.. _module-pw_random: --------- pw_random --------- Pigweed's ``pw_random`` module provides a generic interface for random number generators, as well as some practical embedded-friendly implementations. While this module does not provide drivers for hardware random number generators, it acts as a user-friendly layer that can be used to abstract away such hardware. Embedded systems have the propensity to be more deterministic than your typical PC. Sometimes this is a good thing. Other times, it's valuable to have some random numbers that aren't predictable. In security contexts or areas where things must be marked with a unique ID, this is especially important. Depending on the project, true hardware random number generation peripherals may or may not be available. Even if RNG hardware is present, it might not always be active or accessible. ``pw_random`` provides libraries that make these situations easier to manage. Using RandomGenerator ===================== There's two sides to a RandomGenerator; the input, and the output. The outputs are relatively straightforward; ``GetInt()`` randomizes the passed integer reference, and ``Get()`` dumps random values into a the passed span. The inputs are in the form of the ``InjectEntropy*()`` functions. These functions are used to "seed" the random generator. In some implementations, this can simply be resetting the seed of a PRNG, while in others it might directly populate a limited buffer of random data. In all cases, entropy injection is used to improve the randomness of calls to ``Get*()``. It might not be easy to find sources of entropy in a system, but in general a few bits of noise from ADCs or other highly variable inputs can be accumulated in a RandomGenerator over time to improve randomness. Such an approach might not be sufficient for security, but it could help for less strict uses. Algorithms ========== xorshift* --------- The ``xorshift*`` algorithm is a pseudo-random number generation algorithm. It's very simple in principle; the state is represented as an integer that, with each generation, performs exclusive OR operations on different left/right bit shifts of itself. The "*" refers to a final multiplication that is applied to the output value. Pigweed's implementation augments this with an ability to inject entropy to reseed the generator throughout its lifetime. When entropy is injected, the results of the generator are no longer completely deterministic based on the original seed. Note that this generator is NOT cryptographically secure. For more information, see: * https://en.wikipedia.org/wiki/Xorshift * https://www.jstatsoft.org/article/view/v008i14 * http://vigna.di.unimi.it/ftp/papers/xorshift.pdf Future Work =========== A simple "entropy pool" implementation could buffer incoming entropy later use instead of requiring an application to directly poll the hardware RNG peripheral when the random data is needed. This would let a device collect entropy when idling, improving the latency of potentially performance-sensitive areas where random numbers are needed.