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I'm attempting to work out whether a hardware RNG is actually any safer than RNGCryptoServiceProvider.

Given that randomness from RNGCryptoServiceProvider is provided using various system and user data such as the process ID, thread ID, system clock, system time, system counter, memory status, free disk clusters, and hashed user environment block along with international standard cryptography algorithms[ref], are there really any good reasons to use a hardware RNG for a security application, apart from speed?

EDIT: I would like to presume in all this that the computer on which the RNG is running is not comprimised - ie, there is no spying app on it.

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The more important question should be: Is RNGCryptoServiceProvider safe enough for my requirements? –  LukeH Sep 28 '10 at 10:18
    
Note even hardware RNGs exhibit bias since no physical process is perfectly symmetric and balanced. Most (good) hardware RNGs have data whitening stages and other tricks (eg: periodic RNG h/w seed refreshes to an PRNG) to give 'good' results. Entropic distributions are identical (else a design doesn't cut it). –  DeepSpace101 Oct 5 '13 at 17:34

3 Answers 3

No, RNGCryptoServiceProvider is not as good as using hardware.

But it is a lot cheaper and available on every machine. And good enough (and fast enough) for most use cases.

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Interesting. What qualities does a hardware RNG posses that make it 'better'? –  PaulG Sep 28 '10 at 10:24
    
@PaulG: All the things that RNGCryptoServiceProvider uses to create a random number, as you listed them in your question, can be easily obtained by a program running on the machine, and thus the next random number to be generated can be calculated (i.e. a spying app), and the whole idea of randomness can be subverted. With a hardware-RNG, this is not possible, as it relies on an impossible-to-predict physical phenomena. –  Allon Guralnek Sep 28 '10 at 10:36
    
@PaulG: Hardware can be 'really' random. But with good software the diff becomes theoretical. –  Henk Holterman Sep 28 '10 at 10:38
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@Tom: It is a question about the "quality" of the random numbers. RNGCryptoServiceProvider doesn't give you a full bit of of entropy for every single bit you pull out. Instead you gain something around 0.9999998 bits (example value I made up). This means that you don't get a full 128 bits of security with a 128 bit key, you get 127.9999744 bits of security. With very few exceptions, the RNGCryptoServiceProvider is plenty good enough. If, though, you really need perfect entropy, you should use dedicated hardware. Examples of this would be for CAs or master keys for high-value systems. –  Eadwacer Sep 28 '10 at 18:37
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@Eadwacer "If, though, you really need perfect entropy, you should use dedicated hardware. Examples of this would be for CAs or master keys for high-value systems." Given that the 128bit key length is somewhat arbitrary, would it be fair to say that for all intents and purposes that RNGCryptoServiceProvider is as safe? A 256bit (or 129bit for that matter) RNGCryptoServiceProvider key would be as safe as a 128bit hardware generated one? –  Mr. Flibble Sep 29 '10 at 8:36

Whatever parameters the PRNG implementation uses as a seed, they have a limited amount of entropy - at most the length of the representations of the values, but in reality much smaller (for example, PIDs are easy to restrict to a likely range; system time is very easy to guess accurately, etcetera). No matter how much data you generate from a PRNG seeded this way, the amount of entropy remains the same, and thus the amount of work required to determine the seed remains the same.

With a hardware RNG, in contrast, the amount of entropy is the amount of data generated. There's no possibility of brute-force searching the set of possible seed values, because there's no state to exploit.

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I am under the impression that RNGCryptoServiceProvider continually uses 'external' (memory status etc) factors. So it is not limited like a deterministic PRNG that you describe is. –  Tom Sep 28 '10 at 14:18
    
It's still limited to the amount of entropy it can obtain, and that amount is virtually guaranteed to be smaller than the amount of random data you generate. –  Nick Johnson Sep 28 '10 at 15:19

Its a great question, and I suspect the answer is (as Henk suggested) more theoretical. A hardware component could be employed to generate white noise, then sampled and used as a hardware RNG. In theory this would be 'more random' than using timings from the system.

In practice though, RNG's are put to the test when they go through FIPS certification. RNGCryptoServiceProvider has qualified through FIPS 140-2 certification (source: http://technet.microsoft.com/en-us/library/cc750357.aspx)

Some of the answers are based on a misconception that because the software RNG uses known sources for its input values, then those input values can be monitored and the seed discovered.

This isn't a true weakness (if it was the same could be said of the hardware RNG, we could monitor its current (single?) value and determine the seed)

The weakness (if any) is that most software RNG's use input sources that can be manipulated (to a degree) in software. This would allow spectacularly well crafted malware to manipulate the hardware to a point where the RNG outputs a predictable (ie non-random) number.

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