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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.5 to JDK 1.8.

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package org.bouncycastle.crypto.util;

import java.io.IOException;
import java.math.BigInteger;

import org.bouncycastle.asn1.ASN1EncodableVector;
import org.bouncycastle.asn1.ASN1Integer;
import org.bouncycastle.asn1.ASN1ObjectIdentifier;
import org.bouncycastle.asn1.ASN1Sequence;
import org.bouncycastle.asn1.ASN1TaggedObject;
import org.bouncycastle.asn1.DERSequence;
import org.bouncycastle.asn1.nist.NISTNamedCurves;
import org.bouncycastle.asn1.pkcs.PrivateKeyInfo;
import org.bouncycastle.asn1.pkcs.RSAPrivateKey;
import org.bouncycastle.asn1.sec.ECPrivateKey;
import org.bouncycastle.asn1.x9.ECNamedCurveTable;
import org.bouncycastle.asn1.x9.X9ECParameters;
import org.bouncycastle.crypto.CryptoServicesRegistrar;
import org.bouncycastle.crypto.params.AsymmetricKeyParameter;
import org.bouncycastle.crypto.params.DSAParameters;
import org.bouncycastle.crypto.params.DSAPrivateKeyParameters;
import org.bouncycastle.crypto.params.ECNamedDomainParameters;
import org.bouncycastle.crypto.params.ECPrivateKeyParameters;
import org.bouncycastle.crypto.params.Ed25519PrivateKeyParameters;
import org.bouncycastle.crypto.params.Ed25519PublicKeyParameters;
import org.bouncycastle.crypto.params.RSAPrivateCrtKeyParameters;
import org.bouncycastle.util.Arrays;
import org.bouncycastle.util.BigIntegers;
import org.bouncycastle.util.Strings;


/**
 * A collection of utility methods for parsing OpenSSH private keys.
 */
public class OpenSSHPrivateKeyUtil
{
    private OpenSSHPrivateKeyUtil()
    {

    }

    /**
     * Magic value for proprietary OpenSSH private key.
     **/
    static final byte[] AUTH_MAGIC = Strings.toByteArray("openssh-key-v1\0"); // C string so null terminated

    /**
     * Encode a cipher parameters into an OpenSSH private key.
     * This does not add headers like ----BEGIN RSA PRIVATE KEY----
     *
     * @param params the cipher parameters.
     * @return a byte array
     */
    public static byte[] encodePrivateKey(AsymmetricKeyParameter params)
        throws IOException
    {
        if (params == null)
        {
            throw new IllegalArgumentException("param is null");
        }

        if (params instanceof RSAPrivateCrtKeyParameters)
        {
            PrivateKeyInfo pInfo = PrivateKeyInfoFactory.createPrivateKeyInfo(params);

            return pInfo.parsePrivateKey().toASN1Primitive().getEncoded();
        }
        else if (params instanceof ECPrivateKeyParameters)
        {
            PrivateKeyInfo pInfo = PrivateKeyInfoFactory.createPrivateKeyInfo(params);

            return pInfo.parsePrivateKey().toASN1Primitive().getEncoded();
        }
        else if (params instanceof DSAPrivateKeyParameters)
        {
            DSAPrivateKeyParameters dsaPrivKey = (DSAPrivateKeyParameters)params;
            DSAParameters dsaParams = dsaPrivKey.getParameters();

            ASN1EncodableVector vec = new ASN1EncodableVector();
            vec.add(new ASN1Integer(0));
            vec.add(new ASN1Integer(dsaParams.getP()));
            vec.add(new ASN1Integer(dsaParams.getQ()));
            vec.add(new ASN1Integer(dsaParams.getG()));

            // public key = g.modPow(x, p);
            BigInteger pubKey = dsaParams.getG().modPow(dsaPrivKey.getX(), dsaParams.getP());
            vec.add(new ASN1Integer(pubKey));

            vec.add(new ASN1Integer(dsaPrivKey.getX()));
            try
            {
                return new DERSequence(vec).getEncoded();
            }
            catch (Exception ex)
            {
                throw new IllegalStateException("unable to encode DSAPrivateKeyParameters " + ex.getMessage());
            }
        }
        else if (params instanceof Ed25519PrivateKeyParameters)
        {
            Ed25519PublicKeyParameters publicKeyParameters = ((Ed25519PrivateKeyParameters)params).generatePublicKey();

            SSHBuilder builder = new SSHBuilder();
            builder.writeBytes(AUTH_MAGIC);
            builder.writeString("none");    // cipher name
            builder.writeString("none");    // KDF name
            builder.writeString("");        // KDF options

            builder.u32(1); // Number of keys

            {
                byte[] pkEncoded = OpenSSHPublicKeyUtil.encodePublicKey(publicKeyParameters);
                builder.writeBlock(pkEncoded);
            }

            {
                SSHBuilder pkBuild = new SSHBuilder();

                int checkint = CryptoServicesRegistrar.getSecureRandom().nextInt();
                pkBuild.u32(checkint);
                pkBuild.u32(checkint);

                pkBuild.writeString("ssh-ed25519");

                // Public key (as part of private key pair)
                byte[] pubKeyEncoded = publicKeyParameters.getEncoded();
                pkBuild.writeBlock(pubKeyEncoded);

