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The Bouncy Castle Java API for handling the OpenPGP protocol. This jar contains the OpenPGP API for JDK 1.4. The APIs can be used in conjunction with a JCE/JCA provider such as the one provided with the Bouncy Castle Cryptography APIs.

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package org.bouncycastle.openpgp;

import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;

import org.bouncycastle.bcpg.BCPGOutputStream;
import org.bouncycastle.openpgp.operator.KeyFingerPrintCalculator;
import org.bouncycastle.util.Iterable;
import org.bouncycastle.util.Longs;
import org.bouncycastle.util.Strings;

/**
 * Often a PGP key ring file is made up of a succession of master/sub-key key rings.
 * If you want to read an entire public key file in one hit this is the class for you.
 */
public class PGPPublicKeyRingCollection
    implements Iterable 
{
    private Map  pubRings = new HashMap ();
    private List  order = new ArrayList ();

    private PGPPublicKeyRingCollection(
        Map  pubRings,
        List  order)
    {
        this.pubRings = pubRings;
        this.order = order;
    }

    public PGPPublicKeyRingCollection(
        byte[] encoding,
        KeyFingerPrintCalculator fingerPrintCalculator)
        throws IOException, PGPException
    {
        this(new ByteArrayInputStream(encoding), fingerPrintCalculator);
    }

    /**
     * Build a PGPPublicKeyRingCollection from the passed in input stream.
     *
     * @param in input stream containing data
     * @throws IOException if a problem parsing the base stream occurs
     * @throws PGPException if an object is encountered which isn't a PGPPublicKeyRing
     */
    public PGPPublicKeyRingCollection(
        InputStream in,
        KeyFingerPrintCalculator fingerPrintCalculator)
        throws IOException, PGPException
    {
        PGPObjectFactory pgpFact = new PGPObjectFactory(in, fingerPrintCalculator);
        Object obj;

        while ((obj = pgpFact.nextObject()) != null)
        {
            // Marker packets must be ignored
            if (obj instanceof PGPMarker || obj instanceof PGPPadding)
            {
                continue;
            }
            if (!(obj instanceof PGPPublicKeyRing))
            {
                throw new PGPException(obj.getClass().getName() + " found where PGPPublicKeyRing expected");
            }

            PGPPublicKeyRing pgpPub = (PGPPublicKeyRing)obj;
            Long key = Longs.valueOf(pgpPub.getPublicKey().getKeyID());

            pubRings.put(key, pgpPub);
            order.add(key);
        }
    }

    public PGPPublicKeyRingCollection(
        Collection  collection)
    {
        Iterator  it = collection.iterator();

        while (it.hasNext())
        {
            PGPPublicKeyRing pgpPub = (PGPPublicKeyRing)it.next();

            Long key = Longs.valueOf(pgpPub.getPublicKey().getKeyID());

            pubRings.put(key, pgpPub);
            order.add(key);
        }
    }

    /**
     * Return the number of rings in this collection.
     *
     * @return size of the collection
     */
    public int size()
    {
        return order.size();
    }

    /**
     * return the public key rings making up this collection.
     */
    public Iterator  getKeyRings()
    {
        return pubRings.values().iterator();
    }

    /**
     * Return an iterator of the key rings associated with the passed in userID.
     *
     * @param userID the user ID to be matched.
     * @return an iterator (possibly empty) of key rings which matched.
     */
    public Iterator  getKeyRings(
        String userID)
    {
        return getKeyRings(userID, false, false);
    }

    /**
     * Return an iterator of the key rings associated with the passed in userID.
     * 

* * @param userID the user ID to be matched. * @param matchPartial if true userID need only be a substring of an actual ID string to match. * @return an iterator (possibly empty) of key rings which matched. */ public Iterator getKeyRings( String userID, boolean matchPartial) { return getKeyRings(userID, matchPartial, false); } /** * Return an iterator of the key rings associated with the passed in userID. *

