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The Bouncy Castle Java CMS and S/MIME APIs for handling the CMS and S/MIME protocols. This jar contains CMS and S/MIME APIs for JDK 1.5. The APIs can be used in conjunction with a JCE/JCA provider such as the one provided with the Bouncy Castle Cryptography APIs. If the S/MIME API is used, the JavaMail API and the Java activation framework will also be needed.
package org.bouncycastle.cms;
import org.bouncycastle.asn1.ASN1EncodableVector;
import org.bouncycastle.asn1.ASN1InputStream;
import org.bouncycastle.asn1.ASN1Object;
import org.bouncycastle.asn1.ASN1OctetString;
import org.bouncycastle.asn1.ASN1Sequence;
import org.bouncycastle.asn1.DEREncodable;
import org.bouncycastle.asn1.DERInteger;
import org.bouncycastle.asn1.DERNull;
import org.bouncycastle.asn1.DERObjectIdentifier;
import org.bouncycastle.asn1.DEROctetString;
import org.bouncycastle.asn1.DERSequence;
import org.bouncycastle.asn1.cms.IssuerAndSerialNumber;
import org.bouncycastle.asn1.cms.KEKIdentifier;
import org.bouncycastle.asn1.cms.KEKRecipientInfo;
import org.bouncycastle.asn1.cms.KeyAgreeRecipientIdentifier;
import org.bouncycastle.asn1.cms.KeyAgreeRecipientInfo;
import org.bouncycastle.asn1.cms.KeyTransRecipientInfo;
import org.bouncycastle.asn1.cms.OriginatorIdentifierOrKey;
import org.bouncycastle.asn1.cms.OriginatorPublicKey;
import org.bouncycastle.asn1.cms.PasswordRecipientInfo;
import org.bouncycastle.asn1.cms.RecipientEncryptedKey;
import org.bouncycastle.asn1.cms.RecipientIdentifier;
import org.bouncycastle.asn1.cms.RecipientInfo;
import org.bouncycastle.asn1.kisa.KISAObjectIdentifiers;
import org.bouncycastle.asn1.nist.NISTObjectIdentifiers;
import org.bouncycastle.asn1.ntt.NTTObjectIdentifiers;
import org.bouncycastle.asn1.pkcs.PBKDF2Params;
import org.bouncycastle.asn1.pkcs.PKCSObjectIdentifiers;
import org.bouncycastle.asn1.x509.AlgorithmIdentifier;
import org.bouncycastle.asn1.x509.SubjectPublicKeyInfo;
import org.bouncycastle.asn1.x509.TBSCertificateStructure;
import org.bouncycastle.asn1.x9.X9ObjectIdentifiers;
import org.bouncycastle.jce.PrincipalUtil;
import javax.crypto.Cipher;
import javax.crypto.KeyAgreement;
import javax.crypto.SecretKey;
import javax.crypto.spec.RC2ParameterSpec;
import javax.crypto.spec.SecretKeySpec;
import java.io.IOException;
import java.security.AlgorithmParameterGenerator;
import java.security.AlgorithmParameters;
import java.security.GeneralSecurityException;
import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.NoSuchAlgorithmException;
import java.security.NoSuchProviderException;
import java.security.PrivateKey;
import java.security.PublicKey;
import java.security.SecureRandom;
import java.security.Provider;
import java.security.cert.CertificateEncodingException;
import java.security.cert.X509Certificate;
import java.util.ArrayList;
import java.util.List;
/**
* General class for generating a CMS enveloped-data message.
*
* A simple example of usage.
