Expand description
Public/private key processing.
Asymmetric public key algorithms solve the problem of establishing and sharing secret keys to securely send and receive messages. This system uses a pair of keys: a public key, which can be freely distributed, and a private key, which is kept to oneself. An entity may encrypt information using a user’s public key. The encrypted information can only be deciphered using that user’s private key.
This module offers support for five popular algorithms:
-
RSA
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DSA
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Diffie-Hellman
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Elliptic Curves
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HMAC
These algorithms rely on hard mathematical problems - namely integer factorization, discrete logarithms, and elliptic curve relationships - that currently do not yield efficient solutions. This property ensures the security of these cryptographic algorithms.
§Example
Generate a 2048-bit RSA public/private key pair and print the public key.
use openssl::rsa::Rsa;
use openssl::pkey::PKey;
use std::str;
let rsa = Rsa::generate(2048).unwrap();
let pkey = PKey::from_rsa(rsa).unwrap();
let pub_key: Vec<u8> = pkey.public_key_to_pem().unwrap();
println!("{:?}", str::from_utf8(pub_key.as_slice()).unwrap());Structs§
- An identifier of a kind of key.
- A public or private key.
- Reference to
PKey.
Enums§
- A tag type indicating that a key only has parameters.
- A tag type indicating that a key has private components.
- A tag type indicating that a key only has public components.
Traits§
- A trait indicating that a key has parameters.
- A trait indicating that a key has private components.
- A trait indicating that a key has public components.