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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 1.8. 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.openpgp;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Date;
import java.util.List;
import org.bouncycastle.asn1.ASN1EncodableVector;
import org.bouncycastle.asn1.ASN1Integer;
import org.bouncycastle.asn1.DERSequence;
import org.bouncycastle.bcpg.BCPGInputStream;
import org.bouncycastle.bcpg.BCPGOutputStream;
import org.bouncycastle.bcpg.MPInteger;
import org.bouncycastle.bcpg.Packet;
import org.bouncycastle.bcpg.PublicKeyAlgorithmTags;
import org.bouncycastle.bcpg.SignaturePacket;
import org.bouncycastle.bcpg.SignatureSubpacket;
import org.bouncycastle.bcpg.TrustPacket;
import org.bouncycastle.bcpg.UserAttributeSubpacket;
import org.bouncycastle.openpgp.operator.PGPContentVerifier;
import org.bouncycastle.openpgp.operator.PGPContentVerifierBuilder;
import org.bouncycastle.openpgp.operator.PGPContentVerifierBuilderProvider;
import org.bouncycastle.util.Arrays;
import org.bouncycastle.util.BigIntegers;
import org.bouncycastle.util.Strings;
/**
* A PGP signature object.
*/
public class PGPSignature
{
public static final int BINARY_DOCUMENT = 0x00;
public static final int CANONICAL_TEXT_DOCUMENT = 0x01;
public static final int STAND_ALONE = 0x02;
public static final int DEFAULT_CERTIFICATION = 0x10;
public static final int NO_CERTIFICATION = 0x11;
public static final int CASUAL_CERTIFICATION = 0x12;
public static final int POSITIVE_CERTIFICATION = 0x13;
public static final int SUBKEY_BINDING = 0x18;
public static final int PRIMARYKEY_BINDING = 0x19;
public static final int DIRECT_KEY = 0x1f;
public static final int KEY_REVOCATION = 0x20;
public static final int SUBKEY_REVOCATION = 0x28;
public static final int CERTIFICATION_REVOCATION = 0x30;
public static final int TIMESTAMP = 0x40;
public static final int THIRD_PARTY_CONFIRMATION = 0x50;
private final int signatureType;
private final SignaturePacket sigPck;
private final TrustPacket trustPck;
private volatile PGPContentVerifier verifier;
private volatile byte lastb;
private volatile OutputStream sigOut;
private static SignaturePacket cast(Packet packet)
throws IOException
{
if (!(packet instanceof SignaturePacket))
{
throw new IOException("unexpected packet in stream: " + packet);
}
return (SignaturePacket)packet;
}
public PGPSignature(
BCPGInputStream pIn)
throws IOException, PGPException
{
this(cast(pIn.readPacket()));
}
PGPSignature(
PGPSignature signature)
{
sigPck = signature.sigPck;
signatureType = signature.signatureType;
trustPck = signature.trustPck;
}
PGPSignature(
SignaturePacket sigPacket)
{
this(sigPacket, null);
}
PGPSignature(
SignaturePacket sigPacket,
TrustPacket trustPacket)
{
this.sigPck = sigPacket;
this.signatureType = sigPck.getSignatureType();
this.trustPck = trustPacket;
}
/**
* Return the OpenPGP version number for this signature.
*
* @return signature version number.
*/
public int getVersion()
{
return sigPck.getVersion();
}
/**
* Return the key algorithm associated with this signature.
*
* @return signature key algorithm.
*/
public int getKeyAlgorithm()
{
return sigPck.getKeyAlgorithm();
}
/**
* Return the hash algorithm associated with this signature.
*
* @return signature hash algorithm.
*/
public int getHashAlgorithm()
{
return sigPck.getHashAlgorithm();
}
/**
* Return the digest prefix of the signature.
*
* @return digest prefix
*/
public byte[] getDigestPrefix()
{
return sigPck.getFingerPrint();
}
/**
* Return true if this signature represents a certification.
*
* @return true if this signature represents a certification, false otherwise.
