use of com.github.zhenwei.core.asn1.BEROctetString in project robovm by robovm.
the class CMSSignedDataGenerator method generate.
public CMSSignedData generate(// FIXME Avoid accessing more than once to support CMSProcessableInputStream
CMSTypedData content, boolean encapsulate) throws CMSException {
if (!signerInfs.isEmpty()) {
throw new IllegalStateException("this method can only be used with SignerInfoGenerator");
}
// TODO
// if (signerInfs.isEmpty())
// {
// /* RFC 3852 5.2
// * "In the degenerate case where there are no signers, the
// * EncapsulatedContentInfo value being "signed" is irrelevant. In this
// * case, the content type within the EncapsulatedContentInfo value being
// * "signed" MUST be id-data (as defined in section 4), and the content
// * field of the EncapsulatedContentInfo value MUST be omitted."
// */
// if (encapsulate)
// {
// throw new IllegalArgumentException("no signers, encapsulate must be false");
// }
// if (!DATA.equals(eContentType))
// {
// throw new IllegalArgumentException("no signers, eContentType must be id-data");
// }
// }
//
// if (!DATA.equals(eContentType))
// {
// /* RFC 3852 5.3
// * [The 'signedAttrs']...
// * field is optional, but it MUST be present if the content type of
// * the EncapsulatedContentInfo value being signed is not id-data.
// */
// // TODO signedAttrs must be present for all signers
// }
ASN1EncodableVector digestAlgs = new ASN1EncodableVector();
ASN1EncodableVector signerInfos = new ASN1EncodableVector();
// clear the current preserved digest state
digests.clear();
//
for (Iterator it = _signers.iterator(); it.hasNext(); ) {
SignerInformation signer = (SignerInformation) it.next();
digestAlgs.add(CMSSignedHelper.INSTANCE.fixAlgID(signer.getDigestAlgorithmID()));
// TODO Verify the content type and calculated digest match the precalculated SignerInfo
signerInfos.add(signer.toASN1Structure());
}
//
// add the SignerInfo objects
//
ASN1ObjectIdentifier contentTypeOID = content.getContentType();
ASN1OctetString octs = null;
if (content != null) {
ByteArrayOutputStream bOut = null;
if (encapsulate) {
bOut = new ByteArrayOutputStream();
}
OutputStream cOut = CMSUtils.attachSignersToOutputStream(signerGens, bOut);
// Just in case it's unencapsulated and there are no signers!
cOut = CMSUtils.getSafeOutputStream(cOut);
try {
content.write(cOut);
cOut.close();
} catch (IOException e) {
throw new CMSException("data processing exception: " + e.getMessage(), e);
}
if (encapsulate) {
octs = new BEROctetString(bOut.toByteArray());
}
}
for (Iterator it = signerGens.iterator(); it.hasNext(); ) {
SignerInfoGenerator sGen = (SignerInfoGenerator) it.next();
SignerInfo inf = sGen.generate(contentTypeOID);
digestAlgs.add(inf.getDigestAlgorithm());
signerInfos.add(inf);
byte[] calcDigest = sGen.getCalculatedDigest();
if (calcDigest != null) {
digests.put(inf.getDigestAlgorithm().getAlgorithm().getId(), calcDigest);
}
}
ASN1Set certificates = null;
if (certs.size() != 0) {
certificates = CMSUtils.createBerSetFromList(certs);
}
ASN1Set certrevlist = null;
if (crls.size() != 0) {
certrevlist = CMSUtils.createBerSetFromList(crls);
}
ContentInfo encInfo = new ContentInfo(contentTypeOID, octs);
SignedData sd = new SignedData(new DERSet(digestAlgs), encInfo, certificates, certrevlist, new DERSet(signerInfos));
ContentInfo contentInfo = new ContentInfo(CMSObjectIdentifiers.signedData, sd);
return new CMSSignedData(content, contentInfo);
}
use of com.github.zhenwei.core.asn1.BEROctetString in project robovm by robovm.
the class ASN1Dump method _dumpAsString.
/**
* dump a DER object as a formatted string with indentation
*
* @param obj the ASN1Primitive to be dumped out.
