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using System;
using System.Collections;
using System.IO;
using Org.BouncyCastle.Asn1;
using Org.BouncyCastle.Asn1.CryptoPro;
using Org.BouncyCastle.Asn1.Nist;
using Org.BouncyCastle.Asn1.Oiw;
using Org.BouncyCastle.Asn1.Pkcs;
using Org.BouncyCastle.Asn1.TeleTrust;
using Org.BouncyCastle.Asn1.X509;
using Org.BouncyCastle.Asn1.X9;
using Org.BouncyCastle.Crypto;
using Org.BouncyCastle.Security;
using Org.BouncyCastle.Utilities;
using Org.BouncyCastle.Utilities.Collections;
using Org.BouncyCastle.X509;
using Org.BouncyCastle.Crypto.Operators;
using Org.BouncyCastle.Asn1.Utilities;
namespace Org.BouncyCastle.Pkcs
{
/// <remarks>
/// A class for verifying and creating Pkcs10 Certification requests.
/// </remarks>
/// <code>
/// CertificationRequest ::= Sequence {
/// certificationRequestInfo CertificationRequestInfo,
/// signatureAlgorithm AlgorithmIdentifier{{ SignatureAlgorithms }},
/// signature BIT STRING
/// }
///
/// CertificationRequestInfo ::= Sequence {
/// version Integer { v1(0) } (v1,...),
/// subject Name,
/// subjectPKInfo SubjectPublicKeyInfo{{ PKInfoAlgorithms }},
/// attributes [0] Attributes{{ CRIAttributes }}
/// }
///
/// Attributes { ATTRIBUTE:IOSet } ::= Set OF Attr{{ IOSet }}
///
/// Attr { ATTRIBUTE:IOSet } ::= Sequence {
/// type ATTRIBUTE.&id({IOSet}),
/// values Set SIZE(1..MAX) OF ATTRIBUTE.&Type({IOSet}{\@type})
/// }
/// </code>
/// see <a href="http://www.rsasecurity.com/rsalabs/node.asp?id=2132"/>
public class Pkcs10CertificationRequest
: CertificationRequest
{
protected static readonly IDictionary algorithms = Platform.CreateHashtable();
protected static readonly IDictionary exParams = Platform.CreateHashtable();
protected static readonly IDictionary keyAlgorithms = Platform.CreateHashtable();
protected static readonly IDictionary oids = Platform.CreateHashtable();
protected static readonly ISet noParams = new HashSet();
static Pkcs10CertificationRequest()
{
algorithms.Add("MD2WITHRSAENCRYPTION", PkcsObjectIdentifiers.MD2WithRsaEncryption);
algorithms.Add("MD2WITHRSA", PkcsObjectIdentifiers.MD2WithRsaEncryption);
algorithms.Add("MD5WITHRSAENCRYPTION", PkcsObjectIdentifiers.MD5WithRsaEncryption);
algorithms.Add("MD5WITHRSA", PkcsObjectIdentifiers.MD5WithRsaEncryption);
algorithms.Add("RSAWITHMD5", PkcsObjectIdentifiers.MD5WithRsaEncryption);
algorithms.Add("SHA1WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha1WithRsaEncryption);
algorithms.Add("SHA-1WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha1WithRsaEncryption);
algorithms.Add("SHA1WITHRSA", PkcsObjectIdentifiers.Sha1WithRsaEncryption);
algorithms.Add("SHA-1WITHRSA", PkcsObjectIdentifiers.Sha1WithRsaEncryption);
algorithms.Add("SHA224WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha224WithRsaEncryption);
algorithms.Add("SHA-224WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha224WithRsaEncryption);
algorithms.Add("SHA224WITHRSA", PkcsObjectIdentifiers.Sha224WithRsaEncryption);
algorithms.Add("SHA-224WITHRSA", PkcsObjectIdentifiers.Sha224WithRsaEncryption);