*/
public boolean isCertification()
{
return isCertification(getSignatureType());
}
public void init(PGPContentVerifierBuilderProvider verifierBuilderProvider, PGPPublicKey pubKey)
throws PGPException
{
PGPContentVerifierBuilder verifierBuilder = createVerifierProvider(verifierBuilderProvider);
init(verifierBuilder.build(pubKey));
}
PGPContentVerifierBuilder createVerifierProvider(PGPContentVerifierBuilderProvider verifierBuilderProvider)
throws PGPException
{
return verifierBuilderProvider.get(sigPck.getKeyAlgorithm(), sigPck.getHashAlgorithm());
}
void init(PGPContentVerifier verifier)
{
this.verifier = verifier;
this.lastb = 0;
this.sigOut = verifier.getOutputStream();
}
public void update(
byte b)
{
if (signatureType == PGPSignature.CANONICAL_TEXT_DOCUMENT)
{
if (b == '\r')
{
byteUpdate((byte)'\r');
byteUpdate((byte)'\n');
}
else if (b == '\n')
{
if (lastb != '\r')
{
byteUpdate((byte)'\r');
byteUpdate((byte)'\n');
}
}
else
{
byteUpdate(b);
}
lastb = b;
}
else
{
byteUpdate(b);
}
}
public void update(
byte[] bytes)
{
this.update(bytes, 0, bytes.length);
}
public void update(
byte[] bytes,
int off,
int length)
{
if (signatureType == PGPSignature.CANONICAL_TEXT_DOCUMENT)
{
int finish = off + length;
for (int i = off; i != finish; i++)
{
this.update(bytes[i]);
}
}
else
{
blockUpdate(bytes, off, length);
}
}
private void byteUpdate(byte b)
{
try
{
sigOut.write(b);
}
catch (IOException e)
{
throw new PGPRuntimeOperationException(e.getMessage(), e);
}
}
private void blockUpdate(byte[] block, int off, int len)
{
try
{
sigOut.write(block, off, len);
}
catch (IOException e)
{
throw new PGPRuntimeOperationException(e.getMessage(), e);
}
}
public boolean verify()
throws PGPException
{
try
{
sigOut.write(this.getSignatureTrailer());
sigOut.close();
}
catch (IOException e)
{
throw new PGPException(e.getMessage(), e);
}
return verifier.verify(this.getSignature());
}
private void updateWithIdData(int header, byte[] idBytes)
{
this.update((byte)header);
this.update((byte)(idBytes.length >> 24));
this.update((byte)(idBytes.length >> 16));
this.update((byte)(idBytes.length >> 8));
this.update((byte)(idBytes.length));
this.update(idBytes);
}
private void updateWithPublicKey(PGPPublicKey key)
throws PGPException
{
byte[] keyBytes = getEncodedPublicKey(key);
this.update((byte)0x99);
this.update((byte)(keyBytes.length >> 8));
this.update((byte)(keyBytes.length));
this.update(keyBytes);
}
/**
* Verify the signature as certifying the passed in public key as associated
* with the passed in user attributes.
*
* @param userAttributes user attributes the key was stored under
* @param key the key to be verified.
* @return true if the signature matches, false otherwise.
* @throws PGPException
*/
public boolean verifyCertification(
PGPUserAttributeSubpacketVector userAttributes,
PGPPublicKey key)
throws PGPException
{
if (verifier == null)
{
throw new PGPException("PGPSignature not initialised - call init().");
}
if (!PGPSignature.isCertification(signatureType)
&& PGPSignature.CERTIFICATION_REVOCATION != signatureType)
{
throw new PGPException("signature is neither a certification signature nor a certification revocation.");
}
return doVerifyCertification(userAttributes, key);
}
boolean doVerifyCertification(
PGPUserAttributeSubpacketVector userAttributes,
PGPPublicKey key)
throws PGPException
{
updateWithPublicKey(key);
//
// hash in the userAttributes
//
try
{
ByteArrayOutputStream bOut = new ByteArrayOutputStream();
UserAttributeSubpacket[] packets = userAttributes.toSubpacketArray();
for (int i = 0; i != packets.length; i++)
{
packets[i].encode(bOut);
}
updateWithIdData(0xd1, bOut.toByteArray());
}
catch (IOException e)
{
throw new PGPException("cannot encode subpacket array", e);
}
addTrailer();
return verifier.verify(this.getSignature());
}
/**
* Verify the signature as certifying the passed in public key as associated
* with the passed in id.
*
* @param id id the key was stored under
* @param key the key to be verified.
* @return true if the signature matches, false otherwise.
* @throws PGPException
*/
public boolean verifyCertification(
String id,
PGPPublicKey key)
throws PGPException
{
return verifyCertification(Strings.toUTF8ByteArray(id), key);
}
/**
* Verify the signature as certifying the passed in public key as associated
* with the passed in rawID.
*
* @param rawID id the key was stored under in its raw byte form.
* @param key the key to be verified.
* @return true if the signature matches, false otherwise.