*/
static void _dumpAsString(String indent, boolean verbose, ASN1Primitive obj, StringBuffer buf) {
String nl = System.getProperty("line.separator");
if (obj instanceof ASN1Sequence) {
Enumeration e = ((ASN1Sequence) obj).getObjects();
String tab = indent + TAB;
buf.append(indent);
if (obj instanceof BERSequence) {
buf.append("BER Sequence");
} else if (obj instanceof DERSequence) {
buf.append("DER Sequence");
} else {
buf.append("Sequence");
}
buf.append(nl);
while (e.hasMoreElements()) {
Object o = e.nextElement();
if (o == null || o.equals(DERNull.INSTANCE)) {
buf.append(tab);
buf.append("NULL");
buf.append(nl);
} else if (o instanceof ASN1Primitive) {
_dumpAsString(tab, verbose, (ASN1Primitive) o, buf);
} else {
_dumpAsString(tab, verbose, ((ASN1Encodable) o).toASN1Primitive(), buf);
}
}
} else if (obj instanceof ASN1TaggedObject) {
String tab = indent + TAB;
buf.append(indent);
if (obj instanceof BERTaggedObject) {
buf.append("BER Tagged [");
} else {
buf.append("Tagged [");
}
ASN1TaggedObject o = (ASN1TaggedObject) obj;
buf.append(Integer.toString(o.getTagNo()));
buf.append(']');
if (!o.isExplicit()) {
buf.append(" IMPLICIT ");
}
buf.append(nl);
if (o.isEmpty()) {
buf.append(tab);
buf.append("EMPTY");
buf.append(nl);
} else {
_dumpAsString(tab, verbose, o.getObject(), buf);
}
} else if (obj instanceof ASN1Set) {
Enumeration e = ((ASN1Set) obj).getObjects();
String tab = indent + TAB;
buf.append(indent);
if (obj instanceof BERSet) {
buf.append("BER Set");
} else {
buf.append("DER Set");
}
buf.append(nl);
while (e.hasMoreElements()) {
Object o = e.nextElement();
if (o == null) {
buf.append(tab);
buf.append("NULL");
buf.append(nl);
} else if (o instanceof ASN1Primitive) {
_dumpAsString(tab, verbose, (ASN1Primitive) o, buf);
} else {
_dumpAsString(tab, verbose, ((ASN1Encodable) o).toASN1Primitive(), buf);
}
}
} else if (obj instanceof ASN1OctetString) {
ASN1OctetString oct = (ASN1OctetString) obj;
if (obj instanceof BEROctetString || obj instanceof BERConstructedOctetString) {
buf.append(indent + "BER Constructed Octet String" + "[" + oct.getOctets().length + "] ");
} else {
buf.append(indent + "DER Octet String" + "[" + oct.getOctets().length + "] ");
}
if (verbose) {
buf.append(dumpBinaryDataAsString(indent, oct.getOctets()));
} else {
buf.append(nl);
}
} else if (obj instanceof ASN1ObjectIdentifier) {
buf.append(indent + "ObjectIdentifier(" + ((ASN1ObjectIdentifier) obj).getId() + ")" + nl);
} else if (obj instanceof DERBoolean) {
buf.append(indent + "Boolean(" + ((DERBoolean) obj).isTrue() + ")" + nl);
} else if (obj instanceof ASN1Integer) {
buf.append(indent + "Integer(" + ((ASN1Integer) obj).getValue() + ")" + nl);
} else if (obj instanceof DERBitString) {
DERBitString bt = (DERBitString) obj;
buf.append(indent + "DER Bit String" + "[" + bt.getBytes().length + ", " + bt.getPadBits() + "] ");
if (verbose) {
buf.append(dumpBinaryDataAsString(indent, bt.getBytes()));
} else {
buf.append(nl);
}
} else if (obj instanceof DERIA5String) {
buf.append(indent + "IA5String(" + ((DERIA5String) obj).getString() + ") " + nl);
} else if (obj instanceof DERUTF8String) {
buf.append(indent + "UTF8String(" + ((DERUTF8String) obj).getString() + ") " + nl);
} else if (obj instanceof DERPrintableString) {
buf.append(indent + "PrintableString(" + ((DERPrintableString) obj).getString() + ") " + nl);
} else if (obj instanceof DERVisibleString) {
buf.append(indent + "VisibleString(" + ((DERVisibleString) obj).getString() + ") " + nl);
} else if (obj instanceof DERBMPString) {
buf.append(indent + "BMPString(" + ((DERBMPString) obj).getString() + ") " + nl);
} else if (obj instanceof DERT61String) {
buf.append(indent + "T61String(" + ((DERT61String) obj).getString() + ") " + nl);
} else if (obj instanceof DERUTCTime) {
buf.append(indent + "UTCTime(" + ((DERUTCTime) obj).getTime() + ") " + nl);
} else if (obj instanceof DERGeneralizedTime) {
buf.append(indent + "GeneralizedTime(" + ((DERGeneralizedTime) obj).getTime() + ") " + nl);
} else if (obj instanceof BERApplicationSpecific) {
buf.append(outputApplicationSpecific("BER", indent, verbose, obj, nl));
} else if (obj instanceof DERApplicationSpecific) {
buf.append(outputApplicationSpecific("DER", indent, verbose, obj, nl));
} else if (obj instanceof DEREnumerated) {
DEREnumerated en = (DEREnumerated) obj;
buf.append(indent + "DER Enumerated(" + en.getValue() + ")" + nl);
} else if (obj instanceof DERExternal) {
DERExternal ext = (DERExternal) obj;
buf.append(indent + "External " + nl);
String tab = indent + TAB;
if (ext.getDirectReference() != null) {
buf.append(tab + "Direct Reference: " + ext.getDirectReference().getId() + nl);
}
if (ext.getIndirectReference() != null) {
buf.append(tab + "Indirect Reference: " + ext.getIndirectReference().toString() + nl);
}
if (ext.getDataValueDescriptor() != null) {
_dumpAsString(tab, verbose, ext.getDataValueDescriptor(), buf);
}
buf.append(tab + "Encoding: " + ext.getEncoding() + nl);
_dumpAsString(tab, verbose, ext.getExternalContent(), buf);
} else {
buf.append(indent + obj.toString() + nl);
}
}
use of com.github.zhenwei.core.asn1.BEROctetString in project robovm by robovm.
