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using System;
using System.Collections;
using System.IO;
using Org.BouncyCastle.Asn1;
using Org.BouncyCastle.Asn1.X509;
using Org.BouncyCastle.Utilities;
namespace Org.BouncyCastle.Tls
{
/// <summary>Parsing and encoding of a <i>CertificateRequest</i> struct from RFC 4346.</summary>
/// <remarks>
/// <pre>
/// struct {
/// ClientCertificateType certificate_types<1..2^8-1>;
/// DistinguishedName certificate_authorities<3..2^16-1>;
/// } CertificateRequest;
/// </pre>
/// Updated for RFC 5246:
/// <pre>
/// struct {
/// ClientCertificateType certificate_types <1..2 ^ 8 - 1>;
/// SignatureAndHashAlgorithm supported_signature_algorithms <2 ^ 16 - 1>;
/// DistinguishedName certificate_authorities <0..2 ^ 16 - 1>;
/// } CertificateRequest;
/// </pre>
/// Revised for RFC 8446:
/// <pre>
/// struct {
/// opaque certificate_request_context <0..2 ^ 8 - 1>;
/// Extension extensions <2..2 ^ 16 - 1>;
/// } CertificateRequest;
/// </pre>
/// </remarks>
/// <seealso cref="ClientCertificateType"/>
/// <seealso cref="X509Name"/>
public sealed class CertificateRequest
{
/// <exception cref="IOException"/>
private static IList CheckSupportedSignatureAlgorithms(IList supportedSignatureAlgorithms,
short alertDescription)
{
if (null == supportedSignatureAlgorithms)
throw new TlsFatalAlert(alertDescription, "'signature_algorithms' is required");
return supportedSignatureAlgorithms;
}
private readonly byte[] m_certificateRequestContext;
private readonly short[] m_certificateTypes;
private readonly IList m_supportedSignatureAlgorithms;
private readonly IList m_supportedSignatureAlgorithmsCert;
private readonly IList m_certificateAuthorities;
/// <param name="certificateTypes">see <see cref="ClientCertificateType"/> for valid constants.</param>
/// <param name="supportedSignatureAlgorithms"></param>
/// <param name="certificateAuthorities">an <see cref="IList"/> of <see cref="X509Name"/>.</param>
public CertificateRequest(short[] certificateTypes, IList supportedSignatureAlgorithms,
IList certificateAuthorities)
: this(null, certificateTypes, supportedSignatureAlgorithms, null, certificateAuthorities)
{
}
// TODO[tls13] Prefer to manage the certificateRequestContext internally only?
/// <exception cref="IOException"/>
public CertificateRequest(byte[] certificateRequestContext, IList supportedSignatureAlgorithms,
IList supportedSignatureAlgorithmsCert, IList certificateAuthorities)
: this(certificateRequestContext, null,
CheckSupportedSignatureAlgorithms(supportedSignatureAlgorithms, AlertDescription.internal_error),
supportedSignatureAlgorithmsCert, certificateAuthorities)
{
/*
* TODO[tls13] Removed certificateTypes, added certificate_request_context, added extensions
* (required: signature_algorithms, optional: status_request, signed_certificate_timestamp,
* certificate_authorities, oid_filters, signature_algorithms_cert)
*/
}
private CertificateRequest(byte[] certificateRequestContext, short[] certificateTypes,
IList supportedSignatureAlgorithms, IList supportedSignatureAlgorithmsCert, IList certificateAuthorities)
{
if (null != certificateRequestContext && !TlsUtilities.IsValidUint8(certificateRequestContext.Length))
throw new ArgumentException("cannot be longer than 255", "certificateRequestContext");
if (null != certificateTypes
&& (certificateTypes.Length < 1 || !TlsUtilities.IsValidUint8(certificateTypes.Length)))
{
throw new ArgumentException("should have length from 1 to 255", "certificateTypes");
}
this.m_certificateRequestContext = TlsUtilities.Clone(certificateRequestContext);
this.m_certificateTypes = certificateTypes;
this.m_supportedSignatureAlgorithms = supportedSignatureAlgorithms;
this.m_supportedSignatureAlgorithmsCert = supportedSignatureAlgorithmsCert;
this.m_certificateAuthorities = certificateAuthorities;
}
public byte[] GetCertificateRequestContext()
{
return TlsUtilities.Clone(m_certificateRequestContext);
}
/// <returns>an array of certificate types</returns>
/// <seealso cref="ClientCertificateType"/>
public short[] CertificateTypes
{
get { return m_certificateTypes; }
}
/// <returns>an <see cref="IList"/> of <see cref="SignatureAndHashAlgorithm"/> (or null before TLS 1.2).