algorithms.Add("SHA256WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha256WithRsaEncryption);
algorithms.Add("SHA-256WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha256WithRsaEncryption);
algorithms.Add("SHA256WITHRSA", PkcsObjectIdentifiers.Sha256WithRsaEncryption);
algorithms.Add("SHA-256WITHRSA", PkcsObjectIdentifiers.Sha256WithRsaEncryption);
algorithms.Add("SHA384WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha384WithRsaEncryption);
algorithms.Add("SHA-384WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha384WithRsaEncryption);
algorithms.Add("SHA384WITHRSA", PkcsObjectIdentifiers.Sha384WithRsaEncryption);
algorithms.Add("SHA-384WITHRSA", PkcsObjectIdentifiers.Sha384WithRsaEncryption);
algorithms.Add("SHA512WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha512WithRsaEncryption);
algorithms.Add("SHA-512WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha512WithRsaEncryption);
algorithms.Add("SHA512WITHRSA", PkcsObjectIdentifiers.Sha512WithRsaEncryption);
algorithms.Add("SHA-512WITHRSA", PkcsObjectIdentifiers.Sha512WithRsaEncryption);
algorithms.Add("SHA512(224)WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha512_224WithRSAEncryption);
algorithms.Add("SHA-512(224)WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha512_224WithRSAEncryption);
algorithms.Add("SHA512(224)WITHRSA", PkcsObjectIdentifiers.Sha512_224WithRSAEncryption);
algorithms.Add("SHA-512(224)WITHRSA", PkcsObjectIdentifiers.Sha512_224WithRSAEncryption);
algorithms.Add("SHA512(256)WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha512_256WithRSAEncryption);
algorithms.Add("SHA-512(256)WITHRSAENCRYPTION", PkcsObjectIdentifiers.Sha512_256WithRSAEncryption);
algorithms.Add("SHA512(256)WITHRSA", PkcsObjectIdentifiers.Sha512_256WithRSAEncryption);
algorithms.Add("SHA-512(256)WITHRSA", PkcsObjectIdentifiers.Sha512_256WithRSAEncryption);
algorithms.Add("SHA1WITHRSAANDMGF1", PkcsObjectIdentifiers.IdRsassaPss);
algorithms.Add("SHA224WITHRSAANDMGF1", PkcsObjectIdentifiers.IdRsassaPss);
algorithms.Add("SHA256WITHRSAANDMGF1", PkcsObjectIdentifiers.IdRsassaPss);
algorithms.Add("SHA384WITHRSAANDMGF1", PkcsObjectIdentifiers.IdRsassaPss);
algorithms.Add("SHA512WITHRSAANDMGF1", PkcsObjectIdentifiers.IdRsassaPss);
algorithms.Add("RSAWITHSHA1", PkcsObjectIdentifiers.Sha1WithRsaEncryption);
algorithms.Add("RIPEMD128WITHRSAENCRYPTION", TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD128);
algorithms.Add("RIPEMD128WITHRSA", TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD128);
algorithms.Add("RIPEMD160WITHRSAENCRYPTION", TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD160);
algorithms.Add("RIPEMD160WITHRSA", TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD160);
algorithms.Add("RIPEMD256WITHRSAENCRYPTION", TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD256);
algorithms.Add("RIPEMD256WITHRSA", TeleTrusTObjectIdentifiers.RsaSignatureWithRipeMD256);
algorithms.Add("SHA1WITHDSA", X9ObjectIdentifiers.IdDsaWithSha1);
algorithms.Add("DSAWITHSHA1", X9ObjectIdentifiers.IdDsaWithSha1);
algorithms.Add("SHA224WITHDSA", NistObjectIdentifiers.DsaWithSha224);
