use dat::dat_crypto_algorithm::DatCryptoAlgorithm;
use dat::dat_crypto_algorithm::DatCryptoAlgorithm::{AES128GCMN, AES256GCMN};
use dat::dat_crypto_key::DatCryptoKey;
use dat::error::DatError;
use dat::util::{decode_base64_url, encode_base64_url};
use rand::RngExt;
fn rand_string() -> String {
let mut rng = rand::rng();
(0..100).map(|_| { rng.sample(rand::distr::Alphanumeric) as char }).collect()
}
fn encrypt_and_decrypt(alg: DatCryptoAlgorithm, rand_string: String) -> Result<(), DatError> {
let tag = format!("crypto.{}", alg);
println!("{tag} ready");
let key = DatCryptoKey::generate(alg);
let byte_key = key.to_bytes();
let b64_key = encode_base64_url(&byte_key);
println!("{tag} key {}", &b64_key);
let parse_key = DatCryptoKey::from_bytes(alg, &*decode_base64_url(b64_key)?)?;
let rand_bytes = rand_string.as_bytes();
println!("{tag} rand_string {}", rand_string);
let encrypt = encode_base64_url(key.encrypt(rand_bytes)?);
println!("encrypt1: {encrypt}");
let decrypt = parse_key.decrypt(decode_base64_url(encrypt.clone())?)?;
assert_eq!(rand_bytes, decrypt);
let fail_decrypt = DatCryptoKey::generate(alg).decrypt(decode_base64_url(encrypt)?).is_ok();
assert!(!fail_decrypt || rand_string.is_empty());
println!("{tag} pass {:?} / fail {}", rand_bytes, fail_decrypt);
Ok(())
}
#[test]
fn test() {
let alg_arr = [AES128GCMN, AES256GCMN];
alg_arr.iter().for_each(|alg| {
(1..20).for_each(|_| {
assert!(encrypt_and_decrypt(*alg, rand_string()).is_ok())
});
assert!(encrypt_and_decrypt(*alg, "".to_string()).is_ok())
})
}