/// </returns>
public IList SupportedSignatureAlgorithms
{
get { return m_supportedSignatureAlgorithms; }
}
/// <returns>an optional <see cref="IList"/> of <see cref="SignatureAndHashAlgorithm"/>. May be non-null from
/// TLS 1.3 onwards.</returns>
public IList SupportedSignatureAlgorithmsCert
{
get { return m_supportedSignatureAlgorithmsCert; }
}
/// <returns>an <see cref="IList"/> of <see cref="X509Name"/>.</returns>
public IList CertificateAuthorities
{
get { return m_certificateAuthorities; }
}
public bool HasCertificateRequestContext(byte[] certificateRequestContext)
{
return Arrays.AreEqual(m_certificateRequestContext, certificateRequestContext);
}
/// <summary>Encode this <see cref="CertificateRequest"/> to a <see cref="Stream"/>.</summary>
/// <param name="context">the <see cref="TlsContext"/> of the current connection.</param>
/// <param name="output">the <see cref="Stream"/> to encode to.</param>
/// <exception cref="IOException"/>
public void Encode(TlsContext context, Stream output)
{
ProtocolVersion negotiatedVersion = context.ServerVersion;
bool isTlsV12 = TlsUtilities.IsTlsV12(negotiatedVersion);
bool isTlsV13 = TlsUtilities.IsTlsV13(negotiatedVersion);
if (isTlsV13 != (null != m_certificateRequestContext) ||
isTlsV13 != (null == m_certificateTypes) ||
isTlsV12 != (null != m_supportedSignatureAlgorithms) ||
(!isTlsV13 && (null != m_supportedSignatureAlgorithmsCert)))
{
throw new InvalidOperationException();
}
if (isTlsV13)
{
TlsUtilities.WriteOpaque8(m_certificateRequestContext, output);
IDictionary extensions = Platform.CreateHashtable();
TlsExtensionsUtilities.AddSignatureAlgorithmsExtension(extensions, m_supportedSignatureAlgorithms);
if (null != m_supportedSignatureAlgorithmsCert)
{
TlsExtensionsUtilities.AddSignatureAlgorithmsCertExtension(extensions,
m_supportedSignatureAlgorithmsCert);
}
if (null != m_certificateAuthorities)
{
TlsExtensionsUtilities.AddCertificateAuthoritiesExtension(extensions, m_certificateAuthorities);
}
byte[] extEncoding = TlsProtocol.WriteExtensionsData(extensions);
TlsUtilities.WriteOpaque16(extEncoding, output);
return;
}
TlsUtilities.WriteUint8ArrayWithUint8Length(m_certificateTypes, output);
if (isTlsV12)
{
// TODO Check whether SignatureAlgorithm.anonymous is allowed here
TlsUtilities.EncodeSupportedSignatureAlgorithms(m_supportedSignatureAlgorithms, output);
}
if (m_certificateAuthorities == null || m_certificateAuthorities.Count < 1)
{
TlsUtilities.WriteUint16(0, output);
}
else
{
IList derEncodings = Platform.CreateArrayList(m_certificateAuthorities.Count);
int totalLength = 0;
foreach (X509Name certificateAuthority in m_certificateAuthorities)
{
byte[] derEncoding = certificateAuthority.GetEncoded(Asn1Encodable.Der);
derEncodings.Add(derEncoding);
totalLength += derEncoding.Length + 2;
}
TlsUtilities.CheckUint16(totalLength);
TlsUtilities.WriteUint16(totalLength, output);
foreach (byte[] derEncoding in derEncodings)
{
TlsUtilities.WriteOpaque16(derEncoding, output);
}
}
}
/// <summary>Parse a <see cref="CertificateRequest"/> from a <see cref="Stream"/></summary>
/// <param name="context">the <see cref="TlsContext"/> of the current connection.</param>
/// <param name="input">the <see cref="Stream"/> to parse from.</param>
/// <returns>a <see cref="CertificateRequest"/> object.</returns>
/// <exception cref="IOException"/>
public static CertificateRequest Parse(TlsContext context, Stream input)
{
ProtocolVersion negotiatedVersion = context.ServerVersion;
bool isTlsV13 = TlsUtilities.IsTlsV13(negotiatedVersion);
if (isTlsV13)
{
byte[] certificateRequestContext = TlsUtilities.ReadOpaque8(input);
/*
* TODO[tls13] required: signature_algorithms; optional: status_request,
* signed_certificate_timestamp, certificate_authorities, oid_filters,
* signature_algorithms_cert
*/
byte[] extEncoding = TlsUtilities.ReadOpaque16(input);
IDictionary extensions = TlsProtocol.ReadExtensionsData13(HandshakeType.certificate_request,
extEncoding);
IList supportedSignatureAlgorithms13 = CheckSupportedSignatureAlgorithms(
TlsExtensionsUtilities.GetSignatureAlgorithmsExtension(extensions),
AlertDescription.missing_extension);
IList supportedSignatureAlgorithmsCert13 = TlsExtensionsUtilities
.GetSignatureAlgorithmsCertExtension(extensions);
IList certificateAuthorities13 = TlsExtensionsUtilities.GetCertificateAuthoritiesExtension(extensions);
return new CertificateRequest(certificateRequestContext, supportedSignatureAlgorithms13,
supportedSignatureAlgorithmsCert13, certificateAuthorities13);
}
bool isTLSv12 = TlsUtilities.IsTlsV12(negotiatedVersion);
short[] certificateTypes = TlsUtilities.ReadUint8ArrayWithUint8Length(input, 1);
IList supportedSignatureAlgorithms = null;
if (isTLSv12)
{
supportedSignatureAlgorithms = TlsUtilities.ParseSupportedSignatureAlgorithms(input);
}
IList certificateAuthorities = null;
{
byte[] certAuthData = TlsUtilities.ReadOpaque16(input);
if (certAuthData.Length > 0)
{
certificateAuthorities = Platform.CreateArrayList();
MemoryStream bis = new MemoryStream(certAuthData, false);
do
{
byte[] derEncoding = TlsUtilities.ReadOpaque16(bis, 1);
Asn1Object asn1 = TlsUtilities.ReadAsn1Object(derEncoding);
X509Name ca = X509Name.GetInstance(asn1);
TlsUtilities.RequireDerEncoding(ca, derEncoding);
certificateAuthorities.Add(ca);
}
while (bis.Position < bis.Length);
}
}
return new CertificateRequest(certificateTypes, supportedSignatureAlgorithms, certificateAuthorities);
}
}
}
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