examination of java.util.Random shows that ints() creates a spliterator that uses internalNextInt(...) to generate the random integers. That in turn calls nextInt() on this. In the case of java.security.SecureRandom, nextInt() is overridden to generate a "secure" random number1.

You can confirm this for yourself by looking at the source code.


1 - Of course, it doesn't actually make sense to call an integer or a sequence of integers "secure". And there are situations where SecureRandom may not have the properties that you require. (It depends on the actual RNG or PRNG implementation used by the class, the quality of the supplied seed or system provided entropy source, and so on.) But SecureRandom::ints() will generate a sequence of integers that has the same properties as if you made a sequence of SecureRandom::nextInt() calls on the same object. If the latter sequence is suitable for your purposes (whatever they are) then so is the former.

14

Random.ints() is a method that returns an IntStream. An IntStream is neither secure nor insecure: it's a stream of numbers.

The "security" of the sequence of ints returned by the method depends on the implementation of the method. SecureRandom generates its "random" values more securely than Random. They share the same API, and thus you can use either in a given context depending upon your requirements.

So, the fact it inherits from an insecure class is irrelevant to the security: you can reasonably trust that the SecureRandom class is as secure as the documentation says it is.


Consider an analogy with HashSet: this makes no guarantees of the iterator ordering; however, LinkedHashSet, a subclass of HashSet does guarantee iterator ordering. The guarantee of LinkedHashSet is consistent with the guarantee of HashSet, because a specific ordering is one of the possible orderings that could be observed with "no guaranteed ordering" (after all, you have to return the elements in some order).

Similarly, Random makes no guarantees about the security of the sequence of ints returned; SecureRandom makes stronger guarantees. But there is no reason why the sequence of ints from a SecureRandom couldn't also be returned by a Random, by coincidence.

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    I think this is also a good example of where you probably do not want to be "programming to the interface". The code could be written Random random = new SecureRandom(); and still compile and work the same. But here, you do want to have not just any implementation that has the method signatures you need, but a specific implementation that is guaranteed to also behave a certain way. – Thilo Jul 30 at 7:36
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    @Thilo I agree. it's similar to Google's internal style recommendation that we use Guava ImmutableList where we can, rather than List: there is useful information conveyed by the more specific type. – Andy Turner Jul 30 at 7:38
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    ... and your analogy with LinkedHashSet vs just Set makes the same point even better. – Thilo Jul 30 at 7:38
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    @LutzHorn. I disagree. You don't just want an ints() method (or an iterator() method) of the right type. You want to also have specific implementation guarantees. – Thilo Jul 30 at 7:39
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    @LutzHorn no, that's not always true. See my comment about ImmutableList vs List: you might only want to invoke get(i) on that list, but the fact that you mustn't invoke set is strongly indicated (and, for example, can be caught by the compiler). – Andy Turner Jul 30 at 7:40
11

Yes, SecureRandom

provides a cryptographically strong random number generator (RNG).

One important factor for a secure RNG is the seed.

Therefore any seed material passed to a SecureRandom object must be unpredictable, and all SecureRandom output sequences must be cryptographically strong, as described in RFC 4086: Randomness Requirements for Security.

Go ahead and use it. If you are interested in the details, read the JavaDoc which describes the various approaches used by implementations.

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    Your assertion that "The important factor for a secure RNG is the seed, not the algorightm." is wrong and dangerously misleading. Both the seed and the algorithm are vital. It doesn't matter how good your entropy sources for your seed are if you feed the seed into a cruddy LCG or the Mersenne Twister or some other non-cryptographic RNG algorithm. – user2357112 Jul 30 at 8:10
  • @user2357112 You are correct, bad wording fixed. – Lutz Horn Jul 30 at 8:13

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