Adaptor Signatures
Bitcoin-S now has support for ECDSA Adaptor Signatures.
There are four relevant functions to adaptor signatures:
sign(aka encrypt)- This function belongs to
ECPrivateKeyand creates an adaptor signature given a message (ByteVector) and an adaptor point (ECPublicKey).
- This function belongs to
verify- Verifies an adaptor signature given the signing public key, the message and the adaptor point.
complete(aka decrypt)- This function belongs to
ECPrivateKeyand computes a valid ECDSA signature given a valid adaptor signature whose adaptor point is this private key's public key.
- This function belongs to
extract(aka recover)- This function belongs to
ECPublicKeyand computes the adaptor secret (private key to this public key) given a valid adaptor signature for this adaptor point, and the valid ECDSA signature computed usingcomplete.
- This function belongs to
The following code shows each function to do with adaptor signature usage:
// Alice generages an adaptor signature using her private key and the adaptor point
val adaptorSig = privKey.adaptorSign(adaptorPoint, msg)
// Bob verifies this adaptor signature using Alice's public key and the adaptor point
require(pubKey.adaptorVerify(msg, adaptorPoint, adaptorSig))
// Bob computes a valid ECDSA signature using the adaptorSignature, which he knows
val sig = adaptorSecret.completeAdaptorSignature(adaptorSig)
// Anyone can validate this signature
require(pubKey.verify(msg, sig))
// Alice can compute the adaptor secret from the signatures
val secret = adaptorPoint.extractAdaptorSecret(adaptorSig, sig)
require(secret == adaptorSecret)