the class PKCS12KeyStoreSpi method doStore.
private void doStore(OutputStream stream, char[] password, boolean useDEREncoding) throws IOException {
if (password == null) {
throw new NullPointerException("No password supplied for PKCS#12 KeyStore.");
}
//
// handle the key
//
ASN1EncodableVector keyS = new ASN1EncodableVector();
Enumeration ks = keys.keys();
while (ks.hasMoreElements()) {
byte[] kSalt = new byte[SALT_SIZE];
random.nextBytes(kSalt);
String name = (String) ks.nextElement();
PrivateKey privKey = (PrivateKey) keys.get(name);
PKCS12PBEParams kParams = new PKCS12PBEParams(kSalt, MIN_ITERATIONS);
byte[] kBytes = wrapKey(keyAlgorithm.getId(), privKey, kParams, password);
AlgorithmIdentifier kAlgId = new AlgorithmIdentifier(keyAlgorithm, kParams.toASN1Primitive());
org.bouncycastle.asn1.pkcs.EncryptedPrivateKeyInfo kInfo = new org.bouncycastle.asn1.pkcs.EncryptedPrivateKeyInfo(kAlgId, kBytes);
boolean attrSet = false;
ASN1EncodableVector kName = new ASN1EncodableVector();
if (privKey instanceof PKCS12BagAttributeCarrier) {
PKCS12BagAttributeCarrier bagAttrs = (PKCS12BagAttributeCarrier) privKey;
//
// make sure we are using the local alias on store
//
DERBMPString nm = (DERBMPString) bagAttrs.getBagAttribute(pkcs_9_at_friendlyName);
if (nm == null || !nm.getString().equals(name)) {
bagAttrs.setBagAttribute(pkcs_9_at_friendlyName, new DERBMPString(name));
}
//
if (bagAttrs.getBagAttribute(pkcs_9_at_localKeyId) == null) {
Certificate ct = engineGetCertificate(name);
bagAttrs.setBagAttribute(pkcs_9_at_localKeyId, createSubjectKeyId(ct.getPublicKey()));
}
Enumeration e = bagAttrs.getBagAttributeKeys();
while (e.hasMoreElements()) {
ASN1ObjectIdentifier oid = (ASN1ObjectIdentifier) e.nextElement();
ASN1EncodableVector kSeq = new ASN1EncodableVector();
kSeq.add(oid);
kSeq.add(new DERSet(bagAttrs.getBagAttribute(oid)));
attrSet = true;
kName.add(new DERSequence(kSeq));
}
}
if (!attrSet) {
//
// set a default friendly name (from the key id) and local id
//
ASN1EncodableVector kSeq = new ASN1EncodableVector();
Certificate ct = engineGetCertificate(name);
kSeq.add(pkcs_9_at_localKeyId);
kSeq.add(new DERSet(createSubjectKeyId(ct.getPublicKey())));
kName.add(new DERSequence(kSeq));
kSeq = new ASN1EncodableVector();
kSeq.add(pkcs_9_at_friendlyName);
kSeq.add(new DERSet(new DERBMPString(name)));
kName.add(new DERSequence(kSeq));
}
SafeBag kBag = new SafeBag(pkcs8ShroudedKeyBag, kInfo.toASN1Primitive(), new DERSet(kName));
keyS.add(kBag);
}
byte[] keySEncoded = new DERSequence(keyS).getEncoded(ASN1Encoding.DER);
BEROctetString keyString = new BEROctetString(keySEncoded);
//
// certificate processing
//
byte[] cSalt = new byte[SALT_SIZE];
random.nextBytes(cSalt);
ASN1EncodableVector certSeq = new ASN1EncodableVector();
PKCS12PBEParams cParams = new PKCS12PBEParams(cSalt, MIN_ITERATIONS);
AlgorithmIdentifier cAlgId = new AlgorithmIdentifier(certAlgorithm, cParams.toASN1Primitive());
Hashtable doneCerts = new Hashtable();
Enumeration cs = keys.keys();
while (cs.hasMoreElements()) {
try {
String name = (String) cs.nextElement();
Certificate cert = engineGetCertificate(name);
boolean cAttrSet = false;
CertBag cBag = new CertBag(x509Certificate, new DEROctetString(cert.getEncoded()));
ASN1EncodableVector fName = new ASN1EncodableVector();
if (cert instanceof PKCS12BagAttributeCarrier) {
PKCS12BagAttributeCarrier bagAttrs = (PKCS12BagAttributeCarrier) cert;
//
// make sure we are using the local alias on store
//
