diff options
Diffstat (limited to 'openssl/src/crypto/pkcs5.rs')
| -rw-r--r-- | openssl/src/crypto/pkcs5.rs | 245 |
1 files changed, 0 insertions, 245 deletions
diff --git a/openssl/src/crypto/pkcs5.rs b/openssl/src/crypto/pkcs5.rs deleted file mode 100644 index ef84fbe1..00000000 --- a/openssl/src/crypto/pkcs5.rs +++ /dev/null @@ -1,245 +0,0 @@ -use libc::c_int; -use std::ptr; -use ffi; - -use HashTypeInternals; -use crypto::hash; -use crypto::symm; -use error::ErrorStack; - -#[derive(Clone, Eq, PartialEq, Hash, Debug)] -pub struct KeyIvPair { - pub key: Vec<u8>, - pub iv: Vec<u8>, -} - -/// Derives a key and an IV from various parameters. -/// -/// If specified `salt` must be 8 bytes in length. -/// -/// If the total key and IV length is less than 16 bytes and MD5 is used then -/// the algorithm is compatible with the key derivation algorithm from PKCS#5 -/// v1.5 or PBKDF1 from PKCS#5 v2.0. -/// -/// New applications should not use this and instead use `pbkdf2_hmac_sha1` or -/// another more modern key derivation algorithm. -pub fn evp_bytes_to_key_pbkdf1_compatible(typ: symm::Type, - message_digest_type: hash::Type, - data: &[u8], - salt: Option<&[u8]>, - count: u32) - -> Result<KeyIvPair, ErrorStack> { - unsafe { - 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 typ = typ.as_ptr(); - let message_digest_type = message_digest_type.evp_md(); - - let len = ffi::EVP_BytesToKey(typ, - message_digest_type, - salt_ptr, - data.as_ptr(), - data.len() as c_int, - count as c_int, - ptr::null_mut(), - ptr::null_mut()); - if len == 0 { - return Err(ErrorStack::get()); - } - - let mut key = vec![0; len as usize]; - let mut iv = vec![0; len as usize]; - - try_ssl!(ffi::EVP_BytesToKey(typ, - message_digest_type, - salt_ptr, - data.as_ptr(), - data.len() as c_int, - count as c_int, - key.as_mut_ptr(), - iv.as_mut_ptr())); - - Ok(KeyIvPair { key: key, iv: iv }) - } -} - -/// Derives a key from a password and salt using the PBKDF2-HMAC-SHA1 algorithm. -pub fn pbkdf2_hmac_sha1(pass: &[u8], - salt: &[u8], - iter: usize, - keylen: usize) - -> Result<Vec<u8>, ErrorStack> { - unsafe { - let mut out = vec![0; keylen]; - - ffi::init(); - - try_ssl!(ffi::PKCS5_PBKDF2_HMAC_SHA1(pass.as_ptr(), - pass.len() as c_int, - salt.as_ptr(), - salt.len() as c_int, - iter as c_int, - keylen as c_int, - out.as_mut_ptr())); - Ok(out) - } -} - -/// Derives a key from a password and salt using the PBKDF2-HMAC algorithm with a digest function. -#[cfg(feature = "pkcs5_pbkdf2_hmac")] -pub fn pbkdf2_hmac(pass: &[u8], - salt: &[u8], - iter: usize, - hash: hash::Type, - keylen: usize) - -> Result<Vec<u8>, ErrorStack> { - unsafe { - let mut out = vec![0; keylen]; - ffi::init(); - try_ssl!(ffi::PKCS5_PBKDF2_HMAC(pass.as_ptr(), - pass.len() as c_int, - salt.as_ptr(), - salt.len() as c_int, - iter as c_int, - hash.evp_md(), - keylen as c_int, - out.as_mut_ptr())); - Ok(out) - } -} - -#[cfg(test)] -mod tests { - use crypto::hash; - use crypto::symm; - - // Test vectors from - // http://tools.ietf.org/html/draft-josefsson-pbkdf2-test-vectors-06 - #[test] - fn test_pbkdf2_hmac_sha1() { - assert_eq!