* @throws PGPException
*/
public boolean verifyCertification(
byte[] rawID,
PGPPublicKey key)
throws PGPException
{
if (verifier == null)
{
throw new PGPException("PGPSignature not initialised - call init().");
}
if (!PGPSignature.isCertification(signatureType)
&& PGPSignature.CERTIFICATION_REVOCATION != signatureType)
{
throw new PGPException("signature is neither a certification signature nor a certification revocation.");
}
return doVerifyCertification(rawID, key);
}
boolean doVerifyCertification(byte[] rawID, PGPPublicKey key)
throws PGPException
{
updateWithPublicKey(key);
//
// hash in the rawID
//
updateWithIdData(0xb4, rawID);
addTrailer();
return verifier.verify(this.getSignature());
}
/**
* Verify a certification for the passed in key against the passed in
* master key.
*
* @param masterKey the key we are verifying against.
* @param pubKey the key we are verifying.
* @return true if the certification is valid, false otherwise.
* @throws PGPException
*/
public boolean verifyCertification(
PGPPublicKey masterKey,
PGPPublicKey pubKey)
throws PGPException
{
if (verifier == null)
{
throw new PGPException("PGPSignature not initialised - call init().");
}
if (PGPSignature.SUBKEY_BINDING != signatureType
&& PGPSignature.PRIMARYKEY_BINDING != signatureType
&& PGPSignature.SUBKEY_REVOCATION != signatureType)
{
throw new PGPException("signature is not a key binding signature.");
}
return doVerifyCertification(masterKey, pubKey);
}
boolean doVerifyCertification(
PGPPublicKey masterKey,
PGPPublicKey pubKey)
throws PGPException
{
updateWithPublicKey(masterKey);
updateWithPublicKey(pubKey);
addTrailer();
return verifier.verify(this.getSignature());
}
private void addTrailer()
{
try
{
sigOut.write(sigPck.getSignatureTrailer());
sigOut.close();
}
catch (IOException e)
{
throw new PGPRuntimeOperationException(e.getMessage(), e);
}
}
/**
* Verify a key certification, such as a revocation, for the passed in key.
*
* @param pubKey the key we are checking.
* @return true if the certification is valid, false otherwise.
* @throws PGPException
*/
public boolean verifyCertification(
PGPPublicKey pubKey)
throws PGPException
{
if (verifier == null)
{
throw new PGPException("PGPSignature not initialised - call init().");
}
if (this.getSignatureType() != KEY_REVOCATION
&& this.getSignatureType() != DIRECT_KEY)
{
throw new PGPException("signature is not a key signature");
}
return doVerifyCertification(pubKey);
}
boolean doVerifyCertification(
PGPPublicKey pubKey)
throws PGPException
{
updateWithPublicKey(pubKey);
addTrailer();
return verifier.verify(this.getSignature());
}
public int getSignatureType()
{
return sigPck.getSignatureType();
}
/**
* Return the id of the key that created the signature.
*
* @return keyID of the signatures corresponding key.
*/
public long getKeyID()
{
return sigPck.getKeyID();
}
/**
* Return the creation time of the signature.
*
* @return the signature creation time.
*/
public Date getCreationTime()
{
return new Date(sigPck.getCreationTime());
}
public byte[] getSignatureTrailer()
{
return sigPck.getSignatureTrailer();
}
/**
* Return true if the signature has either hashed or unhashed subpackets.
*
* @return true if either hashed or unhashed subpackets are present, false otherwise.
*/
public boolean hasSubpackets()
{
return sigPck.getHashedSubPackets() != null || sigPck.getUnhashedSubPackets() != null;
}
public PGPSignatureSubpacketVector getHashedSubPackets()
{
return createSubpacketVector(sigPck.getHashedSubPackets());
}
public PGPSignatureSubpacketVector getUnhashedSubPackets()
{
return createSubpacketVector(sigPck.getUnhashedSubPackets());
}
private PGPSignatureSubpacketVector createSubpacketVector(SignatureSubpacket[] pcks)
{
if (pcks != null)
{
return new PGPSignatureSubpacketVector(pcks);
}
return null;
}
public byte[] getSignature()
throws PGPException
{
MPInteger[] sigValues = sigPck.getSignature();
byte[] signature;
if (sigValues != null)
{
if (sigValues.length == 1) // an RSA signature
{
signature = BigIntegers.asUnsignedByteArray(sigValues[0].getValue());
}
else if (this.getKeyAlgorithm() == PublicKeyAlgorithmTags.EDDSA_LEGACY)
{
signature = new byte[64];
byte[] a = BigIntegers.asUnsignedByteArray(sigValues[0].getValue());
byte[] b = BigIntegers.asUnsignedByteArray(sigValues[1].getValue());
System.arraycopy(a, 0, signature, 32 - a.length, a.length);
System.arraycopy(b, 0, signature, 64 - b.length, b.length);
}
else
{
try
{
ASN1EncodableVector v = new ASN1EncodableVector();
v.add(new ASN1Integer(sigValues[0].getValue()));
v.add(new ASN1Integer(sigValues[1].getValue()));
signature = new DERSequence(v).getEncoded();
}
catch (IOException e)
{
throw new PGPException("exception encoding DSA sig.", e);
}
}
}
else
{
signature = sigPck.getSignatureBytes();
}
return signature;
}
public byte[] getEncoded()
throws IOException
{
ByteArrayOutputStream bOut = new ByteArrayOutputStream();
this.encode(bOut);
return bOut.toByteArray();
}
/**
* Return an encoding of the signature, with trust packets stripped out if forTransfer is true.
