104 lines
2.8 KiB
Rust
104 lines
2.8 KiB
Rust
use Result;
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use ring::rand;
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use ring::signature::{self,Ed25519KeyPair,ED25519_PUBLIC_KEY_LEN,ED25519_PKCS8_V2_LEN};
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use untrusted::Input;
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use rustc_serialize::hex::{FromHex,ToHex};
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///
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/// Keys for signing or verifying signatures. Small convenience
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/// wrapper around `ring/ed25519`.
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///
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///
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pub struct PublicKey([u8; ED25519_PUBLIC_KEY_LEN]);
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pub struct KeyPair([u8; ED25519_PKCS8_V2_LEN]);
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pub struct Signature(signature::Signature);
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impl PublicKey {
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pub fn from_hex(hex: &str) -> Result<PublicKey> {
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let bytes = hex.from_hex()?;
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if bytes.len() != ED25519_PUBLIC_KEY_LEN {
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bail!("Hex encoded public key has invalid length: {}", bytes.len());
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}
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Ok(PublicKey::from_bytes(&bytes))
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}
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pub fn to_hex(&self) -> String {
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self.0.to_hex()
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}
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fn from_bytes(bytes: &[u8]) -> PublicKey {
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let mut key = [0u8; ED25519_PUBLIC_KEY_LEN];
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key.copy_from_slice(bytes);
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PublicKey(key)
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}
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pub fn verify(&self, data: &[u8], signature: &[u8]) -> bool {
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let signature = Input::from(signature);
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let data = Input::from(data);
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let pubkey = Input::from(&self.0);
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match signature::verify(&signature::ED25519, pubkey, data, signature) {
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Ok(()) => true,
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Err(_) => false,
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}
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}
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}
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impl KeyPair {
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/// Generate a new pair of signing/verifying keys using
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/// the system random number generator. The resulting
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/// `Ed25519KeyPair` can be extracted in an ascii
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/// hex encoded pkcs#8 format for storage in configuration files
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/// with the `to_hex()` method.
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pub fn generate() -> Result<KeyPair> {
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let rng = rand::SystemRandom::new();
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let bytes = Ed25519KeyPair::generate_pkcs8(&rng)?;
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KeyPair::from_bytes(&bytes)
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}
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pub fn from_hex(hex: &str) -> Result<KeyPair> {
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KeyPair::from_bytes(&hex.from_hex()?)
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}
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fn from_bytes(bytes: &[u8]) -> Result<KeyPair> {
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let mut pair = [0u8; ED25519_PKCS8_V2_LEN];
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pair.copy_from_slice(bytes);
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let _ = Ed25519KeyPair::from_pkcs8(Input::from(&pair))?;
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Ok(KeyPair(pair))
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}
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fn get_keys(&self) -> Ed25519KeyPair {
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Ed25519KeyPair::from_pkcs8(Input::from(&self.0))
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.expect("failed to parse pkcs8 key")
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}
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pub fn public_key(&self) -> PublicKey {
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let keys = self.get_keys();
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PublicKey::from_bytes(keys.public_key_bytes())
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}
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pub fn private_key_hex(&self) -> String {
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self.0.to_hex()
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}
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pub fn sign(&self, data: &[u8]) -> Signature {
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let keys = self.get_keys();
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let signature = keys.sign(data);
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Signature(signature)
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}
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pub fn verify(&self, data: &[u8], signature: &[u8]) -> bool {
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self.public_key().verify(data, signature)
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}
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}
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impl Signature {
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pub fn to_bytes(&self) -> &[u8] {
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self.0.as_ref()
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}
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}
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