use libc::c_int;
use std::ptr;
use crate::cvt;
use crate::error::ErrorStack;
use crate::hash::MessageDigest;
use crate::symm::Cipher;
#[derive(Clone, Eq, PartialEq, Hash, Debug)]
pub struct KeyIvPair {
pub key: Vec<u8>,
pub iv: Option<Vec<u8>>,
}
#[allow(clippy::useless_conversion)]
pub fn bytes_to_key(
cipher: Cipher,
digest: MessageDigest,
data: &[u8],
salt: Option<&[u8]>,
count: i32,
) -> Result<KeyIvPair, ErrorStack> {
unsafe {
assert!(data.len() <= c_int::max_value() as usize);
let salt_ptr = match salt {
Some(salt) => {
assert_eq!(salt.len(), ffi::PKCS5_SALT_LEN as usize);
salt.as_ptr()
}
None => ptr::null(),
};
ffi::init();
let mut iv = cipher.iv_len().map(|l| vec![0; l]);
let cipher = cipher.as_ptr();
let digest = digest.as_ptr();
let len = cvt(ffi::EVP_BytesToKey(
cipher,
digest,
salt_ptr,
ptr::null(),
data.len() as c_int,
count.into(),
ptr::null_mut(),
ptr::null_mut(),
))?;
let mut key = vec![0; len as usize];
let iv_ptr = iv
.as_mut()
.map(|v| v.as_mut_ptr())
.unwrap_or(ptr::null_mut());
cvt(ffi::EVP_BytesToKey(
cipher,
digest,
salt_ptr,
data.as_ptr(),
data.len() as c_int,
count as c_int,
key.as_mut_ptr(),
iv_ptr,
))?;
Ok(KeyIvPair { key, iv })
}
}
pub fn pbkdf2_hmac(
pass: &[u8],
salt: &[u8],
iter: usize,
hash: MessageDigest,
key: &mut [u8],
) -> Result<(), ErrorStack> {
unsafe {
assert!(pass.len() <= c_int::max_value() as usize);
assert!(salt.len() <= c_int::max_value() as usize);
assert!(key.len() <= c_int::max_value() as usize);
ffi::init();
cvt(ffi::PKCS5_PBKDF2_HMAC(
pass.as_ptr() as *const _,
pass.len() as c_int,
salt.as_ptr(),
salt.len() as c_int,
iter as c_int,
hash.as_ptr(),
key.len() as c_int,
key.as_mut_ptr(),
))
.map(|_| ())
}
}
#[cfg(any(ossl110))]
pub fn scrypt(
pass: &[u8],
salt: &[u8],
n: u64,
r: u64,
p: u64,
maxmem: u64,
key: &mut [u8],
) -> Result<(), ErrorStack> {
unsafe {
ffi::init();
cvt(ffi::EVP_PBE_scrypt(
pass.as_ptr() as *const _,
pass.len(),
salt.as_ptr() as *const _,
salt.len(),
n,
r,
p,
maxmem,
key.as_mut_ptr() as *mut _,
key.len(),
))
.map(|_| ())
}
}
#[cfg(test)]
mod tests {
use crate::hash::MessageDigest;
use crate::symm::Cipher;
#[test]
fn pbkdf2_hmac_sha256() {
let mut buf = [0; 16];
super::pbkdf2_hmac(b"passwd", b"salt", 1, MessageDigest::sha256(), &mut buf).unwrap();
assert_eq!(
buf,
&[
0x55_u8, 0xac_u8, 0x04_u8, 0x6e_u8, 0x56_u8, 0xe3_u8, 0x08_u8, 0x9f_u8, 0xec_u8,
0x16_u8, 0x91_u8, 0xc2_u8, 0x25_u8, 0x44_u8, 0xb6_u8, 0x05_u8,
][..]
);
super::pbkdf2_hmac(
b"Password",
b"NaCl",
80000,
MessageDigest::sha256(),
&mut buf,
)
.unwrap();
assert_eq!(
buf,
&[
0x4d_u8, 0xdc_u8, 0xd8_u8, 0xf6_u8, 0x0b_u8, 0x98_u8, 0xbe_u8, 0x21_u8, 0x83_u8,
0x0c_u8, 0xee_u8, 0x5e_u8, 0xf2_u8, 0x27_u8, 0x01_u8, 0xf9_u8,
][..]
);
}
#[test]
fn pbkdf2_hmac_sha512() {
let mut buf = [0; 64];
super::pbkdf2_hmac(b"password", b"NaCL", 1, MessageDigest::sha512(), &mut buf).unwrap();
assert_eq!(
&buf[..],
&[
0x73_u8, 0xde_u8, 0xcf_u8, 0xa5_u8, 0x8a_u8, 0xa2_u8, 0xe8_u8, 0x4f_u8, 0x94_u8,
0x77_u8, 0x1a_u8, 0x75_u8, 0x73_u8, 0x6b_u8, 0xb8_u8, 0x8b_u8, 0xd3_u8, 0xc7_u8,
0xb3_u8, 0x82_u8, 0x70_u8, 0xcf_u8, 0xb5_u8, 0x0c_u8, 0xb3_u8, 0x90_u8, 0xed_u8,
0x78_u8, 0xb3_u8, 0x05_u8, 0x65_u8, 0x6a_u8, 0xf8_u8, 0x14_u8, 0x8e_u8, 0x52_u8,
0x45_u8, 0x2b_u8, 0x22_u8, 0x16_u8, 0xb2_u8, 0xb8_u8, 0x09_u8, 0x8b_u8, 0x76_u8,
0x1f_u8, 0xc6_u8, 0x33_u8, 0x60_u8, 0x60_u8, 0xa0_u8, 0x9f_u8, 0x76_u8, 0x41_u8,
0x5e_u8, 0x9f_u8, 0x71_u8, 0xea_u8, 0x47_u8, 0xf9_u8, 0xe9_u8, 0x06_u8, 0x43_u8,
0x06_u8,
][..]