algorithms.Add("SHA256WITHDSA", NistObjectIdentifiers.DsaWithSha256);
algorithms.Add("SHA384WITHDSA", NistObjectIdentifiers.DsaWithSha384);
algorithms.Add("SHA512WITHDSA", NistObjectIdentifiers.DsaWithSha512);
algorithms.Add("SHA1WITHECDSA", X9ObjectIdentifiers.ECDsaWithSha1);
algorithms.Add("SHA224WITHECDSA", X9ObjectIdentifiers.ECDsaWithSha224);
algorithms.Add("SHA256WITHECDSA", X9ObjectIdentifiers.ECDsaWithSha256);
algorithms.Add("SHA384WITHECDSA", X9ObjectIdentifiers.ECDsaWithSha384);
algorithms.Add("SHA512WITHECDSA", X9ObjectIdentifiers.ECDsaWithSha512);
algorithms.Add("ECDSAWITHSHA1", X9ObjectIdentifiers.ECDsaWithSha1);
algorithms.Add("GOST3411WITHGOST3410", CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x94);
algorithms.Add("GOST3410WITHGOST3411", CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x94);
algorithms.Add("GOST3411WITHECGOST3410", CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x2001);
algorithms.Add("GOST3411WITHECGOST3410-2001", CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x2001);
algorithms.Add("GOST3411WITHGOST3410-2001", CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x2001);
//
// reverse mappings
//
oids.Add(PkcsObjectIdentifiers.Sha1WithRsaEncryption, "SHA1WITHRSA");
oids.Add(PkcsObjectIdentifiers.Sha224WithRsaEncryption, "SHA224WITHRSA");
oids.Add(PkcsObjectIdentifiers.Sha256WithRsaEncryption, "SHA256WITHRSA");
oids.Add(PkcsObjectIdentifiers.Sha384WithRsaEncryption, "SHA384WITHRSA");
oids.Add(PkcsObjectIdentifiers.Sha512WithRsaEncryption, "SHA512WITHRSA");
oids.Add(PkcsObjectIdentifiers.Sha512_224WithRSAEncryption, "SHA512(224)WITHRSA");
oids.Add(PkcsObjectIdentifiers.Sha512_256WithRSAEncryption, "SHA512(256)WITHRSA");
oids.Add(CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x94, "GOST3411WITHGOST3410");
oids.Add(CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x2001, "GOST3411WITHECGOST3410");
oids.Add(PkcsObjectIdentifiers.MD5WithRsaEncryption, "MD5WITHRSA");
oids.Add(PkcsObjectIdentifiers.MD2WithRsaEncryption, "MD2WITHRSA");
oids.Add(X9ObjectIdentifiers.IdDsaWithSha1, "SHA1WITHDSA");
oids.Add(X9ObjectIdentifiers.ECDsaWithSha1, "SHA1WITHECDSA");
oids.Add(X9ObjectIdentifiers.ECDsaWithSha224, "SHA224WITHECDSA");
oids.Add(X9ObjectIdentifiers.ECDsaWithSha256, "SHA256WITHECDSA");
oids.Add(X9ObjectIdentifiers.ECDsaWithSha384, "SHA384WITHECDSA");
oids.Add(X9ObjectIdentifiers.ECDsaWithSha512, "SHA512WITHECDSA");
oids.Add(OiwObjectIdentifiers.MD5WithRsa, "MD5WITHRSA");
oids.Add(OiwObjectIdentifiers.Sha1WithRsa, "SHA1WITHRSA");
oids.Add(OiwObjectIdentifiers.DsaWithSha1, "SHA1WITHDSA");
oids.Add(NistObjectIdentifiers.DsaWithSha224, "SHA224WITHDSA");
oids.Add(NistObjectIdentifiers.DsaWithSha256, "SHA256WITHDSA");
//
// key types
//
keyAlgorithms.Add(PkcsObjectIdentifiers.RsaEncryption, "RSA");
keyAlgorithms.Add(X9ObjectIdentifiers.IdDsa, "DSA");
//
// According to RFC 3279, the ASN.1 encoding SHALL (id-dsa-with-sha1) or MUST (ecdsa-with-SHA*) omit the parameters field.
// The parameters field SHALL be NULL for RSA based signature algorithms.