                // The private key in SSH is 64 bytes long and is the concatenation of the private and the public keys
                pkBuild.writeBlock(Arrays.concatenate(((Ed25519PrivateKeyParameters)params).getEncoded(), pubKeyEncoded));

                pkBuild.writeString("");    // Comment for this private key (empty)

                builder.writeBlock(pkBuild.getPaddedBytes());
            }

            return builder.getBytes();
        }

        throw new IllegalArgumentException("unable to convert " + params.getClass().getName() + " to openssh private key");

    }

    /**
     * Parse a private key.
     * 

* This method accepts the body of the OpenSSH private key. * The easiest way to extract the body is to use PemReader, for example: *

* byte[] blob = new PemReader([reader]).readPemObject().getContent(); * CipherParameters params = parsePrivateKeyBlob(blob); * * @param blob The key. * @return A cipher parameters instance. */ public static AsymmetricKeyParameter parsePrivateKeyBlob(byte[] blob) { AsymmetricKeyParameter result = null; if (blob[0] == 0x30) { ASN1Sequence sequence = ASN1Sequence.getInstance(blob); if (sequence.size() == 6) { if (allIntegers(sequence) && ((ASN1Integer)sequence.getObjectAt(0)).getPositiveValue().equals(BigIntegers.ZERO)) { // length of 6 and all Integers -- DSA result = new DSAPrivateKeyParameters( ((ASN1Integer)sequence.getObjectAt(5)).getPositiveValue(), new DSAParameters( ((ASN1Integer)sequence.getObjectAt(1)).getPositiveValue(), ((ASN1Integer)sequence.getObjectAt(2)).getPositiveValue(), ((ASN1Integer)sequence.getObjectAt(3)).getPositiveValue()) ); } } else if (sequence.size() == 9) { if (allIntegers(sequence) && ((ASN1Integer)sequence.getObjectAt(0)).getPositiveValue().equals(BigIntegers.ZERO)) { // length of 8 and all Integers -- RSA RSAPrivateKey rsaPrivateKey = RSAPrivateKey.getInstance(sequence); result = new RSAPrivateCrtKeyParameters( rsaPrivateKey.getModulus(), rsaPrivateKey.getPublicExponent(), rsaPrivateKey.getPrivateExponent(), rsaPrivateKey.getPrime1(), rsaPrivateKey.getPrime2(), rsaPrivateKey.getExponent1(), rsaPrivateKey.getExponent2(), rsaPrivateKey.getCoefficient()); } } else if (sequence.size() == 4) { if (sequence.getObjectAt(3) instanceof ASN1TaggedObject && sequence.getObjectAt(2) instanceof ASN1TaggedObject) { ECPrivateKey ecPrivateKey = ECPrivateKey.getInstance(sequence); ASN1ObjectIdentifier curveOID = (ASN1ObjectIdentifier)ecPrivateKey.getParameters(); X9ECParameters x9Params = ECNamedCurveTable.getByOID(curveOID); result = new ECPrivateKeyParameters( ecPrivateKey.getKey(), new ECNamedDomainParameters( curveOID, x9Params)); } } } else { SSHBuffer kIn = new SSHBuffer(AUTH_MAGIC, blob); String cipherName = kIn.readString(); if (!"none".equals(cipherName)) { throw new IllegalStateException("encrypted keys not supported"); } // KDF name kIn.skipBlock(); // KDF options kIn.skipBlock(); int publicKeyCount = kIn.readU32(); if (publicKeyCount != 1) { throw new IllegalStateException("multiple keys not supported"); } // Burn off public key. OpenSSHPublicKeyUtil.parsePublicKey(kIn.readBlock()); byte[] privateKeyBlock = kIn.readPaddedBlock(); if (kIn.hasRemaining()) { throw new IllegalArgumentException("decoded key has trailing data"); } SSHBuffer pkIn = new SSHBuffer(privateKeyBlock); int check1 = pkIn.readU32(); int check2 = pkIn.readU32(); if (check1 != check2) { throw new IllegalStateException("private key check values are not the same"); } String keyType = pkIn.readString(); if ("ssh-ed25519".equals(keyType)) { // Public key pkIn.readBlock(); // Private key value.. byte[] edPrivateKey = pkIn.readBlock(); if (edPrivateKey.length != Ed25519PrivateKeyParameters.KEY_SIZE + Ed25519PublicKeyParameters.KEY_SIZE) { throw new IllegalStateException("private key value of wrong length"); } result = new Ed25519PrivateKeyParameters(edPrivateKey, 0); } else if (keyType.startsWith("ecdsa")) { ASN1ObjectIdentifier oid = SSHNamedCurves.getByName(Strings.fromByteArray(pkIn.readBlock())); if (oid == null) { throw new IllegalStateException("OID not found for: " + keyType); } X9ECParameters curveParams = NISTNamedCurves.getByOID(oid); if (curveParams == null) { throw new IllegalStateException("Curve not found for: " + oid); } // Skip public key. pkIn.readBlock(); byte[] privKey = pkIn.readBlock(); result = new ECPrivateKeyParameters(new BigInteger(1, privKey), new ECNamedDomainParameters(oid, curveParams)); } // Comment for private key pkIn.skipBlock(); if (pkIn.hasRemaining()) { throw new IllegalArgumentException("private key block has trailing data"); } } if (result == null) { throw new IllegalArgumentException("unable to parse key"); } return result; } /** * allIntegers returns true if the sequence holds only ASN1Integer types. **/ private static boolean allIntegers(ASN1Sequence sequence) { for (int t = 0; t < sequence.size(); t++) { if (!(sequence.getObjectAt(t) instanceof ASN1Integer)) { return false; } } return true; } }





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