using System; using System.IO; using Org.BouncyCastle.Asn1; using Org.BouncyCastle.Asn1.Crmf; using Org.BouncyCastle.Asn1.X509; using Org.BouncyCastle.Crypto; using Org.BouncyCastle.Crypto.Operators; using Org.BouncyCastle.Utilities; namespace Org.BouncyCastle.Crmf { public class ProofOfPossessionSigningKeyBuilder { private CertRequest _certRequest; private SubjectPublicKeyInfo _pubKeyInfo; private GeneralName _name; private PKMacValue _publicKeyMAC; public ProofOfPossessionSigningKeyBuilder(CertRequest certRequest) { this._certRequest = certRequest; } public ProofOfPossessionSigningKeyBuilder(SubjectPublicKeyInfo pubKeyInfo) { this._pubKeyInfo = pubKeyInfo; } public ProofOfPossessionSigningKeyBuilder SetSender(GeneralName name) { this._name = name; return this; } public ProofOfPossessionSigningKeyBuilder SetPublicKeyMac(PKMacBuilder generator, char[] password) { IMacFactory fact = generator.Build(password); IStreamCalculator calc = fact.CreateCalculator(); byte[] d = _pubKeyInfo.GetDerEncoded(); calc.Stream.Write(d, 0, d.Length); calc.Stream.Flush(); Platform.Dispose(calc.Stream); this._publicKeyMAC = new PKMacValue( (AlgorithmIdentifier)fact.AlgorithmDetails, new DerBitString(calc.GetResult().Collect())); return this; } public PopoSigningKey Build(ISignatureFactory signer) { if (_name != null && _publicKeyMAC != null) { throw new InvalidOperationException("name and publicKeyMAC cannot both be set."); } PopoSigningKeyInput popo; IStreamCalculator calc = signer.CreateCalculator(); using (Stream sigStream = calc.Stream) { if (_certRequest != null) { popo = null; _certRequest.EncodeTo(sigStream, Asn1Encodable.Der); } else if (_name != null) { popo = new PopoSigningKeyInput(_name, _pubKeyInfo); popo.EncodeTo(sigStream, Asn1Encodable.Der); } else { popo = new PopoSigningKeyInput(_publicKeyMAC, _pubKeyInfo); popo.EncodeTo(sigStream, Asn1Encodable.Der); } } var signature = calc.GetResult().Collect(); return new PopoSigningKey(popo, (AlgorithmIdentifier)signer.AlgorithmDetails, new DerBitString(signature)); } } }