//
noParams.Add(X9ObjectIdentifiers.ECDsaWithSha1);
noParams.Add(X9ObjectIdentifiers.ECDsaWithSha224);
noParams.Add(X9ObjectIdentifiers.ECDsaWithSha256);
noParams.Add(X9ObjectIdentifiers.ECDsaWithSha384);
noParams.Add(X9ObjectIdentifiers.ECDsaWithSha512);
noParams.Add(X9ObjectIdentifiers.IdDsaWithSha1);
noParams.Add(OiwObjectIdentifiers.DsaWithSha1);
noParams.Add(NistObjectIdentifiers.DsaWithSha224);
noParams.Add(NistObjectIdentifiers.DsaWithSha256);
//
// RFC 4491
//
noParams.Add(CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x94);
noParams.Add(CryptoProObjectIdentifiers.GostR3411x94WithGostR3410x2001);
//
// explicit params
//
AlgorithmIdentifier sha1AlgId = new AlgorithmIdentifier(OiwObjectIdentifiers.IdSha1, DerNull.Instance);
exParams.Add("SHA1WITHRSAANDMGF1", CreatePssParams(sha1AlgId, 20));
AlgorithmIdentifier sha224AlgId = new AlgorithmIdentifier(NistObjectIdentifiers.IdSha224, DerNull.Instance);
exParams.Add("SHA224WITHRSAANDMGF1", CreatePssParams(sha224AlgId, 28));
AlgorithmIdentifier sha256AlgId = new AlgorithmIdentifier(NistObjectIdentifiers.IdSha256, DerNull.Instance);
exParams.Add("SHA256WITHRSAANDMGF1", CreatePssParams(sha256AlgId, 32));
AlgorithmIdentifier sha384AlgId = new AlgorithmIdentifier(NistObjectIdentifiers.IdSha384, DerNull.Instance);
exParams.Add("SHA384WITHRSAANDMGF1", CreatePssParams(sha384AlgId, 48));
AlgorithmIdentifier sha512AlgId = new AlgorithmIdentifier(NistObjectIdentifiers.IdSha512, DerNull.Instance);
exParams.Add("SHA512WITHRSAANDMGF1", CreatePssParams(sha512AlgId, 64));
}
private static RsassaPssParameters CreatePssParams(
AlgorithmIdentifier hashAlgId,
int saltSize)
{
return new RsassaPssParameters(
hashAlgId,
new AlgorithmIdentifier(PkcsObjectIdentifiers.IdMgf1, hashAlgId),
new DerInteger(saltSize),
new DerInteger(1));
}
protected Pkcs10CertificationRequest()
{
}
public Pkcs10CertificationRequest(
byte[] encoded)
: base((Asn1Sequence)Asn1Object.FromByteArray(encoded))
{
}
public Pkcs10CertificationRequest(
Asn1Sequence seq)
: base(seq)
{
}
public Pkcs10CertificationRequest(
Stream input)
: base((Asn1Sequence)Asn1Object.FromStream(input))
{
}
/// <summary>
/// Instantiate a Pkcs10CertificationRequest object with the necessary credentials.
/// </summary>
///<param name="signatureAlgorithm">Name of Sig Alg.</param>
/// <param name="subject">X509Name of subject eg OU="My unit." O="My Organisatioin" C="au" </param>
/// <param name="publicKey">Public Key to be included in cert reqest.</param>
/// <param name="attributes">ASN1Set of Attributes.</param>
/// <param name="signingKey">Matching Private key for nominated (above) public key to be used to sign the request.</param>
public Pkcs10CertificationRequest(
string signatureAlgorithm,
X509Name subject,
AsymmetricKeyParameter publicKey,
Asn1Set attributes,
AsymmetricKeyParameter signingKey)
: this(new Asn1SignatureFactory(signatureAlgorithm, signingKey), subject, publicKey, attributes)
{
}
/// <summary>
/// Instantiate a Pkcs10CertificationRequest object with the necessary credentials.
/// </summary>
///<param name="signatureFactory">The factory for signature calculators to sign the PKCS#10 request with.</param>
/// <param name="subject">X509Name of subject eg OU="My unit." O="My Organisatioin" C="au" </param>
/// <param name="publicKey">Public Key to be included in cert reqest.</param>
/// <param name="attributes">ASN1Set of Attributes.</param>
/// <param name="signingKey">Ignored.</param>
[Obsolete("Use constructor without 'signingKey' parameter (ignored here)")]
public Pkcs10CertificationRequest(
ISignatureFactory signatureFactory,
X509Name subject,
AsymmetricKeyParameter publicKey,
Asn1Set attributes,
AsymmetricKeyParameter signingKey)
: this(signatureFactory, subject, publicKey, attributes)
{
}
/// <summary>
/// Instantiate a Pkcs10CertificationRequest object with the necessary credentials.
