public Pfx(
ContentInfo contentInfo,
MacData macData)
{
this.contentInfo = contentInfo;
this.macData = macData;
}
public SignedData(
DerInteger _version,
Asn1Set _digestAlgorithms,
ContentInfo _contentInfo,
Asn1Set _certificates,
Asn1Set _crls,
Asn1Set _signerInfos)
{
version = _version;
digestAlgorithms = _digestAlgorithms;
contentInfo = _contentInfo;
certificates = _certificates;
crls = _crls;
signerInfos = _signerInfos;
}
public Pfx(
Asn1Sequence seq)
{
BigInteger version = ((DerInteger) seq[0]).Value;
if (version.IntValue != 3)
{
throw new ArgumentException("wrong version for PFX PDU");
}
contentInfo = ContentInfo.GetInstance(seq[1]);
if (seq.Count == 3)
{
macData = MacData.GetInstance(seq[2]);
}
}
private SignedData(
Asn1Sequence seq)
{
IEnumerator e = seq.GetEnumerator();
e.MoveNext();
version = (DerInteger) e.Current;
e.MoveNext();
digestAlgorithms = (Asn1Set) e.Current;
e.MoveNext();
contentInfo = ContentInfo.GetInstance(e.Current);
while (e.MoveNext())
{
Asn1Object o = (Asn1Object) e.Current;
//
// an interesting feature of SignedData is that there appear to be varying implementations...
// for the moment we ignore anything which doesn't fit.
//
if (o is DerTaggedObject)
{
DerTaggedObject tagged = (DerTaggedObject) o;
switch (tagged.TagNo)
{
case 0:
certificates = Asn1Set.GetInstance(tagged, false);
break;
case 1:
crls = Asn1Set.GetInstance(tagged, false);
break;
default:
throw new ArgumentException("unknown tag value " + tagged.TagNo);
}
}
else
{
signerInfos = (Asn1Set) o;
}
}
}
/**
* Re-encode the PKCS#12 structure to definite length encoding at the inner layer
* as well, recomputing the MAC accordingly.
*
* @param berPKCS12File - original PKCS12 file.
* @param provider - provider to use for MAC calculation.
* @return a byte array representing the DER encoding of the PFX structure.
* @throws IOException on parsing, encoding errors.
*/
public static byte[] ConvertToDefiniteLength(
byte[] berPkcs12File,
char[] passwd)
{
Pfx pfx = new Pfx(Asn1Sequence.GetInstance(Asn1Object.FromByteArray(berPkcs12File)));
ContentInfo info = pfx.AuthSafe;
Asn1OctetString content = Asn1OctetString.GetInstance(info.Content);
Asn1Object obj = Asn1Object.FromByteArray(content.GetOctets());
info = new ContentInfo(info.ContentType, new DerOctetString(obj.GetEncoded(Asn1Encodable.Der)));
MacData mData = pfx.MacData;
try
{
int itCount = mData.IterationCount.IntValue;
byte[] data = Asn1OctetString.GetInstance(info.Content).GetOctets();
byte[] res = Pkcs12Store.CalculatePbeMac(
mData.Mac.AlgorithmID.ObjectID, mData.GetSalt(), itCount, passwd, false, data);
AlgorithmIdentifier algId = new AlgorithmIdentifier(
mData.Mac.AlgorithmID.ObjectID, DerNull.Instance);
DigestInfo dInfo = new DigestInfo(algId, res);
mData = new MacData(dInfo, mData.GetSalt(), itCount);
}
catch (Exception e)
{
throw new IOException("error constructing MAC: " + e.ToString());
}
pfx = new Pfx(info, mData);
return pfx.GetEncoded(Asn1Encodable.Der);
}
public void Save(Stream stream, char[] password, SecureRandom random)
{
if (stream == null)
{
throw new ArgumentNullException("stream");
}
if (password == null)
{
throw new ArgumentNullException("password");
}
if (random == null)
{
throw new ArgumentNullException("random");
}
//
// handle the key
//
var keyS = new Asn1EncodableVector();
foreach (string name in _keys.Keys)
{
var kSalt = new byte[SaltSize];
random.NextBytes(kSalt);
var privKey = (AsymmetricKeyEntry) _keys[name];
