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Spongy Castle is a package-rename (org.bouncycastle.* to org.spongycastle.*) of Bouncy Castle
intended for the Android platform. Android unfortunately ships with a stripped-down version of
Bouncy Castle, which prevents easy upgrades - Spongy Castle overcomes this and provides a full,
up-to-date version of the Bouncy Castle cryptographic libs.
The newest version!
package org.spongycastle.cms;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.spongycastle.asn1.ASN1Encodable;
import org.spongycastle.asn1.ASN1EncodableVector;
import org.spongycastle.asn1.ASN1Generator;
import org.spongycastle.asn1.ASN1ObjectIdentifier;
import org.spongycastle.asn1.ASN1OctetStringParser;
import org.spongycastle.asn1.ASN1SequenceParser;
import org.spongycastle.asn1.ASN1Set;
import org.spongycastle.asn1.ASN1SetParser;
import org.spongycastle.asn1.ASN1StreamParser;
import org.spongycastle.asn1.BERSequenceGenerator;
import org.spongycastle.asn1.BERSetParser;
import org.spongycastle.asn1.BERTaggedObject;
import org.spongycastle.asn1.BERTags;
import org.spongycastle.asn1.DERSet;
import org.spongycastle.asn1.DERTaggedObject;
import org.spongycastle.asn1.cms.CMSObjectIdentifiers;
import org.spongycastle.asn1.cms.ContentInfoParser;
import org.spongycastle.asn1.cms.SignedDataParser;
import org.spongycastle.asn1.cms.SignerInfo;
import org.spongycastle.asn1.x509.AlgorithmIdentifier;
import org.spongycastle.operator.DigestCalculator;
import org.spongycastle.operator.DigestCalculatorProvider;
import org.spongycastle.operator.OperatorCreationException;
import org.spongycastle.util.Store;
import org.spongycastle.util.io.Streams;
/**
* Parsing class for an CMS Signed Data object from an input stream.
*
* Note: that because we are in a streaming mode only one signer can be tried and it is important
* that the methods on the parser are called in the appropriate order.
*
*
* A simple example of usage for an encapsulated signature.
*
*
* Two notes: first, in the example below the validity of
* the certificate isn't verified, just the fact that one of the certs
* matches the given signer, and, second, because we are in a streaming
* mode the order of the operations is important.
*
*
* CMSSignedDataParser sp = new CMSSignedDataParser(new JcaDigestCalculatorProviderBuilder().setProvider("SC").build(), encapSigData);
*
* sp.getSignedContent().drain();
*
* Store certStore = sp.getCertificates();
* SignerInformationStore signers = sp.getSignerInfos();
*
* Collection c = signers.getSigners();
* Iterator it = c.iterator();
*
* while (it.hasNext())
* {
* SignerInformation signer = (SignerInformation)it.next();
* Collection certCollection = certStore.getMatches(signer.getSID());
*
* Iterator certIt = certCollection.iterator();
* X509CertificateHolder cert = (X509CertificateHolder)certIt.next();
*
* System.out.println("verify returns: " + signer.verify(new JcaSimpleSignerInfoVerifierBuilder().setProvider("SC").build(cert)));
* }
*
* Note also: this class does not introduce buffering - if you are processing large files you should create
* the parser with:
*
* CMSSignedDataParser ep = new CMSSignedDataParser(new BufferedInputStream(encapSigData, bufSize));
*
* where bufSize is a suitably large buffer size.
*/
public class CMSSignedDataParser
extends CMSContentInfoParser
{
private static final CMSSignedHelper HELPER = CMSSignedHelper.INSTANCE;
private SignedDataParser _signedData;
private ASN1ObjectIdentifier _signedContentType;
private CMSTypedStream _signedContent;
private Map digests;
private Set digestAlgorithms;
private SignerInformationStore _signerInfoStore;
private ASN1Set _certSet, _crlSet;
private boolean _isCertCrlParsed;
public CMSSignedDataParser(
DigestCalculatorProvider digestCalculatorProvider,
byte[] sigBlock)
throws CMSException
{
this(digestCalculatorProvider, new ByteArrayInputStream(sigBlock));
}
public CMSSignedDataParser(
DigestCalculatorProvider digestCalculatorProvider,
CMSTypedStream signedContent,
byte[] sigBlock)
throws CMSException
{
this(digestCalculatorProvider, signedContent, new ByteArrayInputStream(sigBlock));
}
/**
* base constructor - with encapsulated content
*/
public CMSSignedDataParser(
DigestCalculatorProvider digestCalculatorProvider,
InputStream sigData)
throws CMSException
{
this(digestCalculatorProvider, null, sigData);
}
/**
* base constructor
*
* @param digestCalculatorProvider for generating accumulating digests
* @param signedContent the content that was signed.
* @param sigData the signature object stream.
