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use base64::{decode_config, encode_config, URL_SAFE};
use num_bigint_dig::BigUint;
use rsa::{PublicKey, RSAPublicKey};
use thiserror::Error;
pub trait AsMagicPublicKey {
fn as_magic_public_key(&self) -> String;
}
pub trait FromMagicPublicKey {
fn from_magic_public_key(magic_public_key: &str) -> Result<Self, KeyError>
where
Self: Sized;
}
#[derive(Debug, Error)]
pub enum KeyError {
#[error("The provided key is malformed")]
Malformed,
#[error("The provided key is of the wrong kind")]
Kind,
}
impl<T> AsMagicPublicKey for T
where
T: PublicKey,
{
fn as_magic_public_key(&self) -> String {
let n = encode_config(&self.n().to_bytes_be(), URL_SAFE);
let e = encode_config(&self.e().to_bytes_be(), URL_SAFE);
format!("RSA.{}.{}", n, e)
}
}
impl FromMagicPublicKey for RSAPublicKey {
fn from_magic_public_key(magic_public_key: &str) -> Result<Self, KeyError> {
let mut iter = magic_public_key.split('.');
let kind = iter.next().ok_or(KeyError::Malformed)?;
match kind {
"RSA" => (),
_ => return Err(KeyError::Kind),
};
let n = iter.next().ok_or(KeyError::Malformed)?;
let e = iter.next().ok_or(KeyError::Malformed)?;
let n = decode_config(n, URL_SAFE)?;
let e = decode_config(e, URL_SAFE)?;
let n = BigUint::from_bytes_be(&n);
let e = BigUint::from_bytes_be(&e);
RSAPublicKey::new(n, e).map_err(|_| KeyError::Malformed)
}
}
impl From<base64::DecodeError> for KeyError {
fn from(_: base64::DecodeError) -> Self {
KeyError::Malformed
}
}
#[cfg(test)]
mod tests {
use crate::{AsMagicPublicKey, FromMagicPublicKey};
use rsa::{RSAPrivateKey, RSAPublicKey};
#[test]
fn can_complete_cycle() {
let mut rng = rand::thread_rng();
let rsa = RSAPrivateKey::new(&mut rng, 2048).unwrap();
let string = rsa.as_magic_public_key();
let res = RSAPublicKey::from_magic_public_key(&string);
assert!(res.is_ok());
}
#[test]
fn asonix_key_is_valid() {
key_is_valid("RSA.wEvEsHqM3twoC2F3KYMQ9YOialfVQX4StkLvhLUwFv8qpmY7ZSHHl2TWpnzlo5iWS5Pi2vC41HUGYz9XT5G74IUOyuIkjTL1FIcPJDcUFCzQjN3QZcHLPJPJVNOOOEiOk8__paOyrqJTq9ikcJDMJ8KTWQgk1leOxUVEN5uaQ-p9IBFbXC76-RqabfEoqLZagVMDSOfeC2uR9xZ1q5HkFveRTGs84QLR7FJVvx078nszx4UQGnmP0M-0sOeRJGK17IoJmhaok1XBpP6XFQ45vYeIRiaFj0Pc9GNISCW70dVXKMhv-K07orQJm6PwP8USyhq4tLkq6tcPbGRqEk3ZXw==.AQAB");
}
#[test]
fn sir_boops_key_is_valid() {
key_is_valid("RSA.vwDujxmxoYHs64MyVB3LG5ZyBxV3ufaMRBFu42bkcTpISq1WwZ-3Zb6CI8zOO-nM-Q2llrVRYjZa4ZFnOLvMTq_Kf-Zf5wy2aCRer88gX-MsJOAtItSi412y0a_rKOuFaDYLOLeTkRvmGLgZWbsrZJOp-YWb3zQ5qsIOInkc5BwI172tMsGeFtsnbNApPV4lrmtTGaJ8RiM8MR7XANBOfOHggSt1-eAIKGIsCmINEMzs1mG9D75xKtC_sM8GfbvBclQcBstGkHAEj1VHPW0ch6Bok5_QQppicyb8UA1PAA9bznSFtKlYE4xCH8rlCDSDTBRtdnBWHKcj619Ujz4Qaw==.AQAB");
}
fn key_is_valid(key: &str) {
let res = RSAPublicKey::from_magic_public_key(key);
assert!(res.is_ok());
assert_eq!(res.unwrap().as_magic_public_key(), key);
}
}