* * @param userID the user ID to be matched. * @param matchPartial if true userID need only be a substring of an actual ID string to match. * @param ignoreCase if true case is ignored in user ID comparisons. * @return an iterator (possibly empty) of key rings which matched. */ public Iterator getKeyRings( String userID, boolean matchPartial, boolean ignoreCase) { Iterator it = this.getKeyRings(); List rings = new ArrayList (); if (ignoreCase) { userID = Strings.toLowerCase(userID); } while (it.hasNext()) { PGPPublicKeyRing pubRing = (PGPPublicKeyRing)it.next(); Iterator uIt = pubRing.getPublicKey().getUserIDs(); while (uIt.hasNext()) { String next = (String)uIt.next(); if (ignoreCase) { next = Strings.toLowerCase(next); } if (matchPartial) { if (next.indexOf(userID) >= 0) { rings.add(pubRing); } } else { if (next.equals(userID)) { rings.add(pubRing); } } } } return rings.iterator(); } /** * Return the PGP public key associated with the given key id. * * @param keyID if of the PGP public key * @return the PGP public key */ public PGPPublicKey getPublicKey( long keyID) { Iterator it = this.getKeyRings(); while (it.hasNext()) { PGPPublicKeyRing pubRing = (PGPPublicKeyRing)it.next(); PGPPublicKey pub = pubRing.getPublicKey(keyID); if (pub != null) { return pub; } } return null; } /** * Return the public key ring which contains the key referred to by keyID. * * @param keyID key ID to match against * @return the public key ring */ public PGPPublicKeyRing getPublicKeyRing( long keyID) { Long id = Longs.valueOf(keyID); if (pubRings.containsKey(id)) { return (PGPPublicKeyRing)pubRings.get(id); } Iterator it = this.getKeyRings(); while (it.hasNext()) { PGPPublicKeyRing pubRing = (PGPPublicKeyRing)it.next(); PGPPublicKey pub = pubRing.getPublicKey(keyID); if (pub != null) { return pubRing; } } return null; } /** * Return the PGP public key associated with the given key fingerprint. * * @param fingerprint the public key fingerprint to match against. * @return the PGP public key matching fingerprint. */ public PGPPublicKey getPublicKey( byte[] fingerprint) { Iterator it = this.getKeyRings(); while (it.hasNext()) { PGPPublicKeyRing pubRing = (PGPPublicKeyRing)it.next(); PGPPublicKey pub = pubRing.getPublicKey(fingerprint); if (pub != null) { return pub; } } return null; } /** * Return the public key ring which contains the key associated with the given key fingerprint. * * @param fingerprint the public key fingerprint to match against. * @return the PGP public key ring containing the PGP public key matching fingerprint. */ public PGPPublicKeyRing getPublicKeyRing( byte[] fingerprint) { Iterator it = this.getKeyRings(); while (it.hasNext()) { PGPPublicKeyRing pubRing = (PGPPublicKeyRing)it.next(); PGPPublicKey pub = pubRing.getPublicKey(fingerprint); if (pub != null) { return pubRing; } } return null; } /** * Return any keys carrying a signature issued by the key represented by keyID. * * @param keyID the key id to be matched against. * @return an iterator (possibly empty) of PGPPublicKey objects carrying signatures from keyID. */ public Iterator getKeysWithSignaturesBy(long keyID) { List keysWithSigs = new ArrayList (); for (Iterator it = this.iterator(); it.hasNext(); ) { PGPPublicKeyRing k = (PGPPublicKeyRing)it.next(); for (Iterator keyIt = k.getKeysWithSignaturesBy(keyID); keyIt.hasNext(); ) { keysWithSigs.add(keyIt.next()); } } return keysWithSigs.iterator(); } /** * Return true if a key matching the passed in key ID is present, false otherwise. * * @param keyID key ID to look for. * @return true if keyID present, false otherwise. */ public boolean contains(long keyID) { return getPublicKey(keyID) != null; } /** * Return true if a key matching the passed in fingerprint is present, false otherwise. * * @param fingerprint hte key fingerprint to look for. * @return true if keyID present, false otherwise. */ public boolean contains(byte[] fingerprint) { return getPublicKey(fingerprint) != null; } public byte[] getEncoded() throws IOException { ByteArrayOutputStream bOut = new ByteArrayOutputStream(); this.encode(bOut); return bOut.toByteArray(); } public void encode(OutputStream outStream) throws IOException { BCPGOutputStream out = BCPGOutputStream.wrap(outStream); Iterator it = order.iterator(); while (it.hasNext()) { PGPPublicKeyRing sr = (PGPPublicKeyRing)pubRings.get(it.next()); sr.encode(out); } } /** * Return a new collection object containing the contents of the passed in collection and * the passed in public key ring. * * @param ringCollection the collection the ring to be added to. * @param publicKeyRing the key ring to be added. * @return a new collection merging the current one with the passed in ring. * @throws IllegalArgumentException if the keyID for the passed in ring is already present. */ public static PGPPublicKeyRingCollection addPublicKeyRing( PGPPublicKeyRingCollection ringCollection, PGPPublicKeyRing publicKeyRing) { Long key = Longs.valueOf(publicKeyRing.getPublicKey().getKeyID()); if (ringCollection.pubRings.containsKey(key)) { throw new IllegalArgumentException("Collection already contains a key with a keyID for the passed in ring."); } Map newPubRings = new HashMap (ringCollection.pubRings); List newOrder = new ArrayList (ringCollection.order); newPubRings.put(key, publicKeyRing); newOrder.add(key); return new PGPPublicKeyRingCollection(newPubRings, newOrder); } /** * Return a new collection object containing the contents of this collection with * the passed in public key ring removed. * * @param ringCollection the collection the ring to be removed from. * @param publicKeyRing the key ring to be removed. * @return a new collection not containing the passed in ring. * @throws IllegalArgumentException if the keyID for the passed in ring not present. */ public static PGPPublicKeyRingCollection removePublicKeyRing( PGPPublicKeyRingCollection ringCollection, PGPPublicKeyRing publicKeyRing) { Long key = Longs.valueOf(publicKeyRing.getPublicKey().getKeyID()); if (!ringCollection.pubRings.containsKey(key)) { throw new IllegalArgumentException("Collection does not contain a key with a keyID for the passed in ring."); } Map newPubRings = new HashMap (ringCollection.pubRings); List newOrder = new ArrayList (ringCollection.order); newPubRings.remove(key); for (int i = 0; i < newOrder.size(); i++) { Long r = (Long)newOrder.get(i); if (r.longValue() == key.longValue()) { newOrder.remove(i); break; } } return new PGPPublicKeyRingCollection(newPubRings, newOrder); } /** * Support method for Iterable where available. */ public Iterator iterator() { return new KeyRingIterator (order, pubRings); } }





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