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using System;
using System.Collections;
using System.Diagnostics;
using System.IO;
using System.Text;
using Org.BouncyCastle.Asn1;
using Org.BouncyCastle.Asn1.Nist;
using Org.BouncyCastle.Asn1.Pkcs;
using Org.BouncyCastle.Asn1.Sec;
using Org.BouncyCastle.Asn1.TeleTrust;
using Org.BouncyCastle.Asn1.X509;
using Org.BouncyCastle.Asn1.X9;
using Org.BouncyCastle.Crypto;
using Org.BouncyCastle.Crypto.Generators;
using Org.BouncyCastle.Crypto.Parameters;
using Org.BouncyCastle.Pkcs;
using Org.BouncyCastle.Security;
using Org.BouncyCastle.Utilities;
using Org.BouncyCastle.Utilities.Encoders;
using Org.BouncyCastle.Utilities.IO.Pem;
using Org.BouncyCastle.X509;
namespace Org.BouncyCastle.OpenSsl
{
/**
* Class for reading OpenSSL PEM encoded streams containing
* X509 certificates, PKCS8 encoded keys and PKCS7 objects.
* <p>
* In the case of PKCS7 objects the reader will return a CMS ContentInfo object. Keys and
* Certificates will be returned using the appropriate java.security type.</p>
*/
public class PemReader
: Org.BouncyCastle.Utilities.IO.Pem.PemReader
{
// private static readonly IDictionary parsers = new Hashtable();
static PemReader()
{
// parsers.Add("CERTIFICATE REQUEST", new PKCS10CertificationRequestParser());
// parsers.Add("NEW CERTIFICATE REQUEST", new PKCS10CertificationRequestParser());
// parsers.Add("CERTIFICATE", new X509CertificateParser(provider));
// parsers.Add("X509 CERTIFICATE", new X509CertificateParser(provider));
// parsers.Add("X509 CRL", new X509CRLParser(provider));
// parsers.Add("PKCS7", new PKCS7Parser());
// parsers.Add("ATTRIBUTE CERTIFICATE", new X509AttributeCertificateParser());
// parsers.Add("EC PARAMETERS", new ECNamedCurveSpecParser());
// parsers.Add("PUBLIC KEY", new PublicKeyParser(provider));
// parsers.Add("RSA PUBLIC KEY", new RSAPublicKeyParser(provider));
// parsers.Add("RSA PRIVATE KEY", new RSAKeyPairParser(provider));
// parsers.Add("DSA PRIVATE KEY", new DSAKeyPairParser(provider));
// parsers.Add("EC PRIVATE KEY", new ECDSAKeyPairParser(provider));
// parsers.Add("ENCRYPTED PRIVATE KEY", new EncryptedPrivateKeyParser(provider));
// parsers.Add("PRIVATE KEY", new PrivateKeyParser(provider));
}
private readonly IPasswordFinder pFinder;
/**
* Create a new PemReader
*
* @param reader the Reader
*/
public PemReader(
TextReader reader)
: this(reader, null)
{
}
/**
* Create a new PemReader with a password finder
*
* @param reader the Reader
* @param pFinder the password finder
*/
public PemReader(
TextReader reader,
IPasswordFinder pFinder)
: base(reader)
{
this.pFinder = pFinder;
}
public object ReadObject()
{
PemObject obj = ReadPemObject();
if (obj == null)
return null;
// TODO Follow Java build and map to parser objects?
