diff options
| author | Steven Fackler <[email protected]> | 2016-05-16 23:04:10 -0700 |
|---|---|---|
| committer | Steven Fackler <[email protected]> | 2016-05-16 23:04:10 -0700 |
| commit | 163a3413ee68e4279f869734a8f470882a7e602d (patch) | |
| tree | 79dac1073e45efcc708d7c52bff68aa249e8c681 /openssl/src/crypto/rsa.rs | |
| parent | Merge branch 'release-v0.7.11' into release (diff) | |
| parent | Release v0.7.12 (diff) | |
| download | rust-openssl-0.7.12.tar.xz rust-openssl-0.7.12.zip | |
Merge branch 'release-v0.7.12' into releasev0.7.12
Diffstat (limited to 'openssl/src/crypto/rsa.rs')
| -rw-r--r-- | openssl/src/crypto/rsa.rs | 207 |
1 files changed, 183 insertions, 24 deletions
diff --git a/openssl/src/crypto/rsa.rs b/openssl/src/crypto/rsa.rs index 6fcb5b07..52b8590e 100644 --- a/openssl/src/crypto/rsa.rs +++ b/openssl/src/crypto/rsa.rs @@ -2,10 +2,13 @@ use ffi; use std::fmt; use ssl::error::{SslError, StreamError}; use std::ptr; -use std::io::{self, Read}; +use std::io::{self, Read, Write}; +use libc::c_int; use bn::BigNum; use bio::MemBio; +use crypto::HashTypeInternals; +use crypto::hash; pub struct RSA(*mut ffi::RSA); @@ -29,6 +32,29 @@ impl RSA { } } + pub fn from_private_components(n: BigNum, + e: BigNum, + d: BigNum, + p: BigNum, + q: BigNum, + dp: BigNum, + dq: BigNum, + qi: BigNum) + -> Result<RSA, SslError> { + unsafe { + let rsa = try_ssl_null!(ffi::RSA_new()); + (*rsa).n = n.into_raw(); + (*rsa).e = e.into_raw(); + (*rsa).d = d.into_raw(); + (*rsa).p = p.into_raw(); + (*rsa).q = q.into_raw(); + (*rsa).dmp1 = dp.into_raw(); + (*rsa).dmq1 = dq.into_raw(); + (*rsa).iqmp = qi.into_raw(); + Ok(RSA(rsa)) + } + } + /// the caller should assert that the rsa pointer is valid. pub unsafe fn from_raw(rsa: *mut ffi::RSA) -> RSA { RSA(rsa) @@ -36,7 +62,7 @@ impl RSA { /// Reads an RSA private key from PEM formatted data. pub fn private_key_from_pem<R>(reader: &mut R) -> Result<RSA, SslError> - where R: Read + where R: Read { let mut mem_bio = try!(MemBio::new()); try!(io::copy(reader, &mut mem_bio).map_err(StreamError)); @@ -50,9 +76,34 @@ impl RSA { } } + /// Writes an RSA private key as unencrypted PEM formatted data + pub fn private_key_to_pem<W>(&self, writer: &mut W) -> Result<(), SslError> + where W: Write + { + let mut mem_bio = try!(MemBio::new()); + + let result = unsafe { + ffi::PEM_write_bio_RSAPrivateKey(mem_bio.get_handle(), + self.0, + ptr::null(), + ptr::null_mut(), + 0, + None, + ptr::null_mut()) + }; + + if result == 1 { + try!(io::copy(&mut mem_bio, writer).map_err(StreamError)); + + Ok(()) + } else { + Err(SslError::OpenSslErrors(vec![])) + } + } + /// Reads an RSA public key from PEM formatted data. pub fn public_key_from_pem<R>(reader: &mut R) -> Result<RSA, SslError> - where R: Read + where R: Read { let mut mem_bio = try!(MemBio::new()); try!(io::copy(reader, &mut mem_bio).map_err(StreamError)); @@ -66,51 +117,97 @@ impl RSA { } } + /// Writes an RSA public key as PEM formatted data + pub fn public_key_to_pem<W>(&self, writer: &mut W) -> Result<(), SslError> + where W: Write + { + let mut mem_bio = try!(MemBio::new()); + + let result = unsafe { ffi::PEM_write_bio_RSA_PUBKEY(mem_bio.get_handle(), self.0) }; + + if result == 1 { + try!(io::copy(&mut mem_bio, writer).map_err(StreamError)); + + Ok(()) + } else { + Err(SslError::OpenSslErrors(vec![])) + } + } + + pub fn size(&self) -> Result<u32, SslError> { + if self.has_n() { + unsafe { Ok(ffi::RSA_size(self.0) as u32) } + } else { + Err(SslError::OpenSslErrors(vec![])) + } + } + + pub fn sign(&self, hash: hash::Type, message: &[u8]) -> Result<Vec<u8>, SslError> { + let k_len = try!(self.size()); + let mut sig = vec![0;k_len as usize]; + let mut sig_len = k_len; + + unsafe { + let result = ffi::RSA_sign(hash.as_nid() as c_int, + message.as_ptr(), + message.len() as u32, + sig.as_mut_ptr(), + &mut sig_len, + self.0); + assert!