EncryptedPrivateKeyInfo kInfo = EncryptedPrivateKeyInfoFactory.CreateEncryptedPrivateKeyInfo(_keyAlgorithm, password, kSalt, MinIterations, privKey.Key);
var kName = new Asn1EncodableVector();
foreach (string oid in privKey.BagAttributeKeys)
{
Asn1Encodable entry = privKey[oid];
// NB: Ignore any existing FriendlyName
if (oid.Equals(PkcsObjectIdentifiers.Pkcs9AtFriendlyName.Id))
{
continue;
}
kName.Add(new DerSequence(new DerObjectIdentifier(oid), new DerSet(entry)));
}
//
// make sure we are using the local alias on store
//
// NB: We always set the FriendlyName based on 'name'
//if (privKey[PkcsObjectIdentifiers.Pkcs9AtFriendlyName] == null)
{
kName.Add(new DerSequence(PkcsObjectIdentifiers.Pkcs9AtFriendlyName, new DerSet(new DerBmpString(name))));
}
//
// make sure we have a local key-id
//
if (privKey[PkcsObjectIdentifiers.Pkcs9AtLocalKeyID] == null)
{
X509CertificateEntry ct = GetCertificate(name);
AsymmetricKeyParameter pubKey = ct.Certificate.GetPublicKey();
SubjectKeyIdentifier subjectKeyID = CreateSubjectKeyID(pubKey);
kName.Add(new DerSequence(PkcsObjectIdentifiers.Pkcs9AtLocalKeyID, new DerSet(subjectKeyID)));
}
var kBag = new SafeBag(PkcsObjectIdentifiers.Pkcs8ShroudedKeyBag, kInfo.ToAsn1Object(), new DerSet(kName));
keyS.Add(kBag);
}
byte[] derEncodedBytes = new DerSequence(keyS).GetDerEncoded();
var keyString = new BerOctetString(derEncodedBytes);
//
// certificate processing
//
var cSalt = new byte[SaltSize];
random.NextBytes(cSalt);
var certSeq = new Asn1EncodableVector();
var cParams = new Pkcs12PbeParams(cSalt, MinIterations);
var cAlgId = new AlgorithmIdentifier(_certAlgorithm, cParams.ToAsn1Object());
ISet doneCerts = new HashSet();
foreach (string name in _keys.Keys)
{
X509CertificateEntry certEntry = GetCertificate(name);
var cBag = new CertBag(PkcsObjectIdentifiers.X509Certificate, new DerOctetString(certEntry.Certificate.GetEncoded()));
var fName = new Asn1EncodableVector();
foreach (string oid in certEntry.BagAttributeKeys)
{
Asn1Encodable entry = certEntry[oid];
// NB: Ignore any existing FriendlyName
if (oid.Equals(PkcsObjectIdentifiers.Pkcs9AtFriendlyName.Id))
{
continue;
}
fName.Add(new DerSequence(new DerObjectIdentifier(oid), new DerSet(entry)));
}
//
// make sure we are using the local alias on store
//
// NB: We always set the FriendlyName based on 'name'
//if (certEntry[PkcsObjectIdentifiers.Pkcs9AtFriendlyName] == null)
{
fName.Add(new DerSequence(PkcsObjectIdentifiers.Pkcs9AtFriendlyName, new DerSet(new DerBmpString(name))));
}
//
// make sure we have a local key-id
//
if (certEntry[PkcsObjectIdentifiers.Pkcs9AtLocalKeyID] == null)
{
AsymmetricKeyParameter pubKey = certEntry.Certificate.GetPublicKey();
SubjectKeyIdentifier subjectKeyID = CreateSubjectKeyID(pubKey);
fName.Add(new DerSequence(PkcsObjectIdentifiers.Pkcs9AtLocalKeyID, new DerSet(subjectKeyID)));
}
var sBag = new SafeBag(PkcsObjectIdentifiers.CertBag, cBag.ToAsn1Object(), new DerSet(fName));
certSeq.Add(sBag);
doneCerts.Add(certEntry.Certificate);
}
foreach (string certId in _certs.Keys)
{
var cert = (X509CertificateEntry) _certs[certId];
if (_keys[certId] != null)
{
continue;
}
var cBag = new CertBag(PkcsObjectIdentifiers.X509Certificate, new DerOctetString(cert.Certificate.GetEncoded()));
var fName = new Asn1EncodableVector();
foreach (string oid in cert.BagAttributeKeys)
{
// a certificate not immediately linked to a key doesn't require
// a localKeyID and will confuse some PKCS12 implementations.
