//! Generate sample, fixed instances of structs for testing. use std::collections::BTreeMap; use frost_core::{round1::Nonce, Ciphersuite, Element, Group, Scalar}; use frost_p256::{ keys::{ dkg::{round1, round2}, KeyPackage, PublicKeyPackage, SecretShare, SigningShare, VerifiableSecretSharingCommitment, VerifyingShare, }, round1::{NonceCommitment, SigningCommitments, SigningNonces}, round2::SignatureShare, Field, Signature, SigningPackage, VerifyingKey, }; type C = frost_p256::P256Sha256; fn element1() -> Element { ::Group::generator() } fn element2() -> Element { element1() + element1() } fn scalar1() -> Scalar { let one = <::Group as Group>::Field::one(); let three = one + one + one; // To return a fixed non-small number, get the inverse of 3 <::Group as Group>::Field::invert(&three) .expect("nonzero elements have inverses") } /// Generate a sample SigningCommitments. pub fn signing_nonces() -> SigningNonces { let serialized_scalar1 = <::Group as Group>::Field::serialize(&scalar1()); let serialized_scalar2 = <::Group as Group>::Field::serialize(&scalar1()); let hiding_nonce = Nonce::deserialize(serialized_scalar1.as_ref()).unwrap(); let binding_nonce = Nonce::deserialize(serialized_scalar2.as_ref()).unwrap(); SigningNonces::from_nonces(hiding_nonce, binding_nonce) } /// Generate a sample SigningCommitments. pub fn signing_commitments() -> SigningCommitments { let serialized_element1 = ::Group::serialize(&element1()).unwrap(); let serialized_element2 = ::Group::serialize(&element2()).unwrap(); let hiding_nonce_commitment = NonceCommitment::deserialize(serialized_element1.as_ref()).unwrap(); let binding_nonce_commitment = NonceCommitment::deserialize(serialized_element2.as_ref()).unwrap(); SigningCommitments::new(hiding_nonce_commitment, binding_nonce_commitment) } /// Generate a sample SigningPackage. pub fn signing_package() -> SigningPackage { let identifier = 42u16.try_into().unwrap(); let commitments = BTreeMap::from([(identifier, signing_commitments())]); let message = "hello world".as_bytes(); SigningPackage::new(commitments, message) } /// Generate a sample SignatureShare. pub fn signature_share() -> SignatureShare { let serialized_scalar = <::Group as Group>::Field::serialize(&scalar1()); SignatureShare::deserialize(serialized_scalar.as_ref()).unwrap() } /// Generate a sample SecretShare. pub fn secret_share() -> SecretShare { let identifier = 42u16.try_into().unwrap(); let serialized_scalar = <::Group as Group>::Field::serialize(&scalar1()); let serialized_element = ::Group::serialize(&element1()).unwrap(); let signing_share = SigningShare::deserialize(serialized_scalar.as_ref()).unwrap(); let vss_commitment = VerifiableSecretSharingCommitment::deserialize(vec![serialized_element]).unwrap(); SecretShare::new(identifier, signing_share, vss_commitment) } /// Generate a sample KeyPackage. pub fn key_package() -> KeyPackage { let identifier = 42u16.try_into().unwrap(); let serialized_scalar = <::Group as Group>::Field::serialize(&scalar1()); let serialized_element = ::Group::serialize(&element1()).unwrap(); let signing_share = SigningShare::deserialize(serialized_scalar.as_ref()).unwrap(); let verifying_share = VerifyingShare::deserialize(serialized_element.as_ref()).unwrap(); let serialized_element = ::Group::serialize(&element1()).unwrap(); let verifying_key = VerifyingKey::deserialize(serialized_element.as_ref()).unwrap(); KeyPackage::new(identifier, signing_share, verifying_share, verifying_key, 2) } /// Generate a sample PublicKeyPackage. pub fn public_key_package() -> PublicKeyPackage { let identifier = 42u16.try_into().unwrap(); let serialized_element = ::Group::serialize(&element1()).unwrap(); let verifying_share = VerifyingShare::deserialize(serialized_element.as_ref()).unwrap(); let serialized_element = ::Group::serialize(&element1()).unwrap(); let verifying_key = VerifyingKey::deserialize(serialized_element.as_ref()).unwrap(); let verifying_shares = BTreeMap::from([(identifier, verifying_share)]); PublicKeyPackage::new(verifying_shares, verifying_key) } /// Generate a sample round1::Package. pub fn round1_package() -> round1::Package { let serialized_scalar = <::Group as Group>::Field::serialize(&scalar1()); let serialized_element = ::Group::serialize(&element1()).unwrap(); let serialized_signature = serialized_element .as_ref() .iter() .chain(serialized_scalar.as_ref().iter()) .cloned() .collect::>(); let vss_commitment = VerifiableSecretSharingCommitment::deserialize(vec![serialized_element]).unwrap(); let signature = Signature::deserialize(&serialized_signature).unwrap(); round1::Package::new(vss_commitment, signature) } /// Generate a sample round2::Package. pub fn round2_package() -> round2::Package { let serialized_scalar = <::Group as Group>::Field::serialize(&scalar1()); let signing_share = SigningShare::deserialize(serialized_scalar.as_ref()).unwrap(); round2::Package::new(signing_share) }