/// </summary>
///<param name="signatureFactory">The factory for signature calculators to sign the PKCS#10 request with.</param>
/// <param name="subject">X509Name of subject eg OU="My unit." O="My Organisatioin" C="au" </param>
/// <param name="publicKey">Public Key to be included in cert reqest.</param>
/// <param name="attributes">ASN1Set of Attributes.</param>
public Pkcs10CertificationRequest(
ISignatureFactory signatureFactory,
X509Name subject,
AsymmetricKeyParameter publicKey,
Asn1Set attributes)
{
if (signatureFactory == null)
throw new ArgumentNullException("signatureFactory");
if (subject == null)
throw new ArgumentNullException("subject");
if (publicKey == null)
throw new ArgumentNullException("publicKey");
if (publicKey.IsPrivate)
throw new ArgumentException("expected public key", "publicKey");
Init(signatureFactory, subject, publicKey, attributes);
}
private void Init(
ISignatureFactory signatureFactory,
X509Name subject,
AsymmetricKeyParameter publicKey,
Asn1Set attributes)
{
this.sigAlgId = (AlgorithmIdentifier)signatureFactory.AlgorithmDetails;
SubjectPublicKeyInfo pubInfo = SubjectPublicKeyInfoFactory.CreateSubjectPublicKeyInfo(publicKey);
this.reqInfo = new CertificationRequestInfo(subject, pubInfo, attributes);
IStreamCalculator streamCalculator = signatureFactory.CreateCalculator();
byte[] reqInfoData = reqInfo.GetDerEncoded();
streamCalculator.Stream.Write(reqInfoData, 0, reqInfoData.Length);
Platform.Dispose(streamCalculator.Stream);
// Generate Signature.
sigBits = new DerBitString(((IBlockResult)streamCalculator.GetResult()).Collect());
}
// internal Pkcs10CertificationRequest(
// Asn1InputStream seqStream)
// {
// Asn1Sequence seq = (Asn1Sequence) seqStream.ReadObject();
// try
// {
// this.reqInfo = CertificationRequestInfo.GetInstance(seq[0]);
// this.sigAlgId = AlgorithmIdentifier.GetInstance(seq[1]);
// this.sigBits = (DerBitString) seq[2];
// }
// catch (Exception ex)
// {
// throw new ArgumentException("Create From Asn1Sequence: " + ex.Message);
// }
// }
/// <summary>
/// Get the public key.
/// </summary>
/// <returns>The public key.</returns>
public AsymmetricKeyParameter GetPublicKey()
{
return PublicKeyFactory.CreateKey(reqInfo.SubjectPublicKeyInfo);
}
/// <summary>
/// Verify Pkcs10 Cert Request is valid.
/// </summary>
/// <returns>true = valid.</returns>
public bool Verify()
{
return Verify(this.GetPublicKey());
}
public bool Verify(
AsymmetricKeyParameter publicKey)
{
return Verify(new Asn1VerifierFactoryProvider(publicKey));
}
public bool Verify(
IVerifierFactoryProvider verifierProvider)
{
return Verify(verifierProvider.CreateVerifierFactory(sigAlgId));
}
public bool Verify(
IVerifierFactory verifier)
{
try
{
byte[] b = reqInfo.GetDerEncoded();
IStreamCalculator streamCalculator = verifier.CreateCalculator();
streamCalculator.Stream.Write(b, 0, b.Length);
Platform.Dispose(streamCalculator.Stream);
return ((IVerifier)streamCalculator.GetResult()).IsVerified(sigBits.GetOctets());
}
catch (Exception e)
{
throw new SignatureException("exception encoding TBS cert request", e);
}
}
// /// <summary>
// /// Get the Der Encoded Pkcs10 Certification Request.
