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I have added the bouncy castle jar file to my application class path in android and in java. This is the code that I've used in both of them. But it doesn't seem to recognize the provider "BC".

SecureRandom sr1=new SecureRandom().getInstance("SHA1PRNG", "BC");
      byte[] a=new byte[0];
      int ai=a[0];

It throws the following exception in both android and in java:

java.security.NoSuchProviderException: no such provider: BC

How to correct this?
I had not added the provider in the policy file. After doing that I am getting the following exception.

java.security.NoSuchAlgorithmException: no such algorithm: SHA1PRNG for provider

Does it mean that bouncy castle does not provide an implementation of "SHA1PRNG" algorithm? But the whole reason I imported bouncy castle was to have a common provider in both android and in java, so that the sequence of random numbers generated with the same seed are the same in both android and java.

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1 Answer 1

up vote -1 down vote accepted

Apparently it doesn't provide a SecureRandom implementation at all. You can get the system implementation (from Harmony) like this (no need to create an instance to call static method):


BouncyCastle has DigestRandomGenerator which could probably used in a similar manner, but may or may not be compatible with the Sun SHA1PRNG (which appears to be proprietary, and really well defined)

Re: generating OTPs using SecureRandom: SecureRandom with a fixed seed is not the right tool for this. To generate OTPs, you should use a secret key combined with a predictable element (time or a counter). A standard way is using an HMAC as specified by e.g. OATH. Read RFC 4226 for details.

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I am trying to aceive the same sequesnce of numbers in both the client(android) and the server(servlet).When you seed your random number with "sha1prng" as the the prng algorithm, it does not add any entropy to the user specified seed. That is why when two instances of a secure random number are used in java they produce the same sequence of numbers. The same thing is happening in android also. But the problem is that the sequences generated in android and in java are not the same. –  Ashwin Mar 12 '12 at 4:37
OK, I was wrong. It only adds entropy if you call it more than once. Still, if you need to matching sequences, use a database and increment a number. A secure random generator is not the tool for this. See updated answer about it's not so easy to use BC on Android. –  Nikolay Elenkov Mar 12 '12 at 4:52
I am actually using the sequesnces as one time password. I cannot use a number and increment it and use it as a otp. yes it would defeat the purpose if I were using a "trng", but I am using a pseudo random number generator. –  Ashwin Mar 12 '12 at 5:00
OK, but using a SecureRandom is not the way to do it either. If you want to get perdicatable and secure OTPs, you need to use a real cryptographic key as the seed, not an integer (4 bytes). It would take a few hours to defeat our OTP. See updated answer (again). –  Nikolay Elenkov Mar 12 '12 at 5:08
The thing is the code I used in my question is just for an example. The method SecureRandom.setSeed(long a) accepts a long seed. The problem is not with the seed. The problem is with the implementation of the "SHA!PRNG" algrithm. However I will look into HMAC and let you know. –  Ashwin Mar 12 '12 at 5:17

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