*
*
* CMSEnvelopedDataGenerator fact = new CMSEnvelopedDataGenerator();
*
* fact.addKeyTransRecipient(cert);
*
* CMSEnvelopedData data = fact.generate(content, algorithm, "BC");
*
*/
public class CMSEnvelopedGenerator
{
public static final String DES_EDE3_CBC = PKCSObjectIdentifiers.des_EDE3_CBC.getId();
public static final String RC2_CBC = PKCSObjectIdentifiers.RC2_CBC.getId();
public static final String IDEA_CBC = "1.3.6.1.4.1.188.7.1.1.2";
public static final String CAST5_CBC = "1.2.840.113533.7.66.10";
public static final String AES128_CBC = NISTObjectIdentifiers.id_aes128_CBC.getId();
public static final String AES192_CBC = NISTObjectIdentifiers.id_aes192_CBC.getId();
public static final String AES256_CBC = NISTObjectIdentifiers.id_aes256_CBC.getId();
public static final String CAMELLIA128_CBC = NTTObjectIdentifiers.id_camellia128_cbc.getId();
public static final String CAMELLIA192_CBC = NTTObjectIdentifiers.id_camellia192_cbc.getId();
public static final String CAMELLIA256_CBC = NTTObjectIdentifiers.id_camellia256_cbc.getId();
public static final String SEED_CBC = KISAObjectIdentifiers.id_seedCBC.getId();
public static final String DES_EDE3_WRAP = PKCSObjectIdentifiers.id_alg_CMS3DESwrap.getId();
public static final String AES128_WRAP = NISTObjectIdentifiers.id_aes128_wrap.getId();
public static final String AES192_WRAP = NISTObjectIdentifiers.id_aes192_wrap.getId();
public static final String AES256_WRAP = NISTObjectIdentifiers.id_aes256_wrap.getId();
public static final String CAMELLIA128_WRAP = NTTObjectIdentifiers.id_camellia128_wrap.getId();
public static final String CAMELLIA192_WRAP = NTTObjectIdentifiers.id_camellia192_wrap.getId();
public static final String CAMELLIA256_WRAP = NTTObjectIdentifiers.id_camellia256_wrap.getId();
public static final String SEED_WRAP = KISAObjectIdentifiers.id_npki_app_cmsSeed_wrap.getId();
public static final String ECDH_SHA1KDF = X9ObjectIdentifiers.dhSinglePass_stdDH_sha1kdf_scheme.getId();
private static final CMSEnvelopedHelper HELPER = CMSEnvelopedHelper.INSTANCE;
final List recipientInfs = new ArrayList();
final SecureRandom rand;
protected class RecipientInf
{
X509Certificate cert;
AlgorithmIdentifier keyEncAlg;
PublicKey pubKey;
ASN1OctetString subKeyId;
SecretKey secKey;
KEKIdentifier secKeyId;
OriginatorIdentifierOrKey originator;
ASN1OctetString ukm;
AlgorithmIdentifier derivationAlg;
RecipientInf(
X509Certificate cert)
{
this.cert = cert;
this.pubKey = cert.getPublicKey();
try
{
TBSCertificateStructure tbs = TBSCertificateStructure.getInstance(
ASN1Object.fromByteArray(cert.getTBSCertificate()));
SubjectPublicKeyInfo info = tbs.getSubjectPublicKeyInfo();
keyEncAlg = info.getAlgorithmId();
}
catch (IOException e)
{
throw new IllegalArgumentException("can't extract key algorithm from this cert");
}
catch (CertificateEncodingException e)
{
throw new IllegalArgumentException("can't extract tbs structure from this cert");
}
}
RecipientInf(
PublicKey pubKey,
ASN1OctetString subKeyId)
{
this.pubKey = pubKey;
this.subKeyId = subKeyId;
try
{
SubjectPublicKeyInfo info = SubjectPublicKeyInfo.getInstance(
ASN1Object.fromByteArray(pubKey.getEncoded()));
keyEncAlg = info.getAlgorithmId();
}
catch (IOException e)
{
throw new IllegalArgumentException("can't extract key algorithm from this key");
}
}
RecipientInf(
SecretKey secKey,
KEKIdentifier secKeyId)
{
this.secKey = secKey;
this.secKeyId = secKeyId;
if (secKey.getAlgorithm().startsWith("DES"))
{