//
// If we find one, we'll prune it out.
if (oid.Equals(PkcsObjectIdentifiers.Pkcs9AtLocalKeyID.Id))
{
continue;
}
Asn1Encodable entry = cert[oid];
// NB: Ignore any existing FriendlyName
if (oid.Equals(PkcsObjectIdentifiers.Pkcs9AtFriendlyName.Id))
{
continue;
}
fName.Add(new DerSequence(new DerObjectIdentifier(oid), new DerSet(entry)));
}
//
// make sure we are using the local alias on store
//
// NB: We always set the FriendlyName based on 'certId'
//if (cert[PkcsObjectIdentifiers.Pkcs9AtFriendlyName] == null)
{
fName.Add(new DerSequence(PkcsObjectIdentifiers.Pkcs9AtFriendlyName, new DerSet(new DerBmpString(certId))));
}
var sBag = new SafeBag(PkcsObjectIdentifiers.CertBag, cBag.ToAsn1Object(), new DerSet(fName));
certSeq.Add(sBag);
doneCerts.Add(cert.Certificate);
}
foreach (CertId certId in _chainCerts.Keys)
{
var cert = (X509CertificateEntry) _chainCerts[certId];
if (doneCerts.Contains(cert.Certificate))
{
continue;
}
var cBag = new CertBag(PkcsObjectIdentifiers.X509Certificate, new DerOctetString(cert.Certificate.GetEncoded()));
var fName = new Asn1EncodableVector();
foreach (string oid in cert.BagAttributeKeys)
{
// a certificate not immediately linked to a key doesn't require
// a localKeyID and will confuse some PKCS12 implementations.
//
// If we find one, we'll prune it out.
if (oid.Equals(PkcsObjectIdentifiers.Pkcs9AtLocalKeyID.Id))
{
continue;
}
fName.Add(new DerSequence(new DerObjectIdentifier(oid), new DerSet(cert[oid])));
}
var sBag = new SafeBag(PkcsObjectIdentifiers.CertBag, cBag.ToAsn1Object(), new DerSet(fName));
certSeq.Add(sBag);
}
derEncodedBytes = new DerSequence(certSeq).GetDerEncoded();
byte[] certBytes = CryptPbeData(true, cAlgId, password, false, derEncodedBytes);
var cInfo = new EncryptedData(PkcsObjectIdentifiers.Data, cAlgId, new BerOctetString(certBytes));
ContentInfo[] info = {new ContentInfo(PkcsObjectIdentifiers.Data, keyString), new ContentInfo(PkcsObjectIdentifiers.EncryptedData, cInfo.ToAsn1Object())};
byte[] data = new AuthenticatedSafe(info).GetEncoded(_useDerEncoding ? Asn1Encodable.Der : Asn1Encodable.Ber);
var mainInfo = new ContentInfo(PkcsObjectIdentifiers.Data, new BerOctetString(data));
//
// create the mac
//
var mSalt = new byte[20];
random.NextBytes(mSalt);
byte[] mac = CalculatePbeMac(OiwObjectIdentifiers.IdSha1, mSalt, MinIterations, password, false, data);
var algId = new AlgorithmIdentifier(OiwObjectIdentifiers.IdSha1, DerNull.Instance);
var dInfo = new DigestInfo(algId, mac);
var mData = new MacData(dInfo, mSalt, MinIterations);
//
// output the Pfx
//
var pfx = new Pfx(mainInfo, mData);
DerOutputStream derOut;
if (_useDerEncoding)
{
derOut = new DerOutputStream(stream);
}
else
{
derOut = new BerOutputStream(stream);
}
derOut.WriteObject(pfx);
}
public AuthenticatedSafe(
ContentInfo[] info)
{
this.info = (ContentInfo[]) info.Clone();
}