DERBMPString nm = (DERBMPString) bagAttrs.getBagAttribute(pkcs_9_at_friendlyName);
if (nm == null || !nm.getString().equals(name)) {
bagAttrs.setBagAttribute(pkcs_9_at_friendlyName, new DERBMPString(name));
}
//
if (bagAttrs.getBagAttribute(pkcs_9_at_localKeyId) == null) {
bagAttrs.setBagAttribute(pkcs_9_at_localKeyId, createSubjectKeyId(cert.getPublicKey()));
}
Enumeration e = bagAttrs.getBagAttributeKeys();
while (e.hasMoreElements()) {
ASN1ObjectIdentifier oid = (ASN1ObjectIdentifier) e.nextElement();
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(oid);
fSeq.add(new DERSet(bagAttrs.getBagAttribute(oid)));
fName.add(new DERSequence(fSeq));
cAttrSet = true;
}
}
if (!cAttrSet) {
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(pkcs_9_at_localKeyId);
fSeq.add(new DERSet(createSubjectKeyId(cert.getPublicKey())));
fName.add(new DERSequence(fSeq));
fSeq = new ASN1EncodableVector();
fSeq.add(pkcs_9_at_friendlyName);
fSeq.add(new DERSet(new DERBMPString(name)));
fName.add(new DERSequence(fSeq));
}
SafeBag sBag = new SafeBag(certBag, cBag.toASN1Primitive(), new DERSet(fName));
certSeq.add(sBag);
doneCerts.put(cert, cert);
} catch (CertificateEncodingException e) {
throw new IOException("Error encoding certificate: " + e.toString());
}
}
cs = certs.keys();
while (cs.hasMoreElements()) {
try {
String certId = (String) cs.nextElement();
Certificate cert = (Certificate) certs.get(certId);
boolean cAttrSet = false;
if (keys.get(certId) != null) {
continue;
}
CertBag cBag = new CertBag(x509Certificate, new DEROctetString(cert.getEncoded()));
ASN1EncodableVector fName = new ASN1EncodableVector();
if (cert instanceof PKCS12BagAttributeCarrier) {
PKCS12BagAttributeCarrier bagAttrs = (PKCS12BagAttributeCarrier) cert;
//
// make sure we are using the local alias on store
//
DERBMPString nm = (DERBMPString) bagAttrs.getBagAttribute(pkcs_9_at_friendlyName);
if (nm == null || !nm.getString().equals(certId)) {
bagAttrs.setBagAttribute(pkcs_9_at_friendlyName, new DERBMPString(certId));
}
Enumeration e = bagAttrs.getBagAttributeKeys();
while (e.hasMoreElements()) {
ASN1ObjectIdentifier oid = (ASN1ObjectIdentifier) e.nextElement();
// If we find one, we'll prune it out.
if (oid.equals(PKCSObjectIdentifiers.pkcs_9_at_localKeyId)) {
continue;
}
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(oid);
fSeq.add(new DERSet(bagAttrs.getBagAttribute(oid)));
fName.add(new DERSequence(fSeq));
cAttrSet = true;
}
}
if (!cAttrSet) {
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(pkcs_9_at_friendlyName);
fSeq.add(new DERSet(new DERBMPString(certId)));
fName.add(new DERSequence(fSeq));
}
SafeBag sBag = new SafeBag(certBag, cBag.toASN1Primitive(), new DERSet(fName));
certSeq.add(sBag);
doneCerts.put(cert, cert);
} catch (CertificateEncodingException e) {
throw new IOException("Error encoding certificate: " + e.toString());
}
}
cs = chainCerts.keys();
while (cs.hasMoreElements()) {
try {
CertId certId = (CertId) cs.nextElement();
Certificate cert = (Certificate) chainCerts.get(certId);
if (doneCerts.get(cert) != null) {
continue;
}
CertBag cBag = new CertBag(x509Certificate, new DEROctetString(cert.getEncoded()));
ASN1EncodableVector fName = new ASN1EncodableVector();
if (cert instanceof PKCS12BagAttributeCarrier) {
PKCS12BagAttributeCarrier bagAttrs = (PKCS12BagAttributeCarrier) cert;
Enumeration e = bagAttrs.getBagAttributeKeys();
while (e.hasMoreElements()) {
ASN1ObjectIdentifier oid = (ASN1ObjectIdentifier) e.nextElement();
// If we find one, we'll prune it out.