// if (parsers.Contains(obj.Type))
// return ((PemObjectParser)parsers[obj.Type]).ParseObject(obj);
if (obj.Type.EndsWith("PRIVATE KEY"))
return ReadPrivateKey(obj);
switch (obj.Type)
{
case "PUBLIC KEY":
return ReadPublicKey(obj);
case "RSA PUBLIC KEY":
return ReadRsaPublicKey(obj);
case "CERTIFICATE REQUEST":
case "NEW CERTIFICATE REQUEST":
return ReadCertificateRequest(obj);
case "CERTIFICATE":
case "X509 CERTIFICATE":
return ReadCertificate(obj);
case "PKCS7":
return ReadPkcs7(obj);
case "X509 CRL":
return ReadCrl(obj);
case "ATTRIBUTE CERTIFICATE":
return ReadAttributeCertificate(obj);
// TODO Add back in when tests done, and return type issue resolved
//case "EC PARAMETERS":
// return ReadECParameters(obj);
default:
throw new IOException("unrecognised object: " + obj.Type);
}
}
private AsymmetricKeyParameter ReadRsaPublicKey(PemObject pemObject)
{
RsaPublicKeyStructure rsaPubStructure = RsaPublicKeyStructure.GetInstance(
Asn1Object.FromByteArray(pemObject.Content));
return new RsaKeyParameters(
false, // not private
rsaPubStructure.Modulus,
rsaPubStructure.PublicExponent);
}
private AsymmetricKeyParameter ReadPublicKey(PemObject pemObject)
{
return PublicKeyFactory.CreateKey(pemObject.Content);
}
/**
* Reads in a X509Certificate.
*
* @return the X509Certificate
* @throws IOException if an I/O error occured
*/
private X509Certificate ReadCertificate(PemObject pemObject)
{
try
{
return new X509CertificateParser().ReadCertificate(pemObject.Content);
}
catch (Exception e)
{
throw new PemException("problem parsing cert: " + e.ToString());
}
}
/**
* Reads in a X509CRL.
*
* @return the X509Certificate
* @throws IOException if an I/O error occured
*/
private X509Crl ReadCrl(PemObject pemObject)
{
try
{
return new X509CrlParser().ReadCrl(pemObject.Content);
}
catch (Exception e)
{
throw new PemException("problem parsing cert: " + e.ToString());
}
}
/**
* Reads in a PKCS10 certification request.
*
* @return the certificate request.
* @throws IOException if an I/O error occured
*/
private Pkcs10CertificationRequest ReadCertificateRequest(PemObject pemObject)
{
try
{
return new Pkcs10CertificationRequest(pemObject.Content);
}
catch (Exception e)
{
throw new PemException("problem parsing cert: " + e.ToString());
}
}
/**
* Reads in a X509 Attribute Certificate.
*
* @return the X509 Attribute Certificate
* @throws IOException if an I/O error occured
*/
private IX509AttributeCertificate ReadAttributeCertificate(PemObject pemObject)
{
return new X509V2AttributeCertificate(pemObject.Content);
}
/**
* Reads in a PKCS7 object. This returns a ContentInfo object suitable for use with the CMS
* API.
*
* @return the X509Certificate
* @throws IOException if an I/O error occured
*/
// TODO Consider returning Asn1.Pkcs.ContentInfo
private Asn1.Cms.ContentInfo ReadPkcs7(PemObject pemObject)
{
try
{
return Asn1.Cms.ContentInfo.GetInstance(
Asn1Object.FromByteArray(pemObject.Content));
}
catch (Exception e)
{
throw new PemException("problem parsing PKCS7 object: " + e.ToString());
}
}
/**
* Read a Key Pair
*/
private object ReadPrivateKey(PemObject pemObject)
{
//
// extract the key
//
Debug.Assert(pemObject.Type.EndsWith("PRIVATE KEY"));
string type = pemObject.Type.Substring(0, pemObject.Type.Length - "PRIVATE KEY".Length).Trim();
byte[] keyBytes = pemObject.Content;
IDictionary fields = Platform.CreateHashtable();
foreach (PemHeader header in pemObject.Headers)
{
fields[header.Name] = header.Value;
}
string procType = (string) fields["Proc-Type"];
if (procType == "4,ENCRYPTED")
{
if (pFinder == null)
throw new PasswordException("No password finder specified, but a password is required");
char[] password = pFinder.GetPassword();
if (password == null)
throw new PasswordException("Password is null, but a password is required");
string dekInfo = (string) fields["DEK-Info"];
string[] tknz = dekInfo.Split(',');
string dekAlgName = tknz[0].Trim();
byte[] iv = Hex.Decode(tknz[1].Trim());
keyBytes = PemUtilities.Crypt(false, keyBytes, password, dekAlgName, iv);
}
try
{
AsymmetricKeyParameter pubSpec, privSpec;
Asn1Sequence seq = Asn1Sequence.GetInstance(keyBytes);
switch (type)
{
case "RSA":
{
if (seq.Count != 9)
throw new PemException("malformed sequence in RSA private key");
RsaPrivateKeyStructure rsa = new RsaPrivateKeyStructure(seq);
pubSpec = new RsaKeyParameters(false, rsa.Modulus, rsa.PublicExponent);
privSpec = new RsaPrivateCrtKeyParameters(
rsa.Modulus, rsa.PublicExponent, rsa.PrivateExponent,
rsa.Prime1, rsa.Prime2, rsa.Exponent1, rsa.Exponent2,
rsa.Coefficient);
break;
}
case "DSA":
{
if (seq.Count != 6)
throw new PemException("malformed sequence in DSA private key");
// TODO Create an ASN1 object somewhere for this?