(sig_len == k_len); + + if result == 1 { + Ok(sig) + } else { + Err(SslError::OpenSslErrors(vec![])) + } + } + } + + pub fn verify(&self, hash: hash::Type, message: &[u8], sig: &[u8]) -> Result<bool, SslError> { + unsafe { + let result = ffi::RSA_verify(hash.as_nid() as c_int, + message.as_ptr(), + message.len() as u32, + sig.as_ptr(), + sig.len() as u32, + self.0); + + Ok(result == 1) + } + } + pub fn as_ptr(&self) -> *mut ffi::RSA { self.0 } // The following getters are unsafe, since BigNum::new_from_ffi fails upon null pointers pub fn n(&self) -> Result<BigNum, SslError> { - unsafe { - BigNum::new_from_ffi((*self.0).n) - } + unsafe { BigNum::new_from_ffi((*self.0).n) } } pub fn has_n(&self) -> bool { - unsafe { - !(*self.0).n.is_null() - } + unsafe { !(*self.0).n.is_null() } } pub fn d(&self) -> Result<BigNum, SslError> { - unsafe { - BigNum::new_from_ffi((*self.0).d) - } + unsafe { BigNum::new_from_ffi((*self.0).d) } } pub fn e(&self) -> Result<BigNum, SslError> { - unsafe { - BigNum::new_from_ffi((*self.0).e) - } + unsafe { BigNum::new_from_ffi((*self.0).e) } } pub fn has_e(&self) -> bool { - unsafe { - !(*self.0).e.is_null() - } + unsafe { !(*self.0).e.is_null() } } pub fn p(&self) -> Result<BigNum, SslError> { - unsafe { - BigNum::new_from_ffi((*self.0).p) - } + unsafe { BigNum::new_from_ffi((*self.0).p) } } pub fn q(&self) -> Result<BigNum, SslError> { - unsafe { - BigNum::new_from_ffi((*self.0).q) - } + unsafe { BigNum::new_from_ffi((*self.0).q) } } } @@ -119,3 +216,65 @@ impl fmt::Debug for RSA { write!(f, "RSA") } } + +#[cfg(test)] +mod test { + use std::fs::File; + use std::io::Write; + use super::*; + use crypto::hash::*; + + fn signing_input_rs256() -> Vec<u8> { + vec![101, 121, 74, 104, 98, 71, 99, 105, 79, 105, 74, 83, 85, 122, 73, 49, 78, 105, 74, 57, + 46, 101, 121, 74, 112, 99, 51, 77, 105, 79, 105, 74, 113, 98, 50, 85, 105, 76, 65, 48, + 75, 73, 67, 74, 108, 101, 72, 65, 105, 79, 106, 69, 122, 77, 68, 65, 52, 77, 84, 107, + 122, 79, 68, 65, 115, 68, 81, 111, 103, 73, 109, 104, 48, 100, 72, 65, 54, 76, 121, + 57, 108, 101, 71, 70, 116, 99, 71, 120, 108, 76, 109, 78, 118, 98, 83, 57, 112, 99, + 49, 57, 121, 98, 50, 57, 48, 73, 106, 112, 48, 99, 110, 86, 108, 102, 81] + } + + fn signature_rs256() -> Vec<u8> { + vec![112, 46, 33, 137, 67, 232, 143, 209, 30, 181, 216, 45, 191, 120, 69, 243, 65, 6, 174, + 27, 129, 255, 247, 115, 17, 22, 173, 209, 113, 125, 131, 101, 109, 66, 10, 253, 60, + 150, 238, 221, 115, 162, 102, 62, 81, 102, 104, 123, 0, 11, 135, 34, 110, 1, 135, 237, + 16, 115, 249, 69, 229, 130, 173, 252, 239, 22, 216, 90, 121, 142, 232, 198, 109, 219, + 61, 184, 151, 91, 23, 208, 148, 2, 190, 237, 213, 217, 217, 112, 7, 16, 141, 178, 129, + 96, 213, 248, 4, 12, 167, 68, 87, 98, 184, 31, 190, 127, 249, 217, 46, 10, 231, 111, + 36, 242, 91, 51, 187, 230, 244, 74, 230, 30, 177, 4, 10, 203, 32, 4, 77, 62, 249, 18, + 142, 212, 1, 48, 121, 91, 212, 189, 59, 65, 238, 202, 208, 102, 171, 101, 25, 129, + 253, 228, 141, 247, 127, 55, 45, 195, 139, 159, 175, 221, 59, 239, 177, 139, 93, 163, + 204, 60, 46, 176, 47, 158, 58, 65, 214, 18, 202, 173, 21, 145, 18, 115, 160, 95, 35, + 185, 232, 56, 250, 175, 132, 157, 105, 132, 41, 239, 90, 30, 136, 121, 130, 54, 195, + 212, 14, 96, 69, 34, 165, 68, 200, 242, 122, 122, 45, 184, 6, 99, 209, 108, 247, 202, + 234, 86, 222, 64, 92, 178, 33, 90, 69, 178, 194, 85, 102, 181, 90, 193, 167, 72, 160, + 112, 223, 200, 163, 42, 70, 149, 67, 208, 25, 238, 251, 71] + } + + #[test] + pub fn test_sign() { + let mut buffer = File::open("test/rsa.pem").unwrap(); + let private_key = RSA::private_key_from_pem(&mut buffer).unwrap(); + + let mut sha = Hasher::new(Type::SHA256); + sha.write_all(&signing_input_rs256()).unwrap(); + let digest = sha.finish(); + + let result = private_key.sign(Type::SHA256, &digest).unwrap(); + + assert_eq!(result, signature_rs256()); + } + + #[test] + pub fn test_verify() { + let mut buffer = File::open("test/rsa.pem.pub").unwrap(); + let public_key = RSA::public_key_from_pem(&mut buffer).unwrap(); + + let mut sha = Hasher::new(Type::SHA256); + sha.write_all(&signing_input_rs256()).unwrap(); + let digest = sha.finish(); + + let result = public_key.verify(Type::SHA256, &digest, &signature_rs256()).unwrap(); + + assert!(result); + } +} |