*/
public CMSSignedDataParser(
DigestCalculatorProvider digestCalculatorProvider,
CMSTypedStream signedContent,
InputStream sigData)
throws CMSException
{
super(sigData);
try
{
_signedContent = signedContent;
_signedData = SignedDataParser.getInstance(_contentInfo.getContent(BERTags.SEQUENCE));
digests = new HashMap();
ASN1SetParser digAlgs = _signedData.getDigestAlgorithms();
ASN1Encodable o;
Set algSet = new HashSet();
while ((o = digAlgs.readObject()) != null)
{
AlgorithmIdentifier algId = AlgorithmIdentifier.getInstance(o);
algSet.add(algId);
try
{
DigestCalculator calculator = digestCalculatorProvider.get(algId);
if (calculator != null)
{
this.digests.put(algId.getAlgorithm(), calculator);
}
}
catch (OperatorCreationException e)
{
// ignore
}
}
digestAlgorithms = Collections.unmodifiableSet(algSet);
//
// If the message is simply a certificate chain message getContent() may return null.
//
ContentInfoParser cont = _signedData.getEncapContentInfo();
ASN1Encodable contentParser = cont.getContent(BERTags.OCTET_STRING);
if (contentParser instanceof ASN1OctetStringParser)
{
ASN1OctetStringParser octs = (ASN1OctetStringParser)contentParser;
if (octs != null)
{
CMSTypedStream ctStr = new CMSTypedStream(
cont.getContentType(), octs.getOctetStream());
if (_signedContent == null)
{
_signedContent = ctStr;
}
else
{
//
// content passed in, need to read past empty encapsulated content info object if present
//
ctStr.drain();
}
}
}
else if (contentParser != null)
{
PKCS7TypedStream pkcs7Stream = new PKCS7TypedStream(cont.getContentType(), contentParser);
if (_signedContent == null)
{
_signedContent = pkcs7Stream;
}
else
{
//
// content passed in, need to read past empty encapsulated content info object if present
//
pkcs7Stream.drain();
}
}
if (signedContent == null)
{
_signedContentType = cont.getContentType();
}
else
{
_signedContentType = _signedContent.getContentType();
}
}
catch (IOException e)
{
throw new CMSException("io exception: " + e.getMessage(), e);
}
}
/**
* Return the version number for the SignedData object
*
* @return the version number
*/
public int getVersion()
{
return _signedData.getVersion().getValue().intValue();
}
/**
* Return the digest algorithm identifiers for the SignedData object
*
* @return the set of digest algorithm identifiers
*/
public Set getDigestAlgorithmIDs()
{
return digestAlgorithms;
}
/**
* return the collection of signers that are associated with the
* signatures for the message.
* @throws CMSException
*/
public SignerInformationStore getSignerInfos()
throws CMSException
{
if (_signerInfoStore == null)
{
populateCertCrlSets();
List signerInfos = new ArrayList();
Map hashes = new HashMap();
Iterator it = digests.keySet().iterator();
while (it.hasNext())
{
Object digestKey = it.next();
hashes.put(digestKey, ((DigestCalculator)digests.get(digestKey)).getDigest());
}
try
{
ASN1SetParser s = _signedData.getSignerInfos();
ASN1Encodable o;
while ((o = s.readObject()) != null)
{
SignerInfo info = SignerInfo.getInstance(o.toASN1Primitive());
byte[] hash = (byte[])hashes.get(info.getDigestAlgorithm().getAlgorithm());
signerInfos.add(new SignerInformation(info, _signedContentType, null, hash));
}
}
catch (IOException e)
{
throw new CMSException("io exception: " + e.getMessage(), e);
}
_signerInfoStore = new SignerInformationStore(signerInfos);
}
return _signerInfoStore;
}
/**
* Return any X.509 certificate objects in this SignedData structure as a Store of X509CertificateHolder objects.
*
* @return a Store of X509CertificateHolder objects.
*/
public Store getCertificates()
throws CMSException
{
populateCertCrlSets();
return HELPER.getCertificates(_certSet);
}
/**
* Return any X.509 CRL objects in this SignedData structure as a Store of X509CRLHolder objects.
*
* @return a Store of X509CRLHolder objects.
*/
public Store getCRLs()
throws CMSException
{
populateCertCrlSets();
return HELPER.getCRLs(_crlSet);
}
/**
* Return any X.509 attribute certificate objects in this SignedData structure as a Store of X509AttributeCertificateHolder objects.
*
* @return a Store of X509AttributeCertificateHolder objects.
*/
public Store getAttributeCertificates()
throws CMSException
{
populateCertCrlSets();
return HELPER.getAttributeCertificates(_certSet);
}
/**
* Return any OtherRevocationInfo OtherRevInfo objects of the type indicated by otherRevocationInfoFormat in
* this SignedData structure.
