public override bool Equals(object o) { checkApprovedOnlyModeStatus(); if (this == o) { return(true); } if (!(o is AsymmetricSphincsPrivateKey)) { return(false); } AsymmetricSphincsPrivateKey other = (AsymmetricSphincsPrivateKey)o; return(this.parameters.Equals(other.parameters) && Arrays.AreEqual(keyData, other.keyData)); }
private void checkKeyPairForConsistency(TPub publicKey, TPriv privateKey) { if (publicKey is AsymmetricECKey && privateKey is AsymmetricECKey) { AsymmetricECPrivateKey priv = privateKey as AsymmetricECPrivateKey; AsymmetricECPublicKey pub = publicKey as AsymmetricECPublicKey; if (!priv.DomainParameters.Equals(pub.DomainParameters)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("EC keys do not have the same domain parameters"); } if (!priv.DomainParameters.G.Multiply(priv.S).Normalize().Equals(pub.W)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("EC public key not consistent with EC private key"); } } else if (publicKey is AsymmetricDsaKey && privateKey is AsymmetricDsaKey) { AsymmetricDsaPrivateKey priv = privateKey as AsymmetricDsaPrivateKey; AsymmetricDsaPublicKey pub = publicKey as AsymmetricDsaPublicKey; DsaDomainParameters dsaParameters = priv.DomainParameters; if (!dsaParameters.Equals(pub.DomainParameters)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("DSA keys do not have the same domain parameters"); } if (!dsaParameters.G.ModPow(priv.X, dsaParameters.P).Equals(pub.Y)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("DSA public key not consistent with DSA private key"); } } else if (publicKey is AsymmetricRsaKey && privateKey is AsymmetricRsaKey) { AsymmetricRsaPrivateKey priv = privateKey as AsymmetricRsaPrivateKey; AsymmetricRsaPublicKey pub = publicKey as AsymmetricRsaPublicKey; if (!priv.Modulus.Equals(pub.Modulus)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("RSA keys do not have the same modulus"); } BigInteger val = BigInteger.Two; if (!val.ModPow(priv.PrivateExponent, priv.Modulus).ModPow(pub.PublicExponent, priv.Modulus).Equals(val)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("RSA public key not consistent with RSA private key"); } } else if (publicKey is AsymmetricDHKey && privateKey is AsymmetricDHKey) { AsymmetricDHPrivateKey priv = privateKey as AsymmetricDHPrivateKey; AsymmetricDHPublicKey pub = publicKey as AsymmetricDHPublicKey; DHDomainParameters dhParameters = priv.DomainParameters; if (!dhParameters.Equals(pub.DomainParameters)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("DH keys do not have the same domain parameters"); } if (!dhParameters.G.ModPow(priv.X, dhParameters.P).Equals(pub.Y)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("DH public key not consistent with DH private key"); } } else if (publicKey is AsymmetricSphincsKey && privateKey is AsymmetricSphincsKey) { AsymmetricSphincsPrivateKey priv = privateKey as AsymmetricSphincsPrivateKey; AsymmetricSphincsPublicKey pub = publicKey as AsymmetricSphincsPublicKey; if (priv.TreeDigestAlgorithm != pub.TreeDigestAlgorithm) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("Sphincs256 public key not consistent with Sphincs256 private key"); } if (!IsRangeSame(priv.GetKeyData(), SPHINCS256Config.SEED_BYTES, pub.GetKeyData(), 0, Horst.N_MASKS * SPHINCS256Config.HASH_BYTES)) { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("Sphincs256 public key not consistent with Sphincs256 private key"); } } else if (publicKey is AsymmetricNHKey && privateKey is AsymmetricNHKey) { AsymmetricNHPrivateKey priv = privateKey as AsymmetricNHPrivateKey; AsymmetricNHPublicKey pub = publicKey as AsymmetricNHPublicKey; // currently there doesn't either a good approach or much point to this one as the keys should be ephemeral and always generated locally. } else { // FSM_TRANS:5.IKP.2, "IMPORTED KEY PAIR CONSISTENCY TEST", "USER COMMAND REJECTED", "Consistency test on imported key pair failed" throw new ArgumentException("Key pair inconsistent"); } }