keyEncAlg = new AlgorithmIdentifier(
new DERObjectIdentifier("1.2.840.113549.1.9.16.3.6"),
new DERNull());
}
else if (secKey.getAlgorithm().startsWith("RC2"))
{
keyEncAlg = new AlgorithmIdentifier(
new DERObjectIdentifier("1.2.840.113549.1.9.16.3.7"),
new DERInteger(58));
}
else if (secKey.getAlgorithm().startsWith("AES"))
{
int length = secKey.getEncoded().length * 8;
DERObjectIdentifier wrapOid;
if (length == 128)
{
wrapOid = NISTObjectIdentifiers.id_aes128_wrap;
}
else if (length == 192)
{
wrapOid = NISTObjectIdentifiers.id_aes192_wrap;
}
else if (length == 256)
{
wrapOid = NISTObjectIdentifiers.id_aes256_wrap;
}
else
{
throw new IllegalArgumentException("illegal keysize in AES");
}
keyEncAlg = new AlgorithmIdentifier(wrapOid); // parameters absent
}
else if (secKey.getAlgorithm().startsWith("SEED"))
{
// parameters absent
keyEncAlg = new AlgorithmIdentifier(KISAObjectIdentifiers.id_npki_app_cmsSeed_wrap);
}
else if (secKey.getAlgorithm().startsWith("Camellia"))
{
int length = secKey.getEncoded().length * 8;
DERObjectIdentifier wrapOid;
if (length == 128)
{
wrapOid = NTTObjectIdentifiers.id_camellia128_wrap;
}
else if (length == 192)
{
wrapOid = NTTObjectIdentifiers.id_camellia192_wrap;
}
else if (length == 256)
{
wrapOid = NTTObjectIdentifiers.id_camellia256_wrap;
}
else
{
throw new IllegalArgumentException("illegal keysize in Camellia");
}
keyEncAlg = new AlgorithmIdentifier(wrapOid); // parameters must be absent
}
else
{
throw new IllegalArgumentException("unknown algorithm");
}
}
public RecipientInf(SecretKey secretKey, String algorithm, String wrapOid, OriginatorIdentifierOrKey originator, X509Certificate cert)
{
ASN1EncodableVector params = new ASN1EncodableVector();
params.add(new DERObjectIdentifier(wrapOid));
params.add(DERNull.INSTANCE);
this.secKey = secretKey;
this.keyEncAlg = new AlgorithmIdentifier(new DERObjectIdentifier(algorithm), new DERSequence(params));
this.originator = originator;
this.cert = cert;
}
public RecipientInf(SecretKey secretKey, AlgorithmIdentifier derivationAlg)
{
this.secKey = secretKey;
this.derivationAlg = derivationAlg;
}
RecipientInfo toRecipientInfo(
SecretKey key,
SecureRandom random,
Provider prov)
throws IOException, GeneralSecurityException
{
if (pubKey != null)
{
ASN1OctetString encKey;
Cipher keyCipher = HELPER.createAsymmetricCipher(keyEncAlg.getObjectId().getId(), prov);
try
{
keyCipher.init(Cipher.WRAP_MODE, pubKey, random);
encKey = new DEROctetString(keyCipher.wrap(key));
}
catch (GeneralSecurityException e) // some providers do not support wrap
{
keyCipher.init(Cipher.ENCRYPT_MODE, pubKey, random);
encKey = new DEROctetString(keyCipher.doFinal(key.getEncoded()));
}
catch (IllegalStateException e) // some providers do not support wrap
{
keyCipher.init(Cipher.ENCRYPT_MODE, pubKey, random);
encKey = new DEROctetString(keyCipher.doFinal(key.getEncoded()));
}
catch (UnsupportedOperationException e) // some providers do not support UNWRAP
{
keyCipher.init(Cipher.ENCRYPT_MODE, key, random);
encKey = new DEROctetString(keyCipher.doFinal(key.getEncoded()));
}
if (cert != null)
{
ASN1InputStream aIn = new ASN1InputStream(cert.getTBSCertificate());
TBSCertificateStructure tbs = TBSCertificateStructure.getInstance(aIn.readObject());
IssuerAndSerialNumber encSid = new IssuerAndSerialNumber(tbs.getIssuer(), tbs.getSerialNumber().getValue());
return new RecipientInfo(new KeyTransRecipientInfo(
new RecipientIdentifier(encSid),
keyEncAlg,
encKey));
}
else
{
