|
public GetAttributeValue ( |
||
| objectHandle | Handle of object whose attributes should be read | |
| attributes | List |
List of attributes that should be read |
| Результат | List |
|
/// <summary>
/// Generates certificate request in PKCS#10 format defined by RFC 2986
/// </summary>
/// <param name="session">Session with user logged in</param>
/// <param name="publicKeyHandle">Handle of public key that should be contained in generated request</param>
/// <param name="privateKeyHandle">Handle of private key that should be used for the creation of request signature</param>
/// <param name="subjectDistinguishedName">Subject entity's distinguished name</param>
/// <param name="hashAlgorithm">Hash algorihtm used for the creation of request signature</param>
/// <returns>Certificate request in PKCS#10 format</returns>
public static byte[] GeneratePkcs10(Session session, ObjectHandle publicKeyHandle, ObjectHandle privateKeyHandle, string subjectDistinguishedName, HashAlgorithm hashAlgorithm)
{
List<CKA> pubKeyAttrsToRead = new List<CKA>();
pubKeyAttrsToRead.Add(CKA.CKA_KEY_TYPE);
pubKeyAttrsToRead.Add(CKA.CKA_MODULUS);
pubKeyAttrsToRead.Add(CKA.CKA_PUBLIC_EXPONENT);
// Read public key attributes
List<ObjectAttribute> publicKeyAttributes = session.GetAttributeValue(publicKeyHandle, pubKeyAttrsToRead);
if (CKK.CKK_RSA != (CKK)publicKeyAttributes[0].GetValueAsUlong())
throw new NotSupportedException("Currently only RSA keys are supported");
// Create instance of RsaKeyParameters class usable for BouncyCastle
BigInteger modulus = new BigInteger(1, publicKeyAttributes[1].GetValueAsByteArray());
BigInteger publicExponent = new BigInteger(1, publicKeyAttributes[2].GetValueAsByteArray());
RsaKeyParameters publicKeyParameters = new RsaKeyParameters(false, modulus, publicExponent);
// Determine algorithms
Mechanism mechanism = null;
string signatureAlgorihtm = null;
switch (hashAlgorithm)
{
case HashAlgorithm.SHA1:
mechanism = new Mechanism(CKM.CKM_SHA1_RSA_PKCS);
signatureAlgorihtm = PkcsObjectIdentifiers.Sha1WithRsaEncryption.Id;
break;
case HashAlgorithm.SHA256:
mechanism = new Mechanism(CKM.CKM_SHA256_RSA_PKCS);
signatureAlgorihtm = PkcsObjectIdentifiers.Sha256WithRsaEncryption.Id;
break;
case HashAlgorithm.SHA384:
mechanism = new Mechanism(CKM.CKM_SHA384_RSA_PKCS);
signatureAlgorihtm = PkcsObjectIdentifiers.Sha384WithRsaEncryption.Id;
break;
case HashAlgorithm.SHA512:
mechanism = new Mechanism(CKM.CKM_SHA512_RSA_PKCS);
signatureAlgorihtm = PkcsObjectIdentifiers.Sha512WithRsaEncryption.Id;
break;
}
// Generate and sign PKCS#10 request
Pkcs10CertificationRequestDelaySigned pkcs10 = new Pkcs10CertificationRequestDelaySigned(signatureAlgorihtm, new X509Name(subjectDistinguishedName), publicKeyParameters, null);
byte[] signature = session.Sign(mechanism, privateKeyHandle, pkcs10.GetDataToSign());
pkcs10.SignRequest(new DerBitString(signature));
return pkcs10.GetDerEncoded();
}
/// <summary>
/// Imports the certificate into the PKCS#11 compatible device and pairs it with the corresponding private key
/// </summary>
/// <param name="session">Session with user logged in</param>
/// <param name="certificate">Certificate that should be imported</param>
/// <returns>Handle of created certificate object</returns>
public static ObjectHandle ImportCertificate(Session session, byte[] certificate)
{
// Parse certificate
X509CertificateParser x509CertificateParser = new X509CertificateParser();
X509Certificate x509Certificate = x509CertificateParser.ReadCertificate(certificate);
// Get public key from certificate
AsymmetricKeyParameter pubKeyParams = x509Certificate.GetPublicKey();
if (!(pubKeyParams is RsaKeyParameters))
throw new NotSupportedException("Currently only RSA keys are supported");
RsaKeyParameters rsaPubKeyParams = (RsaKeyParameters)pubKeyParams;
// Find corresponding private key
List<ObjectAttribute> privKeySearchTemplate = new List<ObjectAttribute>();
privKeySearchTemplate.Add(new ObjectAttribute(CKA.CKA_CLASS, CKO.CKO_PRIVATE_KEY));
privKeySearchTemplate.Add(new ObjectAttribute(CKA.CKA_KEY_TYPE, CKK.CKK_RSA));
privKeySearchTemplate.Add(new ObjectAttribute(CKA.CKA_MODULUS, rsaPubKeyParams.Modulus.ToByteArrayUnsigned()));
privKeySearchTemplate.Add(new ObjectAttribute(CKA.CKA_PUBLIC_EXPONENT, rsaPubKeyParams.Exponent.ToByteArrayUnsigned()));
List<ObjectHandle> foundObjects = session.FindAllObjects(privKeySearchTemplate);
if (foundObjects.Count != 1)
throw new ObjectNotFoundException("Corresponding RSA private key not found");
ObjectHandle privKeyObjectHandle = foundObjects[0];
// Read CKA_LABEL and CKA_ID attributes of private key
List<CKA> privKeyAttrsToRead = new List<CKA>();
privKeyAttrsToRead.Add(CKA.CKA_LABEL);
privKeyAttrsToRead.Add(CKA.CKA_ID);
List<ObjectAttribute> privKeyAttributes = session.GetAttributeValue(privKeyObjectHandle, privKeyAttrsToRead);
// Define attributes of new certificate object
List<ObjectAttribute> certificateAttributes = new List<ObjectAttribute>();
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_CLASS, CKO.CKO_CERTIFICATE));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_TOKEN, true));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_PRIVATE, false));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_MODIFIABLE, true));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_LABEL, privKeyAttributes[0].GetValueAsString()));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_CERTIFICATE_TYPE, CKC.CKC_X_509));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_TRUSTED, false));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_SUBJECT, x509Certificate.SubjectDN.GetDerEncoded()));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_ID, privKeyAttributes[1].GetValueAsByteArray()));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_ISSUER, x509Certificate.IssuerDN.GetDerEncoded()));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_SERIAL_NUMBER, new DerInteger(x509Certificate.SerialNumber).GetDerEncoded()));
certificateAttributes.Add(new ObjectAttribute(CKA.CKA_VALUE, x509Certificate.GetEncoded()));
// Create certificate object
return session.CreateObject(certificateAttributes);
}