// schnorrPartialSign creates a partial Schnorr signature which may be combined
// with other Schnorr signatures to create a valid signature for a group pubkey.
func schnorrPartialSign(curve *secp256k1.KoblitzCurve, msg []byte, priv []byte,
privNonce []byte, pubSum *secp256k1.PublicKey,
hashFunc func([]byte) []byte) (*Signature, error) {
// Sanity checks.
if len(msg) != scalarSize {
str := fmt.Sprintf("wrong size for message (got %v, want %v)",
len(msg), scalarSize)
return nil, schnorrError(ErrBadInputSize, str)
}
if len(priv) != scalarSize {
str := fmt.Sprintf("wrong size for privkey (got %v, want %v)",
len(priv), scalarSize)
return nil, schnorrError(ErrBadInputSize, str)
}
if len(privNonce) != scalarSize {
str := fmt.Sprintf("wrong size for privnonce (got %v, want %v)",
len(privNonce), scalarSize)
return nil, schnorrError(ErrBadInputSize, str)
}
if pubSum == nil {
str := fmt.Sprintf("nil pubkey")
return nil, schnorrError(ErrInputValue, str)
}
privBig := new(big.Int).SetBytes(priv)
if privBig.Cmp(bigZero) == 0 {
str := fmt.Sprintf("priv scalar is zero")
return nil, schnorrError(ErrInputValue, str)
}
if privBig.Cmp(curve.N) >= 0 {
str := fmt.Sprintf("priv scalar is out of bounds")
return nil, schnorrError(ErrInputValue, str)
}
privBig.SetInt64(0)
privNonceBig := new(big.Int).SetBytes(privNonce)
if privNonceBig.Cmp(bigZero) == 0 {
str := fmt.Sprintf("privNonce scalar is zero")
return nil, schnorrError(ErrInputValue, str)
}
if privNonceBig.Cmp(curve.N) >= 0 {
str := fmt.Sprintf("privNonce scalar is out of bounds")
return nil, schnorrError(ErrInputValue, str)
}
privNonceBig.SetInt64(0)
if !curve.IsOnCurve(pubSum.GetX(), pubSum.GetY()) {
str := fmt.Sprintf("public key sum is off curve")
return nil, schnorrError(ErrInputValue, str)
}
return schnorrSign(curve, msg, priv, privNonce, pubSum.GetX(),
pubSum.GetY(), hashFunc)
}
// schnorrVerify is the internal function for verification of a secp256k1
// Schnorr signature. A secure hash function may be passed for the calculation
// of r.
// This is identical to the Schnorr verification function found in libsecp256k1:
// https://github.com/bitcoin/secp256k1/tree/master/src/modules/schnorr
func schnorrVerify(curve *secp256k1.KoblitzCurve, sig []byte,
pubkey *secp256k1.PublicKey, msg []byte, hashFunc func([]byte) []byte) (bool,
error) {
if len(msg) != scalarSize {
str := fmt.Sprintf("wrong size for message (got %v, want %v)",
len(msg), scalarSize)
return false, schnorrError(ErrBadInputSize, str)
}
if len(sig) != SignatureSize {
str := fmt.Sprintf("wrong size for signature (got %v, want %v)",
len(sig), SignatureSize)
return false, schnorrError(ErrBadInputSize, str)
}
if pubkey == nil {
str := fmt.Sprintf("nil pubkey")
return false, schnorrError(ErrInputValue, str)
}
if !curve.IsOnCurve(pubkey.GetX(), pubkey.GetY()) {
str := fmt.Sprintf("pubkey point is not on curve")
return false, schnorrError(ErrPointNotOnCurve, str)
}
sigR := sig[:32]
sigS := sig[32:]
sigRCopy := make([]byte, scalarSize, scalarSize)
copy(sigRCopy, sigR)
toHash := append(sigRCopy, msg...)
h := hashFunc(toHash)
hBig := new(big.Int).SetBytes(h)
// If the hash ends up larger than the order of the curve, abort.
// Same thing for hash == 0 (as unlikely as that is...).
if hBig.Cmp(curve.N) >= 0 {
str := fmt.Sprintf("hash of (R || m) too big")
return false, schnorrError(ErrSchnorrHashValue, str)
}
if hBig.Cmp(bigZero) == 0 {
str := fmt.Sprintf("hash of (R || m) is zero value")
return false, schnorrError(ErrSchnorrHashValue, str)
}
// Convert s to big int.
sBig := EncodedBytesToBigInt(copyBytes(sigS))
// We also can't have s greater than the order of the curve.
if sBig.Cmp(curve.N) >= 0 {
str := fmt.Sprintf("s value is too big")
return false, schnorrError(ErrInputValue, str)
}
// r can't be larger than the curve prime.
rBig := EncodedBytesToBigInt(copyBytes(sigR))
if rBig.Cmp(curve.P) == 1 {
str := fmt.Sprintf("given R was greater than curve prime")
return false, schnorrError(ErrBadSigRNotOnCurve, str)
}
// r' = hQ + sG
lx, ly := curve.ScalarMult(pubkey.GetX(), pubkey.GetY(), h)
rx, ry := curve.ScalarBaseMult(sigS)
rlx, rly := curve.Add(lx, ly, rx, ry)
if rly.Bit(0) == 1 {
str := fmt.Sprintf("calculated R y-value was odd")
return false, schnorrError(ErrBadSigRYValue, str)
}
if !curve.IsOnCurve(rlx, rly) {
str := fmt.Sprintf("calculated R point was not on curve")
return false, schnorrError(ErrBadSigRNotOnCurve, str)
}
rlxB := BigIntToEncodedBytes(rlx)
// r == r' --> valid signature
if !bytes.Equal(sigR, rlxB[:]) {
str := fmt.Sprintf("calculated R point was not given R")
return false, schnorrError(ErrUnequalRValues, str)
}
return true, nil
}
