package babyjub import ( "bytes" "crypto" "io" "math/big" ) // BjjWrappedPublicKey is a wrapper for PublicKey. type BjjWrappedPublicKey struct { pubKey *PublicKey } // Equal returns true if the public keys are equal. func (pub *BjjWrappedPublicKey) Equal(x crypto.PublicKey) bool { var xk *BjjWrappedPublicKey switch x := x.(type) { case BjjWrappedPublicKey: xk = &x case *BjjWrappedPublicKey: xk = x default: return false } return pub.pubKey.X.Cmp(xk.pubKey.X) == 0 && pub.pubKey.Y.Cmp(xk.pubKey.Y) == 0 } // BjjWrappedPrivateKey is a wrapper for PrivateKey. type BjjWrappedPrivateKey struct { privKey *PrivateKey } // NewBjjWrappedKey creates a new BjjWrappedPrivateKey. func NewBjjWrappedKey(privKey *PrivateKey) *BjjWrappedPrivateKey { return &BjjWrappedPrivateKey{privKey} } // RandomBjjWrappedKey creates a new BjjWrappedPrivateKey with a random private key. func RandomBjjWrappedKey() *BjjWrappedPrivateKey { privKey := NewRandPrivKey() return NewBjjWrappedKey(&privKey) } // Public returns the public key of the private key. func (w *BjjWrappedPrivateKey) Public() crypto.PublicKey { return &BjjWrappedPublicKey{w.privKey.Public()} } // Sign signs the digest with the private key. func (w *BjjWrappedPrivateKey) Sign(rand io.Reader, digest []byte, opts crypto.SignerOpts) ([]byte, error) { hash := opts.HashFunc() switch hash { // alredy hashed case crypto.Hash(0): default: hasher := hash.New() hasher.Write(digest) digest = hasher.Sum(nil) } digestBI := big.NewInt(0).SetBytes(digest) sig := w.privKey.SignPoseidon(digestBI) return sig.Compress().MarshalText() } // Equal returns true if the private keys are equal. func (w *BjjWrappedPrivateKey) Equal(x crypto.PrivateKey) bool { var xk *BjjWrappedPrivateKey switch x := x.(type) { case BjjWrappedPrivateKey: xk = &x case *BjjWrappedPrivateKey: xk = x default: return false } return bytes.Equal(w.privKey[:], xk.privKey[:]) }