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use super::*;
use crate::signatures::SignatureSecretKey;
use crate::{AlgorithmType, CryptoCtx};
#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum SecretKeyEncoding {
Raw,
Pkcs8,
Pem,
Sec,
CompressedSec,
Local,
}
#[derive(Clone)]
pub enum SecretKey {
Signature(SignatureSecretKey),
KeyExchange(KxSecretKey),
}
impl SecretKey {
pub(crate) fn into_signature_secret_key(self) -> Result<SignatureSecretKey, CryptoError> {
match self {
SecretKey::Signature(sk) => Ok(sk),
_ => bail!(CryptoError::InvalidHandle),
}
}
pub(crate) fn into_kx_secret_key(self) -> Result<KxSecretKey, CryptoError> {
match self {
SecretKey::KeyExchange(sk) => Ok(sk),
_ => bail!(CryptoError::InvalidHandle),
}
}
fn import(
_alg_type: AlgorithmType,
_alg_str: &str,
_encoded: &[u8],
_encoding: SecretKeyEncoding,
) -> Result<SecretKey, CryptoError> {
bail!(CryptoError::NotImplemented)
}
fn export(&self, encoding: SecretKeyEncoding) -> Result<Vec<u8>, CryptoError> {
match self {
SecretKey::Signature(sk) => Ok(sk.export(encoding)?),
SecretKey::KeyExchange(sk) => Ok(sk.export(encoding)?),
}
}
pub fn publickey(&self) -> Result<PublicKey, CryptoError> {
match self {
SecretKey::Signature(sk) => Ok(PublicKey::Signature(sk.publickey()?)),
SecretKey::KeyExchange(sk) => Ok(PublicKey::KeyExchange(sk.publickey()?)),
}
}
}
impl CryptoCtx {
pub fn secretkey_import(
&self,
alg_type: AlgorithmType,
alg_str: &str,
encoded: &[u8],
encoding: SecretKeyEncoding,
) -> Result<Handle, CryptoError> {
let sk = SecretKey::import(alg_type, alg_str, encoded, encoding)?;
let handle = self.handles.secretkey.register(sk)?;
Ok(handle)
}
pub fn secretkey_export(
&self,
sk_handle: Handle,
encoding: SecretKeyEncoding,
) -> Result<Handle, CryptoError> {
let sk = self.handles.secretkey.get(sk_handle)?;
let encoded = sk.export(encoding)?;
let array_output_handle = ArrayOutput::register(&self.handles, encoded)?;
Ok(array_output_handle)
}
pub fn publickey(&self, sk_handle: Handle) -> Result<Handle, CryptoError> {
let sk = self.handles.secretkey.get(sk_handle)?;
let pk = sk.publickey()?;
let handle = self.handles.publickey.register(pk)?;
Ok(handle)
}
pub fn secretkey_close(&self, sk: Handle) -> Result<(), CryptoError> {
self.handles.secretkey.close(sk)
}
}