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Random prime generation and primality testing library based on `crypto-bigint`.

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fjarri/crypto-primes

 
 

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Prime number tools for crypto-bigint

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This library implements prime number generation and primality checking for crypto-bigint integers. In particular:

  • Generating random primes and safe primes of given bit size;
  • Sieving iterator;
  • Miller-Rabin test;
  • Strong and extra strong Lucas tests, and Lucas-V test.

The library is no-std compatible and contains no unsafe code.

Most users will be using the small set of functions exported from the top level, providing "pre-packaged" prime finding functionality with sane defaults.

Example

Find a 196 bit prime returned in a 256-bit long crypto_bigint::U256:

use crypto_bigint::U256;
let prime = crypto_primes::generate_prime::<U256>(196);
assert!(crypto_primes::is_prime(&prime));

Find a 64 bit safe prime returned in a crypto_bigint::U1024:

use crypto_bigint::U1024;
let prime = crypto_primes::generate_safe_prime::<U1024>(64);
assert!(crypto_primes::is_safe_prime(&prime));

Advanced

Advanced users can use the hazmat module in the library to build a custom prime finding solution that best fit their needs, e.g. by picking different Lucas bases or running Miller-Rabin tests with particular bases.

Features

The following features are available:

  • default-rng: Use the OS default CSPRNG, OsRng. Enabled by default.
  • multicore: Enables additional parallel prime finding functions. Disabled by default.

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Random prime generation and primality testing library based on `crypto-bigint`.

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License

Apache-2.0, MIT licenses found

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Apache-2.0
LICENSE-APACHE
MIT
LICENSE-MIT

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