return new RecipientInfo(new KeyTransRecipientInfo(
new RecipientIdentifier(subKeyId),
keyEncAlg,
encKey));
}
}
else if (originator != null)
{
Cipher keyCipher = HELPER.createAsymmetricCipher(
DERObjectIdentifier.getInstance(ASN1Sequence.getInstance(keyEncAlg.getParameters()).getObjectAt(0)).getId(), prov);
keyCipher.init(Cipher.WRAP_MODE, secKey, random);
ASN1OctetString encKey = new DEROctetString(
keyCipher.wrap(key));
RecipientEncryptedKey rKey = new RecipientEncryptedKey(new KeyAgreeRecipientIdentifier(
new IssuerAndSerialNumber(PrincipalUtil.getIssuerX509Principal(cert), cert.getSerialNumber())),
encKey);
return new RecipientInfo(new KeyAgreeRecipientInfo(originator, ukm, keyEncAlg, new DERSequence(rKey)));
}
else if (derivationAlg != null)
{
Cipher keyCipher = HELPER.createAsymmetricCipher(
HELPER.getRFC3211WrapperName(secKey.getAlgorithm()), prov);
keyCipher.init(Cipher.WRAP_MODE, secKey, random);
ASN1OctetString encKey = new DEROctetString(keyCipher.wrap(key));
ASN1EncodableVector v = new ASN1EncodableVector();
v.add(new DERObjectIdentifier(secKey.getAlgorithm()));
v.add(new DEROctetString(keyCipher.getIV()));
keyEncAlg = new AlgorithmIdentifier(PKCSObjectIdentifiers.id_alg_PWRI_KEK, new DERSequence(v));
return new RecipientInfo(new PasswordRecipientInfo(derivationAlg, keyEncAlg, encKey));
}
else
{
Cipher keyCipher = HELPER.createAsymmetricCipher(
keyEncAlg.getObjectId().getId(), prov);
keyCipher.init(Cipher.WRAP_MODE, secKey, random);
ASN1OctetString encKey = new DEROctetString(keyCipher.wrap(key));
return new RecipientInfo(new KEKRecipientInfo(secKeyId, keyEncAlg, encKey));
}
}
}
/**
* base constructor
*/
public CMSEnvelopedGenerator()
{
this(new SecureRandom());
}
/**
* constructor allowing specific source of randomness
* @param rand instance of SecureRandom to use
*/
public CMSEnvelopedGenerator(
SecureRandom rand)
{
this.rand = rand;
}
/**
* add a recipient.
*
* @param cert recipient's public key certificate
* @exception IllegalArgumentException if there is a problem with the certificate
*/
public void addKeyTransRecipient(
X509Certificate cert)
throws IllegalArgumentException
{
recipientInfs.add(new RecipientInf(cert));
}
/**
* add a recipient
*
* @param key the public key used by the recipient
* @param subKeyId the identifier for the recipient's public key
* @exception IllegalArgumentException if there is a problem with the key
*/
public void addKeyTransRecipient(
PublicKey key,
byte[] subKeyId)
throws IllegalArgumentException
{
recipientInfs.add(new CMSEnvelopedGenerator.RecipientInf(key, new DEROctetString(subKeyId)));
}
/**
* add a KEK recipient.
* @param key the secret key to use for wrapping
* @param keyIdentifier the byte string that identifies the key
*/
public void addKEKRecipient(
SecretKey key,
byte[] keyIdentifier)
{
recipientInfs.add(new RecipientInf(key, new KEKIdentifier(
keyIdentifier, null, null)));
}
public void addPasswordRecipient(
CMSPBEKey pbeKey,
String kekAlgorithmOid)
{
PBKDF2Params params = new PBKDF2Params(pbeKey.getSalt(), pbeKey.getIterationCount());
recipientInfs.add(new RecipientInf(new SecretKeySpec(pbeKey.getEncoded(kekAlgorithmOid), kekAlgorithmOid), new AlgorithmIdentifier(PKCSObjectIdentifiers.id_PBKDF2, params)));
}
/**
* Add a key agreement based recipient.
*
* @param agreementAlgorithm key agreement algorithm to use.
* @param senderPrivateKey private key to initialise sender side of agreement with.
* @param senderPublicKey sender public key to include with message.