*
* @param otherRevocationInfoFormat OID of the format type been looked for.
*
* @return a Store of ASN1Encodable objects representing any objects of otherRevocationInfoFormat found.
*/
public Store getOtherRevocationInfo(ASN1ObjectIdentifier otherRevocationInfoFormat)
throws CMSException
{
populateCertCrlSets();
return HELPER.getOtherRevocationInfo(otherRevocationInfoFormat, _crlSet);
}
private void populateCertCrlSets()
throws CMSException
{
if (_isCertCrlParsed)
{
return;
}
_isCertCrlParsed = true;
try
{
// care! Streaming - these must be done in exactly this order.
_certSet = getASN1Set(_signedData.getCertificates());
_crlSet = getASN1Set(_signedData.getCrls());
}
catch (IOException e)
{
throw new CMSException("problem parsing cert/crl sets", e);
}
}
/**
* Return the a string representation of the OID associated with the
* encapsulated content info structure carried in the signed data.
*
* @return the OID for the content type.
*/
public String getSignedContentTypeOID()
{
return _signedContentType.getId();
}
public CMSTypedStream getSignedContent()
{
if (_signedContent == null)
{
return null;
}
InputStream digStream = CMSUtils.attachDigestsToInputStream(
digests.values(), _signedContent.getContentStream());
return new CMSTypedStream(_signedContent.getContentType(), digStream);
}
/**
* Replace the signerinformation store associated with the passed
* in message contained in the stream original with the new one passed in.
* You would probably only want to do this if you wanted to change the unsigned
* attributes associated with a signer, or perhaps delete one.
*
* The output stream is returned unclosed.
*
* @param original the signed data stream to be used as a base.
* @param signerInformationStore the new signer information store to use.
* @param out the stream to write the new signed data object to.
* @return out.
*/
public static OutputStream replaceSigners(
InputStream original,
SignerInformationStore signerInformationStore,
OutputStream out)
throws CMSException, IOException
{
ASN1StreamParser in = new ASN1StreamParser(original);
ContentInfoParser contentInfo = new ContentInfoParser((ASN1SequenceParser)in.readObject());
SignedDataParser signedData = SignedDataParser.getInstance(contentInfo.getContent(BERTags.SEQUENCE));
BERSequenceGenerator sGen = new BERSequenceGenerator(out);
sGen.addObject(CMSObjectIdentifiers.signedData);
BERSequenceGenerator sigGen = new BERSequenceGenerator(sGen.getRawOutputStream(), 0, true);
// version number
sigGen.addObject(signedData.getVersion());
// digests
signedData.getDigestAlgorithms().toASN1Primitive(); // skip old ones
ASN1EncodableVector digestAlgs = new ASN1EncodableVector();
for (Iterator it = signerInformationStore.getSigners().iterator(); it.hasNext();)
{
SignerInformation signer = (SignerInformation)it.next();
digestAlgs.add(CMSSignedHelper.INSTANCE.fixAlgID(signer.getDigestAlgorithmID()));
}
sigGen.getRawOutputStream().write(new DERSet(digestAlgs).getEncoded());
// encap content info
ContentInfoParser encapContentInfo = signedData.getEncapContentInfo();
BERSequenceGenerator eiGen = new BERSequenceGenerator(sigGen.getRawOutputStream());
eiGen.addObject(encapContentInfo.getContentType());
pipeEncapsulatedOctetString(encapContentInfo, eiGen.getRawOutputStream());
eiGen.close();
writeSetToGeneratorTagged(sigGen, signedData.getCertificates(), 0);
writeSetToGeneratorTagged(sigGen, signedData.getCrls(), 1);
ASN1EncodableVector signerInfos = new ASN1EncodableVector();
for (Iterator it = signerInformationStore.getSigners().iterator(); it.hasNext();)
{
SignerInformation signer = (SignerInformation)it.next();
signerInfos.add(signer.toASN1Structure());
}
sigGen.getRawOutputStream().write(new DERSet(signerInfos).getEncoded());
sigGen.close();
sGen.close();
return out;
}
/**
* Replace the certificate and CRL information associated with this
* CMSSignedData object with the new one passed in.
*
* The output stream is returned unclosed.
*
* @param original the signed data stream to be used as a base.
* @param certs new certificates to be used, if any.
* @param crls new CRLs to be used, if any.
* @param attrCerts new attribute certificates to be used, if any.
* @param out the stream to write the new signed data object to.
* @return out.