if (oid.equals(PKCSObjectIdentifiers.pkcs_9_at_localKeyId)) {
continue;
}
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(oid);
fSeq.add(new DERSet(bagAttrs.getBagAttribute(oid)));
fName.add(new DERSequence(fSeq));
}
}
SafeBag sBag = new SafeBag(certBag, cBag.toASN1Primitive(), new DERSet(fName));
certSeq.add(sBag);
} catch (CertificateEncodingException e) {
throw new IOException("Error encoding certificate: " + e.toString());
}
}
byte[] certSeqEncoded = new DERSequence(certSeq).getEncoded(ASN1Encoding.DER);
byte[] certBytes = cryptData(true, cAlgId, password, false, certSeqEncoded);
EncryptedData cInfo = new EncryptedData(data, cAlgId, new BEROctetString(certBytes));
ContentInfo[] info = new ContentInfo[] { new ContentInfo(data, keyString), new ContentInfo(encryptedData, cInfo.toASN1Primitive()) };
AuthenticatedSafe auth = new AuthenticatedSafe(info);
ByteArrayOutputStream bOut = new ByteArrayOutputStream();
DEROutputStream asn1Out;
if (useDEREncoding) {
asn1Out = new DEROutputStream(bOut);
} else {
asn1Out = new BEROutputStream(bOut);
}
asn1Out.writeObject(auth);
byte[] pkg = bOut.toByteArray();
ContentInfo mainInfo = new ContentInfo(data, new BEROctetString(pkg));
//
// create the mac
//
byte[] mSalt = new byte[20];
int itCount = MIN_ITERATIONS;
random.nextBytes(mSalt);
byte[] data = ((ASN1OctetString) mainInfo.getContent()).getOctets();
MacData mData;
try {
byte[] res = calculatePbeMac(id_SHA1, mSalt, itCount, password, false, data);
AlgorithmIdentifier algId = new AlgorithmIdentifier(id_SHA1, DERNull.INSTANCE);
DigestInfo dInfo = new DigestInfo(algId, res);
mData = new MacData(dInfo, mSalt, itCount);
} catch (Exception e) {
throw new IOException("error constructing MAC: " + e.toString());
}
//
// output the Pfx
//
Pfx pfx = new Pfx(mainInfo, mData);
if (useDEREncoding) {
asn1Out = new DEROutputStream(stream);
} else {
asn1Out = new BEROutputStream(stream);
}
asn1Out.writeObject(pfx);
}
use of com.github.zhenwei.core.asn1.BEROctetString in project LinLong-Java by zhenwei1108.
the class PKCS12KeyStoreSpi method doStore.
private void doStore(OutputStream stream, char[] password, boolean useDEREncoding) throws IOException {
if (keys.size() == 0) {
if (password == null) {
Enumeration cs = certs.keys();
ASN1EncodableVector certSeq = new ASN1EncodableVector();
while (cs.hasMoreElements()) {
try {
String certId = (String) cs.nextElement();
Certificate cert = (Certificate) certs.get(certId);
SafeBag sBag = createSafeBag(certId, cert);
certSeq.add(sBag);
} catch (CertificateEncodingException e) {
throw new IOException("Error encoding certificate: " + e.toString());
}
}
if (useDEREncoding) {
ContentInfo bagInfo = new ContentInfo(PKCSObjectIdentifiers.data, new DEROctetString(new DERSequence(certSeq).getEncoded()));
Pfx pfx = new Pfx(new ContentInfo(PKCSObjectIdentifiers.data, new DEROctetString(new DERSequence(bagInfo).getEncoded())), null);
pfx.encodeTo(stream, ASN1Encoding.DER);
} else {
ContentInfo bagInfo = new ContentInfo(PKCSObjectIdentifiers.data, new BEROctetString(new BERSequence(certSeq).getEncoded()));
Pfx pfx = new Pfx(new ContentInfo(PKCSObjectIdentifiers.data, new BEROctetString(new BERSequence(bagInfo).getEncoded())), null);
pfx.encodeTo(stream, ASN1Encoding.BER);
}
return;
}
} else {
if (password == null) {
throw new NullPointerException("no password supplied for PKCS#12 KeyStore");
}
}
//
// handle the key
//
ASN1EncodableVector keyS = new ASN1EncodableVector();
Enumeration ks = keys.keys();
while (ks.hasMoreElements()) {
byte[] kSalt = new byte[SALT_SIZE];
random.nextBytes(kSalt);
String name = (String) ks.nextElement();
PrivateKey privKey = (PrivateKey) keys.get(name);
PKCS12PBEParams kParams = new PKCS12PBEParams(kSalt, MIN_ITERATIONS);
byte[] kBytes = wrapKey(keyAlgorithm.getId(), privKey, kParams, password);
AlgorithmIdentifier kAlgId = new AlgorithmIdentifier(keyAlgorithm, kParams.toASN1Primitive());
com.github.zhenwei.core.asn1.pkcs.EncryptedPrivateKeyInfo kInfo = new com.github.zhenwei.core.asn1.pkcs.EncryptedPrivateKeyInfo(kAlgId, kBytes);
boolean attrSet = false;
ASN1EncodableVector kName = new ASN1EncodableVector();
if (privKey instanceof PKCS12BagAttributeCarrier) {
PKCS12BagAttributeCarrier bagAttrs = (PKCS12BagAttributeCarrier) privKey;
//
// make sure we are using the local alias on store
//
ASN1BMPString nm = (ASN1BMPString) bagAttrs.getBagAttribute(pkcs_9_at_friendlyName);
if (nm == null || !nm.getString().equals(name)) {
bagAttrs.setBagAttribute(pkcs_9_at_friendlyName, new DERBMPString(name));
