Using seed in PRNG

In Java, i am generating pseudo random numbers using "SHA1PNRG". I don't know the internal working of this number generation. What seed value will be best for secure number generation? Should i use smaller number as seed or larger value as seed? Please be kind to give proper guidance.

My code:

``````SecureRandom sr= SecureRandom.getInstance("SHA1PRNG");
sr.setSeed(seed);
``````

I am using `sr.nextInt(int)` for getting next value and `seed` is a long data type variable.

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NIST SP800-90A recommends a seed length of 440 bits (i.e. 55 bytes) when using a Hash_DRBG (Deterministic Random Bit Generator) based on SHA-1. (The algorithm is also depicted there).

But it is not only about the length of the seed, but also its entropy ("randomness"). If you initialize a DRBG with a 440-bit string of zeros, it will be a bad choice despite of its length.

The purpose of seeding is configuring the initial state of the generator, so that an attacker will not be able to predict the sequence of random numbers. Remember that all the process is deterministic, then once anyone knows the state of the generator, he will be able to reproduce the random sequence from that point on.

You may calculate the seed by using the method `SecureRandom.generateSeed`, which relies on the entropy source provided by the current OS (for instance, the SeedGenerator of OpenJDK uses /dev/random on Linux and MS CryptoAPI on Windows).

`````` SecureRandom sr= SecureRandom.getInstance("SHA1PRNG");
byte seed[] = random.generateSeed(55);
sr.setSeed(seed);
``````
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Thank you Javier. If i use the seed of data type long rather than using as of type byte, will it compromise the security in anyway? –  Maximin Mar 9 at 6:57
Yes. First, because `long` is only 64 bits, then your seed is too short. Second, because `nextLong()` returns a pseudo random number based on the current state of the generator (as opposed to a value from an entropy source). If you use `nextLong` as the source of your seed you are feeding almost no entropy because you are trying to "improve" the generator with itself. –  Javier Mar 9 at 7:03
I thought both usage will results the same. Thanks for correcting it. –  Maximin Mar 9 at 7:07

To ensure different seeds every time your application runs, it's usually customary to take the time and use it as the seed. In Java that's usually either System.currentTimeMillis() or System.nanoTime(). The choice of lower values vs higher values is not something to worry about, instead focus on seed diversity otherwise your random may result in the same series of numbers if the same seed is given.

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Thank you Mr.Corey Ogburn. Actually i need the same sequence to be generated on each execution. And also when i went through the security guidelines, i found that using seed with values like time are not appreciated since these all can easily be guessed. –  Maximin Mar 9 at 4:59

It doesn't matter what number you use for the seed. What's important is that you use a different number for the seed each time you start the program.

A PRNG, or pseudo-random number generator, works by performing a calculation on the seed. It uses the output of that calculation as the seed for the next random number, and so on. (That's a simplification, but it gives you the right idea.) So the PRNG will produce the same sequence of numbers if you use the same seed.

Typical seeds are derived from the system time, or from a user's keypresses or mouse movements, or some other value that's likely to be different each time the program runs.

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Thank you Adam Liss. Got idea now. –  Maximin Mar 9 at 5:03
You shouldn't bypass the internal seeding mechanism by directly calling `setSeed`. If `java.security.SecureRandom.setSeed(long)` or `java.security.SecureRandom.setSeed(byte[])` is called before a call to `java.security.SecureRandom.nextBytes(byte[])`, then the internal seeding mechanism is bypassed, and only the provided seed is used to generate random numbers.