);
super::pbkdf2_hmac(
b"pass\0word",
b"sa\0lt",
1,
MessageDigest::sha512(),
&mut buf,
)
.unwrap();
assert_eq!(
&buf[..],
&[
0x71_u8, 0xa0_u8, 0xec_u8, 0x84_u8, 0x2a_u8, 0xbd_u8, 0x5c_u8, 0x67_u8, 0x8b_u8,
0xcf_u8, 0xd1_u8, 0x45_u8, 0xf0_u8, 0x9d_u8, 0x83_u8, 0x52_u8, 0x2f_u8, 0x93_u8,
0x36_u8, 0x15_u8, 0x60_u8, 0x56_u8, 0x3c_u8, 0x4d_u8, 0x0d_u8, 0x63_u8, 0xb8_u8,
0x83_u8, 0x29_u8, 0x87_u8, 0x10_u8, 0x90_u8, 0xe7_u8, 0x66_u8, 0x04_u8, 0xa4_u8,
0x9a_u8, 0xf0_u8, 0x8f_u8, 0xe7_u8, 0xc9_u8, 0xf5_u8, 0x71_u8, 0x56_u8, 0xc8_u8,
0x79_u8, 0x09_u8, 0x96_u8, 0xb2_u8, 0x0f_u8, 0x06_u8, 0xbc_u8, 0x53_u8, 0x5e_u8,
0x5a_u8, 0xb5_u8, 0x44_u8, 0x0d_u8, 0xf7_u8, 0xe8_u8, 0x78_u8, 0x29_u8, 0x6f_u8,
0xa7_u8,
][..]
);
super::pbkdf2_hmac(
b"passwordPASSWORDpassword",
b"salt\0\0\0",
50,
MessageDigest::sha512(),
&mut buf,
)
.unwrap();
assert_eq!(
&buf[..],
&[
0x01_u8, 0x68_u8, 0x71_u8, 0xa4_u8, 0xc4_u8, 0xb7_u8, 0x5f_u8, 0x96_u8, 0x85_u8,
0x7f_u8, 0xd2_u8, 0xb9_u8, 0xf8_u8, 0xca_u8, 0x28_u8, 0x02_u8, 0x3b_u8, 0x30_u8,
0xee_u8, 0x2a_u8, 0x39_u8, 0xf5_u8, 0xad_u8, 0xca_u8, 0xc8_u8, 0xc9_u8, 0x37_u8,
0x5f_u8, 0x9b_u8, 0xda_u8, 0x1c_u8, 0xcd_u8, 0x1b_u8, 0x6f_u8, 0x0b_u8, 0x2f_u8,
0xc3_u8, 0xad_u8, 0xda_u8, 0x50_u8, 0x54_u8, 0x12_u8, 0xe7_u8, 0x9d_u8, 0x89_u8,
0x00_u8, 0x56_u8, 0xc6_u8, 0x2e_u8, 0x52_u8, 0x4c_u8, 0x7d_u8, 0x51_u8, 0x15_u8,
0x4b_u8, 0x1a_u8, 0x85_u8, 0x34_u8, 0x57_u8, 0x5b_u8, 0xd0_u8, 0x2d_u8, 0xee_u8,
0x39_u8,
][..]
);
}
#[test]
fn bytes_to_key() {
let salt = [16_u8, 34_u8, 19_u8, 23_u8, 141_u8, 4_u8, 207_u8, 221_u8];
let data = [
143_u8, 210_u8, 75_u8, 63_u8, 214_u8, 179_u8, 155_u8, 241_u8, 242_u8, 31_u8, 154_u8,
56_u8, 198_u8, 145_u8, 192_u8, 64_u8, 2_u8, 245_u8, 167_u8, 220_u8, 55_u8, 119_u8,
233_u8, 136_u8, 139_u8, 27_u8, 71_u8, 242_u8, 119_u8, 175_u8, 65_u8, 207_u8,
];
let expected_key = vec![
249_u8, 115_u8, 114_u8, 97_u8, 32_u8, 213_u8, 165_u8, 146_u8, 58_u8, 87_u8, 234_u8,
3_u8, 43_u8, 250_u8, 97_u8, 114_u8, 26_u8, 98_u8, 245_u8, 246_u8, 238_u8, 177_u8,
229_u8, 161_u8, 183_u8, 224_u8, 174_u8, 3_u8, 6_u8, 244_u8, 236_u8, 255_u8,
];
let expected_iv = vec![
4_u8, 223_u8, 153_u8, 219_u8, 28_u8, 142_u8, 234_u8, 68_u8, 227_u8, 69_u8, 98_u8,
107_u8, 208_u8, 14_u8, 236_u8, 60_u8,
];
assert_eq!(
super::bytes_to_key(
Cipher::aes_256_cbc(),
MessageDigest::sha1(),
&data,
Some(&salt),
1,
)
.unwrap(),
super::KeyIvPair {
key: expected_key,
iv: Some(expected_iv),
}
);
}
#[test]
#[cfg(any(ossl110))]
fn scrypt() {
let pass = "pleaseletmein";
let salt = "SodiumChloride";
let expected =
"7023bdcb3afd7348461c06cd81fd38ebfda8fbba904f8e3ea9b543f6545da1f2d5432955613\
f0fcf62d49705242a9af9e61e85dc0d651e40dfcf017b45575887";
let mut actual = [0; 64];
super::scrypt(
pass.as_bytes(),
salt.as_bytes(),
16384,
8,
1,
0,
&mut actual,
)
.unwrap();
assert_eq!(hex::encode(&actual[..]), expected);
}
}