*
* @param forTransfer if the purpose of encoding is to send key to other users.
* @return a encoded byte array representing the key.
* @throws IOException in case of encoding error.
*/
public byte[] getEncoded(boolean forTransfer)
throws IOException
{
ByteArrayOutputStream bOut = new ByteArrayOutputStream();
this.encode(bOut, forTransfer);
return bOut.toByteArray();
}
public void encode(
OutputStream outStream)
throws IOException
{
encode(outStream, false);
}
/**
* Encode the signature to outStream, with trust packets stripped out if forTransfer is true.
*
* @param outStream stream to write the key encoding to.
* @param forTransfer if the purpose of encoding is to send key to other users.
* @throws IOException in case of encoding error.
*/
public void encode(
OutputStream outStream,
boolean forTransfer)
throws IOException
{
// Exportable signatures MUST NOT be exported if forTransfer==true
if (forTransfer && (!getHashedSubPackets().isExportable() || !getUnhashedSubPackets().isExportable()))
{
return;
}
BCPGOutputStream out = BCPGOutputStream.wrap(outStream);
out.writePacket(sigPck);
if (!forTransfer && trustPck != null)
{
out.writePacket(trustPck);
}
}
private byte[] getEncodedPublicKey(
PGPPublicKey pubKey)
throws PGPException
{
byte[] keyBytes;
try
{
keyBytes = pubKey.publicPk.getEncodedContents();
}
catch (IOException e)
{
throw new PGPException("exception preparing key.", e);
}
return keyBytes;
}
/**
* Return true if the passed in signature type represents a certification, false if the signature type is not.
*
* @param signatureType
* @return true if signatureType is a certification, false otherwise.
*/
public static boolean isCertification(int signatureType)
{
return PGPSignature.DEFAULT_CERTIFICATION == signatureType
|| PGPSignature.NO_CERTIFICATION == signatureType
|| PGPSignature.CASUAL_CERTIFICATION == signatureType
|| PGPSignature.POSITIVE_CERTIFICATION == signatureType;
}
public static boolean isSignatureEncodingEqual(PGPSignature sig1, PGPSignature sig2)
{
return Arrays.areEqual(sig1.sigPck.getSignatureBytes(), sig2.sigPck.getSignatureBytes());
}
public static PGPSignature join(PGPSignature sig1, PGPSignature sig2)
throws PGPException
{
if (!isSignatureEncodingEqual(sig1, sig2))
{
throw new IllegalArgumentException("These are different signatures.");
}
// merge unhashed subpackets
SignatureSubpacket[] sig1Unhashed = sig1.getUnhashedSubPackets().packets;
SignatureSubpacket[] sig2Unhashed = sig2.getUnhashedSubPackets().packets;
List merged = new ArrayList(java.util.Arrays.asList(sig1Unhashed));
for (int i = 0; i != sig2Unhashed.length; i++)
{
SignatureSubpacket subpacket = sig2Unhashed[i];
boolean found = false;
for (int j = 0; j != sig1Unhashed.length; j++)
{
SignatureSubpacket existing = sig1Unhashed[j];
if (subpacket.equals(existing))
{
found = true;
break;
}
}
if (!found)
{
merged.add(subpacket);
}
}
SignatureSubpacket[] unhashed = (SignatureSubpacket[])merged.toArray(new SignatureSubpacket[0]);
return new PGPSignature(
new SignaturePacket(
sig1.getSignatureType(),
sig1.getKeyID(),
sig1.getKeyAlgorithm(),
sig1.getHashAlgorithm(),
sig1.getHashedSubPackets().packets,
unhashed,
sig1.getDigestPrefix(),
sig1.sigPck.getSignature()
)
);
}
}
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