Expand description
PBKDF2 derivation and verification.
Use derive
to derive PBKDF2 outputs. Use verify
to verify secret
against previously-derived outputs.
PBKDF2 is specified in RFC 2898 Section 5.2 with test vectors given in RFC 6070. See also NIST Special Publication 800-132.
§Examples
§Password Database Example
use aws_lc_rs::{digest, pbkdf2};
use std::{collections::HashMap, num::NonZeroU32};
static PBKDF2_ALG: pbkdf2::Algorithm = pbkdf2::PBKDF2_HMAC_SHA256;
const CREDENTIAL_LEN: usize = digest::SHA256_OUTPUT_LEN;
pub type Credential = [u8; CREDENTIAL_LEN];
enum Error {
WrongUsernameOrPassword
}
struct PasswordDatabase {
pbkdf2_iterations: NonZeroU32,
db_salt_component: [u8; 16],
// Normally this would be a persistent database.
storage: HashMap<String, Credential>,
}
impl PasswordDatabase {
pub fn store_password(&mut self, username: &str, password: &str) {
let salt = self.salt(username);
let mut to_store: Credential = [0u8; CREDENTIAL_LEN];
pbkdf2::derive(PBKDF2_ALG, self.pbkdf2_iterations, &salt,
password.as_bytes(), &mut to_store);
self.storage.insert(String::from(username), to_store);
}
pub fn verify_password(&self, username: &str, attempted_password: &str)
-> Result<(), Error> {
match self.storage.get(username) {
Some(actual_password) => {
let salt = self.salt(username);
pbkdf2::verify(PBKDF2_ALG, self.pbkdf2_iterations, &salt,
attempted_password.as_bytes(),
actual_password)
.map_err(|_| Error::WrongUsernameOrPassword)
},
None => Err(Error::WrongUsernameOrPassword)
}
}
// The salt should have a user-specific component so that an attacker
// cannot crack one password for multiple users in the database. It
// should have a database-unique component so that an attacker cannot
// crack the same user's password across databases in the unfortunate
// but common case that the user has used the same password for
// multiple systems.
fn salt(&self, username: &str) -> Vec<u8> {
let mut salt = Vec::with_capacity(self.db_salt_component.len() +
username.as_bytes().len());
salt.extend(self.db_salt_component.as_ref());
salt.extend(username.as_bytes());
salt
}
}
fn main() {
// Normally these parameters would be loaded from a configuration file.
let mut db = PasswordDatabase {
pbkdf2_iterations: NonZeroU32::new(100_000).unwrap(),
db_salt_component: [
// This value was generated from a secure PRNG.
0xd6, 0x26, 0x98, 0xda, 0xf4, 0xdc, 0x50, 0x52,
0x24, 0xf2, 0x27, 0xd1, 0xfe, 0x39, 0x01, 0x8a
],
storage: HashMap::new(),
};
db.store_password("alice", "@74d7]404j|W}6u");
// An attempt to log in with the wrong password fails.
assert!(db.verify_password("alice", "wrong password").is_err());
// Normally there should be an expoentially-increasing delay between
// attempts to further protect against online attacks.
// An attempt to log in with the right password succeeds.
assert!(db.verify_password("alice", "@74d7]404j|W}6u").is_ok());
}
Structs§
- A PBKDF2 algorithm.
Statics§
- PBKDF2 using HMAC-SHA1.
- PBKDF2 using HMAC-SHA256.
- PBKDF2 using HMAC-SHA384.
- PBKDF2 using HMAC-SHA512.
Functions§
- Fills
out
with the key derived using PBKDF2 with the given inputs. - Verifies that a previously-derived (e.g., using
derive
) PBKDF2 value matches the PBKDF2 value derived from the other inputs.