Remove error return from `PublicKey::from_secret_key()`

Make sure that you cannot create an invalid `SecretKey` in the first place. Unbreaks the API. [unbreaking-change]
2014-08-28 11:11:25 -07:00 · 2014-08-28 11:11:25 -07:00 · 15b8183ea8
parent a67260eb3a
commit 15b8183ea8
2 changed files with 18 additions and 17 deletions
--- a/src/key.rs
+++ b/src/key.rs
@ -76,6 +76,12 @@ impl SecretKey {
    /// Creates a new random secret key
    #[inline]
    pub fn new<R:Rng>(rng: &mut R) -> SecretKey {
+        let mut data = random_32_bytes(rng);
+        unsafe {
+            while ffi::secp256k1_ecdsa_seckey_verify(data.as_ptr()) == 0 {
+                data = random_32_bytes(rng);
+            }
+        }
        SecretKey(random_32_bytes(rng))
    }

@ -129,21 +135,21 @@ impl PublicKey {

    /// Creates a new public key from a secret key.
    #[inline]
-    pub fn from_secret_key(sk: &SecretKey, compressed: bool) -> Result<PublicKey> {
+    pub fn from_secret_key(sk: &SecretKey, compressed: bool) -> PublicKey {
        let mut pk = PublicKey::new(compressed);
        let compressed = if compressed {1} else {0};
        let mut len = 0;

        init();
        unsafe {
-            if ffi::secp256k1_ecdsa_pubkey_create(
+            // We can assume the return value because it's not possible to construct
+            // an invalid `SecretKey` without transmute trickery or something
+            assert_eq!(ffi::secp256k1_ecdsa_pubkey_create(
                pk.as_mut_ptr(), &mut len,
-                sk.as_ptr(), compressed) != 1 {
-                return Err(InvalidSecretKey);
-            }
+                sk.as_ptr(), compressed), 1);
        }
        assert_eq!(len as uint, pk.len()); 
-        Ok(pk)
+        pk
    }

    /// Creates a public key directly from a slice
@ -363,15 +369,15 @@ mod test {
        let (mut sk1, mut pk1) = s.generate_keypair(true).unwrap();
        let (mut sk2, mut pk2) = s.generate_keypair(true).unwrap();

-        assert_eq!(PublicKey::from_secret_key(&sk1, true), Ok(pk1));
+        assert_eq!(PublicKey::from_secret_key(&sk1, true), pk1);
        assert!(sk1.add_assign(&sk2).is_ok());
        assert!(pk1.add_exp_assign(&sk2).is_ok());
-        assert_eq!(PublicKey::from_secret_key(&sk1, true), Ok(pk1));
+        assert_eq!(PublicKey::from_secret_key(&sk1, true), pk1);

-        assert_eq!(PublicKey::from_secret_key(&sk2, true), Ok(pk2));
+        assert_eq!(PublicKey::from_secret_key(&sk2, true), pk2);
        assert!(sk2.add_assign(&sk1).is_ok());
        assert!(pk2.add_exp_assign(&sk1).is_ok());
-        assert_eq!(PublicKey::from_secret_key(&sk2, true), Ok(pk2));
+        assert_eq!(PublicKey::from_secret_key(&sk2, true), pk2);
    }
 }

--- a/src/secp256k1.rs
+++ b/src/secp256k1.rs
@ -136,13 +136,8 @@ impl Secp256k1 {
                            -> Result<(key::SecretKey, key::PublicKey)> {
        match self.rng {
            Ok(ref mut rng) => {
-                let mut sk = key::SecretKey::new(rng);
-                let mut pk = key::PublicKey::from_secret_key(&sk, compressed);
-                while pk.is_err() {
-                    sk = key::SecretKey::new(rng);
-                    pk = key::PublicKey::from_secret_key(&sk, compressed);
-                }
-                Ok((sk, pk.unwrap()))
+                let sk = key::SecretKey::new(rng);
+                Ok((sk, key::PublicKey::from_secret_key(&sk, compressed)))
            }
            Err(ref e) => Err(RngError(e.clone()))
        }