* @exception CMSException if there is an error processing the CertStore
*/
public static OutputStream replaceCertificatesAndCRLs(
InputStream original,
Store certs,
Store crls,
Store attrCerts,
OutputStream out)
throws CMSException, IOException
{
ASN1StreamParser in = new ASN1StreamParser(original);
ContentInfoParser contentInfo = new ContentInfoParser((ASN1SequenceParser)in.readObject());
SignedDataParser signedData = SignedDataParser.getInstance(contentInfo.getContent(BERTags.SEQUENCE));
BERSequenceGenerator sGen = new BERSequenceGenerator(out);
sGen.addObject(CMSObjectIdentifiers.signedData);
BERSequenceGenerator sigGen = new BERSequenceGenerator(sGen.getRawOutputStream(), 0, true);
// version number
sigGen.addObject(signedData.getVersion());
// digests
sigGen.getRawOutputStream().write(signedData.getDigestAlgorithms().toASN1Primitive().getEncoded());
// encap content info
ContentInfoParser encapContentInfo = signedData.getEncapContentInfo();
BERSequenceGenerator eiGen = new BERSequenceGenerator(sigGen.getRawOutputStream());
eiGen.addObject(encapContentInfo.getContentType());
pipeEncapsulatedOctetString(encapContentInfo, eiGen.getRawOutputStream());
eiGen.close();
//
// skip existing certs and CRLs
//
getASN1Set(signedData.getCertificates());
getASN1Set(signedData.getCrls());
//
// replace the certs and crls in the SignedData object
//
if (certs != null || attrCerts != null)
{
List certificates = new ArrayList();
if (certs != null)
{
certificates.addAll(CMSUtils.getCertificatesFromStore(certs));
}
if (attrCerts != null)
{
certificates.addAll(CMSUtils.getAttributeCertificatesFromStore(attrCerts));
}
ASN1Set asn1Certs = CMSUtils.createBerSetFromList(certificates);
if (asn1Certs.size() > 0)
{
sigGen.getRawOutputStream().write(new DERTaggedObject(false, 0, asn1Certs).getEncoded());
}
}
if (crls != null)
{
ASN1Set asn1Crls = CMSUtils.createBerSetFromList(CMSUtils.getCRLsFromStore(crls));
if (asn1Crls.size() > 0)
{
sigGen.getRawOutputStream().write(new DERTaggedObject(false, 1, asn1Crls).getEncoded());
}
}
sigGen.getRawOutputStream().write(signedData.getSignerInfos().toASN1Primitive().getEncoded());
sigGen.close();
sGen.close();
return out;
}
private static void writeSetToGeneratorTagged(
ASN1Generator asn1Gen,
ASN1SetParser asn1SetParser,
int tagNo)
throws IOException
{
ASN1Set asn1Set = getASN1Set(asn1SetParser);
if (asn1Set != null)
{
if (asn1SetParser instanceof BERSetParser)
{
asn1Gen.getRawOutputStream().write(new BERTaggedObject(false, tagNo, asn1Set).getEncoded());
}
else
{
asn1Gen.getRawOutputStream().write(new DERTaggedObject(false, tagNo, asn1Set).getEncoded());
}
}
}
private static ASN1Set getASN1Set(
ASN1SetParser asn1SetParser)
{
return asn1SetParser == null
? null
: ASN1Set.getInstance(asn1SetParser.toASN1Primitive());
}
private static void pipeEncapsulatedOctetString(ContentInfoParser encapContentInfo,
OutputStream rawOutputStream) throws IOException
{
ASN1OctetStringParser octs = (ASN1OctetStringParser)
encapContentInfo.getContent(BERTags.OCTET_STRING);
if (octs != null)
{
pipeOctetString(octs, rawOutputStream);
}
// BERTaggedObjectParser contentObject = (BERTaggedObjectParser)encapContentInfo.getContentObject();
// if (contentObject != null)
// {
// // Handle IndefiniteLengthInputStream safely
// InputStream input = ASN1StreamParser.getSafeRawInputStream(contentObject.getContentStream(true));
//
// // TODO BerTaggedObjectGenerator?
// BEROutputStream berOut = new BEROutputStream(rawOutputStream);
// berOut.write(DERTags.CONSTRUCTED | DERTags.TAGGED | 0);
// berOut.write(0x80);
//
// pipeRawOctetString(input, rawOutputStream);
//
// berOut.write(0x00);
// berOut.write(0x00);
//
// input.close();
// }
}
private static void pipeOctetString(
ASN1OctetStringParser octs,
OutputStream output)
throws IOException
{
// TODO Allow specification of a specific fragment size?
OutputStream outOctets = CMSUtils.createBEROctetOutputStream(
output, 0, true, 0);
Streams.pipeAll(octs.getOctetStream(), outOctets);
outOctets.close();
}
// private static void pipeRawOctetString(
// InputStream rawInput,
// OutputStream rawOutput)
// throws IOException
// {
// InputStream tee = new TeeInputStream(rawInput, rawOutput);
// ASN1StreamParser sp = new ASN1StreamParser(tee);
// ASN1OctetStringParser octs = (ASN1OctetStringParser)sp.readObject();
// Streams.drain(octs.getOctetStream());
// }
}