(super::pbkdf2_hmac_sha1(b"password", b"salt", 1, 20).unwrap(), - vec![0x0c_u8, 0x60_u8, 0xc8_u8, 0x0f_u8, 0x96_u8, 0x1f_u8, 0x0e_u8, 0x71_u8, - 0xf3_u8, 0xa9_u8, 0xb5_u8, 0x24_u8, 0xaf_u8, 0x60_u8, 0x12_u8, 0x06_u8, - 0x2f_u8, 0xe0_u8, 0x37_u8, 0xa6_u8]); - - assert_eq!(super::pbkdf2_hmac_sha1(b"password", b"salt", 2, 20).unwrap(), - vec![0xea_u8, 0x6c_u8, 0x01_u8, 0x4d_u8, 0xc7_u8, 0x2d_u8, 0x6f_u8, 0x8c_u8, - 0xcd_u8, 0x1e_u8, 0xd9_u8, 0x2a_u8, 0xce_u8, 0x1d_u8, 0x41_u8, 0xf0_u8, - 0xd8_u8, 0xde_u8, 0x89_u8, 0x57_u8]); - - assert_eq!(super::pbkdf2_hmac_sha1(b"password", b"salt", 4096, 20).unwrap(), - vec![0x4b_u8, 0x00_u8, 0x79_u8, 0x01_u8, 0xb7_u8, 0x65_u8, 0x48_u8, 0x9a_u8, - 0xbe_u8, 0xad_u8, 0x49_u8, 0xd9_u8, 0x26_u8, 0xf7_u8, 0x21_u8, 0xd0_u8, - 0x65_u8, 0xa4_u8, 0x29_u8, 0xc1_u8]); - - assert_eq!(super::pbkdf2_hmac_sha1(b"password", b"salt", 16777216, 20).unwrap(), - vec![0xee_u8, 0xfe_u8, 0x3d_u8, 0x61_u8, 0xcd_u8, 0x4d_u8, 0xa4_u8, 0xe4_u8, - 0xe9_u8, 0x94_u8, 0x5b_u8, 0x3d_u8, 0x6b_u8, 0xa2_u8, 0x15_u8, 0x8c_u8, - 0x26_u8, 0x34_u8, 0xe9_u8, 0x84_u8]); - - assert_eq!(super::pbkdf2_hmac_sha1(b"passwordPASSWORDpassword", - b"saltSALTsaltSALTsaltSALTsaltSALTsalt", - 4096, - 25).unwrap(), - vec![0x3d_u8, 0x2e_u8, 0xec_u8, 0x4f_u8, 0xe4_u8, 0x1c_u8, 0x84_u8, 0x9b_u8, - 0x80_u8, 0xc8_u8, 0xd8_u8, 0x36_u8, 0x62_u8, 0xc0_u8, 0xe4_u8, 0x4a_u8, - 0x8b_u8, 0x29_u8, 0x1a_u8, 0x96_u8, 0x4c_u8, 0xf2_u8, 0xf0_u8, 0x70_u8, - 0x38_u8]); - - assert_eq!(super::pbkdf2_hmac_sha1(b"pass\x00word", b"sa\x00lt", 4096, 16).unwrap(), - vec![0x56_u8, 0xfa_u8, 0x6a_u8, 0xa7_u8, 0x55_u8, 0x48_u8, 0x09_u8, 0x9d_u8, - 0xcc_u8, 0x37_u8, 0xd7_u8, 0xf0_u8, 0x34_u8, 0x25_u8, 0xe0_u8, 0xc3_u8]); - } - - // Test vectors from - // https://git.lysator.liu.se/nettle/nettle/blob/nettle_3.1.1_release_20150424/testsuite/pbkdf2-test.c - #[test] - #[cfg(feature = "pkcs5_pbkdf2_hmac")] - fn test_pbkdf2_hmac_sha256() { - assert_eq!(super::pbkdf2_hmac(b"passwd", b"salt", 1, hash::Type::SHA256, 16).unwrap(), - vec![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]); - - assert_eq!(super::pbkdf2_hmac(b"Password", b"NaCl", 80000, hash::Type::SHA256, 16).unwrap(), - vec![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 vectors from - // https://git.lysator.liu.se/nettle/nettle/blob/nettle_3.1.1_release_20150424/testsuite/pbkdf2-test.c - #[test] - #[cfg(feature = "pkcs5_pbkdf2_hmac")] - fn test_pbkdf2_hmac_sha512() { - assert_eq!(super::pbkdf2_hmac(b"password", b"NaCL", 1, hash::Type::SHA512, 64).unwrap(), - vec![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]); - - assert_eq!(super::pbkdf2_hmac(b"pass\0word", b"sa\0lt", 1, hash::Type::SHA512, 64).unwrap(), - vec![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]); - - assert_eq!(super::pbkdf2_hmac(b"passwordPASSWORDpassword", - b"salt\0\0\0", - 50, - hash::Type::SHA512, - 64).unwrap(), - vec![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 test_evp_bytes_to_key_pbkdf1_compatible() { - 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, 0_u8, 0_u8, - 0_u8, 0_u8, 0_u8, 0_u8, 0_u8, 0_u8, 0_u8, 0_u8, 0_u8, 0_u8, 0_u8, - 0_u8, 0_u8, 0_u8]; - - assert_eq!(super::evp_bytes_to_key_pbkdf1_compatible(symm::Type::AES_256_CBC, - hash::Type::SHA1, - &data, - Some(&salt), - 1).unwrap(), - super::KeyIvPair { - key: expected_key, - iv: expected_iv, - }); - } -} |