// /// </summary>
// /// <returns>A byte array.</returns>
// public byte[] GetEncoded()
// {
// return new CertificationRequest(reqInfo, sigAlgId, sigBits).GetDerEncoded();
// }
// TODO Figure out how to set parameters on an ISigner
private void SetSignatureParameters(
ISigner signature,
Asn1Encodable asn1Params)
{
if (asn1Params != null && !(asn1Params is Asn1Null))
{
// AlgorithmParameters sigParams = AlgorithmParameters.GetInstance(signature.getAlgorithm());
//
// try
// {
// sigParams.init(asn1Params.ToAsn1Object().GetDerEncoded());
// }
// catch (IOException e)
// {
// throw new SignatureException("IOException decoding parameters: " + e.Message);
// }
if (Platform.EndsWith(signature.AlgorithmName, "MGF1"))
{
throw Platform.CreateNotImplementedException("signature algorithm with MGF1");
// try
// {
// signature.setParameter(sigParams.getParameterSpec(PSSParameterSpec.class));
// }
// catch (GeneralSecurityException e)
// {
// throw new SignatureException("Exception extracting parameters: " + e.getMessage());
// }
}
}
}
internal static string GetSignatureName(
AlgorithmIdentifier sigAlgId)
{
Asn1Encodable asn1Params = sigAlgId.Parameters;
if (asn1Params != null && !(asn1Params is Asn1Null))
{
if (sigAlgId.Algorithm.Equals(PkcsObjectIdentifiers.IdRsassaPss))
{
RsassaPssParameters rsaParams = RsassaPssParameters.GetInstance(asn1Params);
return GetDigestAlgName(rsaParams.HashAlgorithm.Algorithm) + "withRSAandMGF1";
}
}
return sigAlgId.Algorithm.Id;
}
private static string GetDigestAlgName(
DerObjectIdentifier digestAlgOID)
{
if (PkcsObjectIdentifiers.MD5.Equals(digestAlgOID))
{
return "MD5";
}
else if (OiwObjectIdentifiers.IdSha1.Equals(digestAlgOID))
{
return "SHA1";
}
else if (NistObjectIdentifiers.IdSha224.Equals(digestAlgOID))
{
return "SHA224";
}
else if (NistObjectIdentifiers.IdSha256.Equals(digestAlgOID))
{
return "SHA256";
}
else if (NistObjectIdentifiers.IdSha384.Equals(digestAlgOID))
{
return "SHA384";
}
else if (NistObjectIdentifiers.IdSha512.Equals(digestAlgOID))
{
return "SHA512";
}
else if (NistObjectIdentifiers.IdSha512_224.Equals(digestAlgOID))
{
return "SHA512(224)";
}
else if (NistObjectIdentifiers.IdSha512_256.Equals(digestAlgOID))
{
return "SHA512(256)";
}
else if (TeleTrusTObjectIdentifiers.RipeMD128.Equals(digestAlgOID))
{
return "RIPEMD128";
}
else if (TeleTrusTObjectIdentifiers.RipeMD160.Equals(digestAlgOID))
{
return "RIPEMD160";
}
else if (TeleTrusTObjectIdentifiers.RipeMD256.Equals(digestAlgOID))
{
return "RIPEMD256";
}
else if (CryptoProObjectIdentifiers.GostR3411.Equals(digestAlgOID))
{
return "GOST3411";
}
else
{
return digestAlgOID.Id;
}
}
/// <summary>
/// Returns X509Extensions if the Extensions Request attribute can be found and returns the extensions block.
/// </summary>
/// <returns>X509Extensions block or null if one cannot be found.</returns>
public X509Extensions GetRequestedExtensions()
{
if (reqInfo.Attributes != null)
{
foreach (Asn1Encodable item in reqInfo.Attributes)
{
AttributePkcs attributePkcs;
try
{
attributePkcs = AttributePkcs.GetInstance(item);
}
catch (ArgumentException ex)
{
throw new ArgumentException("encountered non PKCS attribute in extensions block", ex);
}
if (attributePkcs.AttrType.Equals(PkcsObjectIdentifiers.Pkcs9AtExtensionRequest))
{
X509ExtensionsGenerator generator = new X509ExtensionsGenerator();
Asn1Sequence extensionSequence = Asn1Sequence.GetInstance(attributePkcs.AttrValues[0]);
foreach (Asn1Encodable seqItem in extensionSequence)
{
Asn1Sequence itemSeq = Asn1Sequence.GetInstance(seqItem);
bool critical = itemSeq.Count == 3 && DerBoolean.GetInstance(itemSeq[1]).IsTrue;
if (itemSeq.Count == 2)
{
generator.AddExtension(DerObjectIdentifier.GetInstance(itemSeq[0]), false, Asn1OctetString.GetInstance(itemSeq[1]).GetOctets());
}
else if (itemSeq.Count == 3)
{
generator.AddExtension(DerObjectIdentifier.GetInstance(itemSeq[0]), DerBoolean.GetInstance(itemSeq[1]).IsTrue, Asn1OctetString.GetInstance(itemSeq[2]).GetOctets());
}
else
{
throw new ArgumentException("incorrect sequence size of X509Extension got " + itemSeq.Count + " expected 2 or 3");
}
}
return generator.Generate();
}
}
}
return null;
}
}
}
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