* @param recipientCert recipient's public key certificate.
* @param cekWrapAlgorithm OID for key wrapping algorithm to use.
* @param provider provider to use for the agreement calculation.
* @exception NoSuchProviderException if the specified provider cannot be found
* @exception NoSuchAlgorithmException if the algorithm requested cannot be found
* @exception InvalidKeyException if the keys are inappropriate for the algorithm specified
*/
public void addKeyAgreementRecipient(
String agreementAlgorithm,
PrivateKey senderPrivateKey,
PublicKey senderPublicKey,
X509Certificate recipientCert,
String cekWrapAlgorithm,
String provider)
throws NoSuchProviderException, NoSuchAlgorithmException, InvalidKeyException
{
addKeyAgreementRecipient(agreementAlgorithm, senderPrivateKey, senderPublicKey, recipientCert, cekWrapAlgorithm, CMSUtils.getProvider(provider));
}
/**
* Add a key agreement based recipient.
*
* @param agreementAlgorithm key agreement algorithm to use.
* @param senderPrivateKey private key to initialise sender side of agreement with.
* @param senderPublicKey sender public key to include with message.
* @param recipientCert recipient's public key certificate.
* @param cekWrapAlgorithm OID for key wrapping algorithm to use.
* @param provider provider to use for the agreement calculation.
* @exception NoSuchAlgorithmException if the algorithm requested cannot be found
* @exception InvalidKeyException if the keys are inappropriate for the algorithm specified
*/
public void addKeyAgreementRecipient(
String agreementAlgorithm,
PrivateKey senderPrivateKey,
PublicKey senderPublicKey,
X509Certificate recipientCert,
String cekWrapAlgorithm,
Provider provider)
throws NoSuchAlgorithmException, InvalidKeyException
{
KeyAgreement agreement = KeyAgreement.getInstance(agreementAlgorithm, provider);
agreement.init(senderPrivateKey, rand);
agreement.doPhase(recipientCert.getPublicKey(), true);
try
{
SubjectPublicKeyInfo oPubKeyInfo = SubjectPublicKeyInfo.getInstance(ASN1Object.fromByteArray(senderPublicKey.getEncoded()));
OriginatorIdentifierOrKey originator = new OriginatorIdentifierOrKey(
new OriginatorPublicKey(
new AlgorithmIdentifier(oPubKeyInfo.getAlgorithmId().getObjectId(), new DERNull()),
oPubKeyInfo.getPublicKeyData().getBytes()));
recipientInfs.add(new RecipientInf(agreement.generateSecret(cekWrapAlgorithm), agreementAlgorithm, cekWrapAlgorithm, originator, recipientCert));
}
catch (IOException e)
{
throw new InvalidKeyException("cannot extract originator public key: " + e);
}
}
protected AlgorithmIdentifier getAlgorithmIdentifier(String encryptionOID, AlgorithmParameters params) throws IOException
{
DEREncodable asn1Params;
if (params != null)
{
ASN1InputStream aIn = new ASN1InputStream(params.getEncoded("ASN.1"));
asn1Params = aIn.readObject();
}
else
{
asn1Params = new DERNull();
}
AlgorithmIdentifier encAlgId = new AlgorithmIdentifier(
new DERObjectIdentifier(encryptionOID),
asn1Params);
return encAlgId;
}
protected AlgorithmParameters generateParameters(String encryptionOID, SecretKey encKey, Provider encProvider)
throws CMSException
{
try
{
AlgorithmParameterGenerator pGen = AlgorithmParameterGenerator.getInstance(encryptionOID, encProvider);
if (encryptionOID.equals(RC2_CBC))
{
byte[] iv = new byte[8];
//
// mix in a bit extra...
//
rand.setSeed(System.currentTimeMillis());
rand.nextBytes(iv);
try
{
pGen.init(new RC2ParameterSpec(encKey.getEncoded().length * 8, iv), rand);
}
catch (InvalidAlgorithmParameterException e)
{
throw new CMSException("parameters generation error: " + e, e);
}
}
return pGen.generateParameters();
}
catch (NoSuchAlgorithmException e)
{
return null;
}
}
}