}
//
if (bagAttrs.getBagAttribute(pkcs_9_at_localKeyId) == null) {
Certificate ct = engineGetCertificate(name);
bagAttrs.setBagAttribute(pkcs_9_at_localKeyId, createSubjectKeyId(ct.getPublicKey()));
}
Enumeration e = bagAttrs.getBagAttributeKeys();
while (e.hasMoreElements()) {
ASN1ObjectIdentifier oid = (ASN1ObjectIdentifier) e.nextElement();
ASN1EncodableVector kSeq = new ASN1EncodableVector();
kSeq.add(oid);
kSeq.add(new DERSet(bagAttrs.getBagAttribute(oid)));
attrSet = true;
kName.add(new DERSequence(kSeq));
}
}
if (!attrSet) {
//
// set a default friendly name (from the key id) and local id
//
ASN1EncodableVector kSeq = new ASN1EncodableVector();
Certificate ct = engineGetCertificate(name);
kSeq.add(pkcs_9_at_localKeyId);
kSeq.add(new DERSet(createSubjectKeyId(ct.getPublicKey())));
kName.add(new DERSequence(kSeq));
kSeq = new ASN1EncodableVector();
kSeq.add(pkcs_9_at_friendlyName);
kSeq.add(new DERSet(new DERBMPString(name)));
kName.add(new DERSequence(kSeq));
}
SafeBag kBag = new SafeBag(pkcs8ShroudedKeyBag, kInfo.toASN1Primitive(), new DERSet(kName));
keyS.add(kBag);
}
byte[] keySEncoded = new DERSequence(keyS).getEncoded(ASN1Encoding.DER);
BEROctetString keyString = new BEROctetString(keySEncoded);
//
// certificate processing
//
byte[] cSalt = new byte[SALT_SIZE];
random.nextBytes(cSalt);
ASN1EncodableVector certSeq = new ASN1EncodableVector();
PKCS12PBEParams cParams = new PKCS12PBEParams(cSalt, MIN_ITERATIONS);
AlgorithmIdentifier cAlgId = new AlgorithmIdentifier(certAlgorithm, cParams.toASN1Primitive());
Hashtable doneCerts = new Hashtable();
Enumeration cs = keys.keys();
while (cs.hasMoreElements()) {
try {
String name = (String) cs.nextElement();
Certificate cert = engineGetCertificate(name);
boolean cAttrSet = false;
CertBag cBag = new CertBag(x509Certificate, new DEROctetString(cert.getEncoded()));
ASN1EncodableVector fName = new ASN1EncodableVector();
if (cert instanceof PKCS12BagAttributeCarrier) {
PKCS12BagAttributeCarrier bagAttrs = (PKCS12BagAttributeCarrier) cert;
//
// make sure we are using the local alias on store
//
ASN1BMPString nm = (ASN1BMPString) bagAttrs.getBagAttribute(pkcs_9_at_friendlyName);
if (nm == null || !nm.getString().equals(name)) {
bagAttrs.setBagAttribute(pkcs_9_at_friendlyName, new DERBMPString(name));
}
//
if (bagAttrs.getBagAttribute(pkcs_9_at_localKeyId) == null) {
bagAttrs.setBagAttribute(pkcs_9_at_localKeyId, createSubjectKeyId(cert.getPublicKey()));
}
Enumeration e = bagAttrs.getBagAttributeKeys();
while (e.hasMoreElements()) {
ASN1ObjectIdentifier oid = (ASN1ObjectIdentifier) e.nextElement();
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(oid);
fSeq.add(new DERSet(bagAttrs.getBagAttribute(oid)));
fName.add(new DERSequence(fSeq));
cAttrSet = true;
}
}
if (!cAttrSet) {
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(pkcs_9_at_localKeyId);
fSeq.add(new DERSet(createSubjectKeyId(cert.getPublicKey())));
fName.add(new DERSequence(fSeq));
fSeq = new ASN1EncodableVector();
fSeq.add(pkcs_9_at_friendlyName);
fSeq.add(new DERSet(new DERBMPString(name)));
fName.add(new DERSequence(fSeq));
}
SafeBag sBag = new SafeBag(certBag, cBag.toASN1Primitive(), new DERSet(fName));
certSeq.add(sBag);
doneCerts.put(cert, cert);
} catch (CertificateEncodingException e) {
throw new IOException("Error encoding certificate: " + e.toString());
}
}
cs = certs.keys();
while (cs.hasMoreElements()) {
try {
String certId = (String) cs.nextElement();
Certificate cert = (Certificate) certs.get(certId);
if (keys.get(certId) != null) {
continue;
}
SafeBag sBag = createSafeBag(certId, cert);
certSeq.add(sBag);
doneCerts.put(cert, cert);
} catch (CertificateEncodingException e) {
throw new IOException("Error encoding certificate: " + e.toString());
}
}
Set usedSet = getUsedCertificateSet();
cs = chainCerts.keys();
while (cs.hasMoreElements()) {
try {
CertId certId = (CertId) cs.nextElement();
Certificate cert = (Certificate) chainCerts.get(certId);
if (!usedSet.contains(cert)) {
continue;
}
if (doneCerts.get(cert) != null) {
continue;
}
CertBag cBag = new CertBag(x509Certificate, new DEROctetString(cert.getEncoded()));
ASN1EncodableVector fName = new ASN1EncodableVector();
if (cert instanceof PKCS12BagAttributeCarrier) {
PKCS12BagAttributeCarrier bagAttrs = (PKCS12BagAttributeCarrier) cert;
Enumeration e = bagAttrs.getBagAttributeKeys();
while (e.hasMoreElements()) {
ASN1ObjectIdentifier oid = (ASN1ObjectIdentifier) e.nextElement();
// If we find one, we'll prune it out.
