extern crate bitcoin_hashes; extern crate cashweb_secp256k1; use bitcoin_hashes::{sha256, Hash}; use cashweb_secp256k1::{ Error, Message, PublicKey, Secp256k1, SecretKey, Signature, Signing, Verification, }; fn verify( secp: &Secp256k1, msg: &[u8], sig: [u8; 64], pubkey: [u8; 33], ) -> Result { let msg = sha256::Hash::hash(msg); let msg = Message::from_slice(&msg)?; let sig = Signature::from_compact(&sig)?; let pubkey = PublicKey::from_slice(&pubkey)?; Ok(secp.verify(&msg, &sig, &pubkey).is_ok()) } fn sign(secp: &Secp256k1, msg: &[u8], seckey: [u8; 32]) -> Result { let msg = sha256::Hash::hash(msg); let msg = Message::from_slice(&msg)?; let seckey = SecretKey::from_slice(&seckey)?; Ok(secp.sign(&msg, &seckey)) } fn main() { let secp = Secp256k1::new(); let seckey = [ 59, 148, 11, 85, 134, 130, 61, 253, 2, 174, 59, 70, 27, 180, 51, 107, 94, 203, 174, 253, 102, 39, 170, 146, 46, 252, 4, 143, 236, 12, 136, 28, ]; let pubkey = [ 2, 29, 21, 35, 7, 198, 183, 43, 14, 208, 65, 139, 14, 112, 205, 128, 231, 245, 41, 91, 141, 134, 245, 114, 45, 63, 82, 19, 251, 210, 57, 79, 54, ]; let msg = b"This is some message"; let signature = sign(&secp, msg, seckey).unwrap(); let serialize_sig = signature.serialize_compact(); assert!(verify(&secp, msg, serialize_sig, pubkey).unwrap()); }