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The Bouncy Castle Java API for handling the OpenPGP protocol. This jar contains the OpenPGP API for JDK 1.5 to JDK 1.7. The APIs can be used in conjunction with a JCE/JCA provider such as the one provided with the Bouncy Castle Cryptography APIs.
package org.bouncycastle.gpg.keybox;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;
/**
* A PGP blob holds key material.
*/
public class CertificateBlob
extends KeyBlob
{
private CertificateBlob(int base, long length,
BlobType type,
int version,
int blobFlags,
int keyNumber,
List keyInformation,
byte[] serialNumber,
int numberOfUserIDs,
List userIds,
int numberOfSignatures,
List expirationTime,
int assignedOwnerTrust,
int allValidity,
long recheckAfter,
long newestTimestamp,
long blobCreatedAt,
byte[] keyBytes,
byte[] reserveBytes,
byte[] sha1Checksum)
{
super(base, length, type, version, blobFlags, keyNumber,
keyInformation, serialNumber, numberOfUserIDs, userIds, numberOfSignatures,
expirationTime, assignedOwnerTrust, allValidity, recheckAfter, newestTimestamp, blobCreatedAt,
keyBytes, reserveBytes, sha1Checksum);
}
static Blob parseContent(int base, long length, BlobType type, int version, KeyBoxByteBuffer buffer, BlobVerifier blobVerifier)
throws IOException
{
//
// u32 Length of this blob (including these 4 bytes)
// byte Blob type
// 2 = OpenPGP
// 3 = X509
// byte Version number of this blob type
// 1 = The only defined value
//
//
// Take checksum first.
//
verifyDigest(base, length, buffer, blobVerifier);
int blobFlags = buffer.u16(); // u16 Blob flags
long keyBlockOffset = buffer.u32(); // u32 offset to the OpenPGP keyblock or X509 DER encoded certificate
long keyBlockLength = buffer.u32(); // u32 and its length
int keyNumber = buffer.u16(); // u16 number of keys (at least 1!) [X509: always 1]
// This value defines the length of the space reserved for the AdditionalKeyInformation
int keyInformationStructureSize = buffer.u16(); // u16 size of additional key information
//
// Load the additional key information.
//
List keyInformation = new ArrayList();
for (int t = keyNumber - 1; t >= 0; t--)
{
keyInformation.add(KeyInformation.getInstance(buffer, keyInformationStructureSize, base));
}
int sizeOfSerialNumber = buffer.u16(); // size of serialnumber(may be zero)
byte[] serialNumber = buffer.bN(sizeOfSerialNumber);
// buffer.bN(serialNumber); // n u16 (see above) bytes of serial number
int numberOfUserIDs = buffer.u16(); // u16 number of user IDs
buffer.u16(); // size of additional user ID information
//
// User IDS.
//
List userIds = new ArrayList();
for (int t = numberOfUserIDs - 1; t >= 0; t--)
{
userIds.add(UserID.getInstance(buffer, base));
}
int numberOfSignatures = buffer.u16();
buffer.u16();
List signatureExpirationTime = new ArrayList();
for (int t = numberOfSignatures - 1; t >= 0; t--)
{
signatureExpirationTime.add(buffer.u32());
}
int assignedOwnerTrust = buffer.u8(); // din.read();
int allValidity = buffer.u8();
buffer.u16(); // RFU
long recheckAfter = buffer.u32();
long newestTimestamp = buffer.u32();
long blobCreatedAt = buffer.u32();
long sizeOfReservedSpace = buffer.u32();
// Arbitrary reserved space, that may hold X509 V3 certificate IDs.!
byte[] reserveData = buffer.bN((int)sizeOfReservedSpace); // Reserved space of size NRES for future use.
// buffer.bN(reserveData);
//
// Key block is loaded based from the start of the blob rather than
//
byte[] keyData = buffer.rangeOf(
(int)(base + keyBlockOffset),
(int)(base + keyBlockOffset + keyBlockLength)); // Defined near top of structure..
//
// Reserve space.
//
int dataSize = (int)(length - (buffer.position() - base) - 20);
byte[] data = buffer.bN(dataSize);
byte[] sha1Checksum = buffer.rangeOf((int)(base + length - 20), (int)(base + length));
buffer.consume(sha1Checksum.length);
return new CertificateBlob(base, length,
type,
version,
blobFlags,
keyNumber,
keyInformation,
serialNumber,
numberOfUserIDs,
userIds,
numberOfSignatures,
signatureExpirationTime,
assignedOwnerTrust,
allValidity,
recheckAfter,
newestTimestamp,
blobCreatedAt,
keyData, reserveData, sha1Checksum);
}
/**
* Return the encoded certificate.
*
* This is the raw certificate data, if you are using the JCA then you can
* convert it back to an X509 Certificate using.
*
* Example:
* byte[] certData = keyBlob.getEncodedCertificate();
* CertificateFactory factory = CertificateFactory.getInstance("X509");
* certificate = factory.generateCertificate(new ByteArrayInputStream(certData));
*
* @return
*/
public byte[] getEncodedCertificate()
{
return getKeyBytes();
}
}