if (oid.equals(PKCSObjectIdentifiers.pkcs_9_at_localKeyId)) {
continue;
}
ASN1EncodableVector fSeq = new ASN1EncodableVector();
fSeq.add(oid);
fSeq.add(new DERSet(bagAttrs.getBagAttribute(oid)));
fName.add(new DERSequence(fSeq));
}
}
SafeBag sBag = new SafeBag(certBag, cBag.toASN1Primitive(), new DERSet(fName));
certSeq.add(sBag);
} catch (CertificateEncodingException e) {
throw new IOException("Error encoding certificate: " + e.toString());
}
}
byte[] certSeqEncoded = new DERSequence(certSeq).getEncoded(ASN1Encoding.DER);
byte[] certBytes = cryptData(true, cAlgId, password, false, certSeqEncoded);
EncryptedData cInfo = new EncryptedData(data, cAlgId, new BEROctetString(certBytes));
ContentInfo[] info = new ContentInfo[] { new ContentInfo(data, keyString), new ContentInfo(encryptedData, cInfo.toASN1Primitive()) };
AuthenticatedSafe auth = new AuthenticatedSafe(info);
byte[] pkg = auth.getEncoded(useDEREncoding ? ASN1Encoding.DER : ASN1Encoding.BER);
ContentInfo mainInfo = new ContentInfo(data, new BEROctetString(pkg));
//
// create the mac
//
byte[] mSalt = new byte[saltLength];
random.nextBytes(mSalt);
byte[] data = ((ASN1OctetString) mainInfo.getContent()).getOctets();
MacData mData;
try {
byte[] res = calculatePbeMac(macAlgorithm.getAlgorithm(), mSalt, itCount, password, false, data);
DigestInfo dInfo = new DigestInfo(macAlgorithm, res);
mData = new MacData(dInfo, mSalt, itCount);
} catch (Exception e) {
throw new IOException("error constructing MAC: " + e.toString());
}
//
// output the Pfx
//
Pfx pfx = new Pfx(mainInfo, mData);
pfx.encodeTo(stream, useDEREncoding ? ASN1Encoding.DER : ASN1Encoding.BER);
}
use of com.github.zhenwei.core.asn1.BEROctetString in project LinLong-Java by zhenwei1108.
the class ASN1Dump method _dumpAsString.
/**
* dump a DER object as a formatted string with indentation
*
* @param obj the ASN1Primitive to be dumped out.
*/
static void _dumpAsString(String indent, boolean verbose, ASN1Primitive obj, StringBuffer buf) {
String nl = Strings.lineSeparator();
if (obj instanceof ASN1Null) {
buf.append(indent);
buf.append("NULL");
buf.append(nl);
} else if (obj instanceof ASN1Sequence) {
buf.append(indent);
if (obj instanceof BERSequence) {
buf.append("BER Sequence");
} else if (obj instanceof DERSequence) {
buf.append("DER Sequence");
} else {
buf.append("Sequence");
}
buf.append(nl);
ASN1Sequence sequence = (ASN1Sequence) obj;
String elementsIndent = indent + TAB;
for (int i = 0, count = sequence.size(); i < count; ++i) {
_dumpAsString(elementsIndent, verbose, sequence.getObjectAt(i).toASN1Primitive(), buf);
}
} else if (obj instanceof ASN1Set) {
buf.append(indent);
if (obj instanceof BERSet) {
buf.append("BER Set");
} else if (obj instanceof DERSet) {
buf.append("DER Set");
} else {
buf.append("Set");
}
buf.append(nl);
ASN1Set set = (ASN1Set) obj;
String elementsIndent = indent + TAB;
for (int i = 0, count = set.size(); i < count; ++i) {
_dumpAsString(elementsIndent, verbose, set.getObjectAt(i).toASN1Primitive(), buf);
}
} else if (obj instanceof ASN1ApplicationSpecific) {
_dumpAsString(indent, verbose, ((ASN1ApplicationSpecific) obj).getTaggedObject(), buf);
} else if (obj instanceof ASN1TaggedObject) {
buf.append(indent);
if (obj instanceof BERTaggedObject) {
buf.append("BER Tagged ");
} else if (obj instanceof DERTaggedObject) {
buf.append("DER Tagged ");
} else {
buf.append("Tagged ");
}
ASN1TaggedObject o = (ASN1TaggedObject) obj;
buf.append(ASN1Util.getTagText(o));
if (!o.isExplicit()) {
buf.append(" IMPLICIT ");
}
buf.append(nl);
String baseIndent = indent + TAB;
_dumpAsString(baseIndent, verbose, o.getBaseObject().toASN1Primitive(), buf);
} else if (obj instanceof ASN1OctetString) {
ASN1OctetString oct = (ASN1OctetString) obj;
if (obj instanceof BEROctetString) {
buf.append(indent + "BER Constructed Octet String" + "[" + oct.getOctets().length + "] ");