//DerInteger v = (DerInteger)seq[0];
DerInteger p = (DerInteger)seq[1];
DerInteger q = (DerInteger)seq[2];
DerInteger g = (DerInteger)seq[3];
DerInteger y = (DerInteger)seq[4];
DerInteger x = (DerInteger)seq[5];
DsaParameters parameters = new DsaParameters(p.Value, q.Value, g.Value);
privSpec = new DsaPrivateKeyParameters(x.Value, parameters);
pubSpec = new DsaPublicKeyParameters(y.Value, parameters);
break;
}
case "EC":
{
ECPrivateKeyStructure pKey = new ECPrivateKeyStructure(seq);
AlgorithmIdentifier algId = new AlgorithmIdentifier(
X9ObjectIdentifiers.IdECPublicKey, pKey.GetParameters());
PrivateKeyInfo privInfo = new PrivateKeyInfo(algId, pKey.ToAsn1Object());
// TODO Are the keys returned here ECDSA, as Java version forces?
privSpec = PrivateKeyFactory.CreateKey(privInfo);
DerBitString pubKey = pKey.GetPublicKey();
if (pubKey != null)
{
SubjectPublicKeyInfo pubInfo = new SubjectPublicKeyInfo(algId, pubKey.GetBytes());
// TODO Are the keys returned here ECDSA, as Java version forces?
pubSpec = PublicKeyFactory.CreateKey(pubInfo);
}
else
{
pubSpec = ECKeyPairGenerator.GetCorrespondingPublicKey(
(ECPrivateKeyParameters)privSpec);
}
break;
}
case "ENCRYPTED":
{
char[] password = pFinder.GetPassword();
if (password == null)
throw new PasswordException("Password is null, but a password is required");
return PrivateKeyFactory.DecryptKey(password, EncryptedPrivateKeyInfo.GetInstance(seq));
}
case "":
{
return PrivateKeyFactory.CreateKey(PrivateKeyInfo.GetInstance(seq));
}
default:
throw new ArgumentException("Unknown key type: " + type, "type");
}
return new AsymmetricCipherKeyPair(pubSpec, privSpec);
}
catch (IOException e)
{
throw e;
}
catch (Exception e)
{
throw new PemException(
"problem creating " + type + " private key: " + e.ToString());
}
}
// TODO Add an equivalent class for ECNamedCurveParameterSpec?
//private ECNamedCurveParameterSpec ReadECParameters(
// private X9ECParameters ReadECParameters(PemObject pemObject)
// {
// DerObjectIdentifier oid = (DerObjectIdentifier)Asn1Object.FromByteArray(pemObject.Content);
//
// //return ECNamedCurveTable.getParameterSpec(oid.Id);
// return GetCurveParameters(oid.Id);
// }
//private static ECDomainParameters GetCurveParameters(
private static X9ECParameters GetCurveParameters(
string name)
{
// TODO ECGost3410NamedCurves support (returns ECDomainParameters though)
X9ECParameters ecP = X962NamedCurves.GetByName(name);
if (ecP == null)
{
ecP = SecNamedCurves.GetByName(name);
if (ecP == null)
{
ecP = NistNamedCurves.GetByName(name);
if (ecP == null)
{
ecP = TeleTrusTNamedCurves.GetByName(name);
if (ecP == null)
throw new Exception("unknown curve name: " + name);
}
}
}
//return new ECDomainParameters(ecP.Curve, ecP.G, ecP.N, ecP.H, ecP.GetSeed());
return ecP;
}
}
}
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