} else {
buf.append(indent + "DER Octet String" + "[" + oct.getOctets().length + "] ");
}
if (verbose) {
buf.append(dumpBinaryDataAsString(indent, oct.getOctets()));
} else {
buf.append(nl);
}
} else if (obj instanceof ASN1ObjectIdentifier) {
buf.append(indent + "ObjectIdentifier(" + ((ASN1ObjectIdentifier) obj).getId() + ")" + nl);
} else if (obj instanceof ASN1RelativeOID) {
buf.append(indent + "RelativeOID(" + ((ASN1RelativeOID) obj).getId() + ")" + nl);
} else if (obj instanceof ASN1Boolean) {
buf.append(indent + "Boolean(" + ((ASN1Boolean) obj).isTrue() + ")" + nl);
} else if (obj instanceof ASN1Integer) {
buf.append(indent + "Integer(" + ((ASN1Integer) obj).getValue() + ")" + nl);
} else if (obj instanceof ASN1BitString) {
ASN1BitString bitString = (ASN1BitString) obj;
byte[] bytes = bitString.getBytes();
int padBits = bitString.getPadBits();
if (bitString instanceof DERBitString) {
buf.append(indent + "DER Bit String" + "[" + bytes.length + ", " + padBits + "] ");
} else if (bitString instanceof DLBitString) {
buf.append(indent + "DL Bit String" + "[" + bytes.length + ", " + padBits + "] ");
} else {
buf.append(indent + "BER Bit String" + "[" + bytes.length + ", " + padBits + "] ");
}
if (verbose) {
buf.append(dumpBinaryDataAsString(indent, bytes));
} else {
buf.append(nl);
}
} else if (obj instanceof ASN1IA5String) {
buf.append(indent + "IA5String(" + ((ASN1IA5String) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1UTF8String) {
buf.append(indent + "UTF8String(" + ((ASN1UTF8String) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1NumericString) {
buf.append(indent + "NumericString(" + ((ASN1NumericString) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1PrintableString) {
buf.append(indent + "PrintableString(" + ((ASN1PrintableString) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1VisibleString) {
buf.append(indent + "VisibleString(" + ((ASN1VisibleString) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1BMPString) {
buf.append(indent + "BMPString(" + ((ASN1BMPString) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1T61String) {
buf.append(indent + "T61String(" + ((ASN1T61String) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1GraphicString) {
buf.append(indent + "GraphicString(" + ((ASN1GraphicString) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1VideotexString) {
buf.append(indent + "VideotexString(" + ((ASN1VideotexString) obj).getString() + ") " + nl);
} else if (obj instanceof ASN1UTCTime) {
buf.append(indent + "UTCTime(" + ((ASN1UTCTime) obj).getTime() + ") " + nl);
} else if (obj instanceof ASN1GeneralizedTime) {
buf.append(indent + "GeneralizedTime(" + ((ASN1GeneralizedTime) obj).getTime() + ") " + nl);
} else if (obj instanceof ASN1Enumerated) {
ASN1Enumerated en = (ASN1Enumerated) obj;
buf.append(indent + "DER Enumerated(" + en.getValue() + ")" + nl);
} else if (obj instanceof ASN1ObjectDescriptor) {
ASN1ObjectDescriptor od = (ASN1ObjectDescriptor) obj;
buf.append(indent + "ObjectDescriptor(" + od.getBaseGraphicString().getString() + ") " + nl);
} else if (obj instanceof ASN1External) {
ASN1External ext = (ASN1External) obj;
buf.append(indent + "External " + nl);
String tab = indent + TAB;
if (ext.getDirectReference() != null) {
buf.append(tab + "Direct Reference: " + ext.getDirectReference().getId() + nl);
}
if (ext.getIndirectReference() != null) {
buf.append(tab + "Indirect Reference: " + ext.getIndirectReference().toString() + nl);
}
if (ext.getDataValueDescriptor() != null) {
_dumpAsString(tab, verbose, ext.getDataValueDescriptor(), buf);
}
buf.append(tab + "Encoding: " + ext.getEncoding() + nl);
_dumpAsString(tab, verbose, ext.getExternalContent(), buf);
} else {
buf.append(indent + obj.toString() + nl);
}
}
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