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The Bouncy Castle Java APIs for the OpenPGP Protocol. The APIs are designed primarily to be used in conjunction with the BC FIPS provider. The APIs may also be used with other providers although if being used in a FIPS context it is the responsibility of the user to ensure that any other providers used are FIPS certified and used appropriately.

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package org.bouncycastle.bcpg;

import java.io.IOException;

import org.bouncycastle.asn1.ASN1ObjectIdentifier;
import org.bouncycastle.math.ec.ECPoint;

/**
 * base class for an ECDH Public Key.
 */
public class ECDHPublicBCPGKey
    extends ECPublicBCPGKey
{
    private byte reserved;
    private byte hashFunctionId;
    private byte symAlgorithmId;

    /**
     * @param in the stream to read the packet from.
     */
    public ECDHPublicBCPGKey(
        BCPGInputStream in)
        throws IOException
    {
        super(in);

        int length = in.read();
        byte[] kdfParameters =  new byte[length];
        if (kdfParameters.length != 3)
        {
            throw new IllegalStateException("kdf parameters size of 3 expected.");
        }

        in.readFully(kdfParameters);

        reserved = kdfParameters[0];
        hashFunctionId = kdfParameters[1];
        symAlgorithmId = kdfParameters[2];

        verifyHashAlgorithm();
        verifySymmetricKeyAlgorithm();
    }

    public ECDHPublicBCPGKey(
        ASN1ObjectIdentifier oid,
        ECPoint point,
        int hashAlgorithm,
        int symmetricKeyAlgorithm)
    {
        super(oid, point);

        reserved = 1;
        hashFunctionId = (byte)hashAlgorithm;
        symAlgorithmId = (byte)symmetricKeyAlgorithm;

        verifyHashAlgorithm();
        verifySymmetricKeyAlgorithm();
    }

    public byte getReserved()
    {
        return reserved;
    }

    public byte getHashAlgorithm()
    {
        return hashFunctionId;
    }

    public byte getSymmetricKeyAlgorithm()
    {
        return symAlgorithmId;
    }

    public void encode(
        BCPGOutputStream out)
        throws IOException
    {
        super.encode(out);
        out.write(0x3);
        out.write(reserved);
        out.write(hashFunctionId);
        out.write(symAlgorithmId);
    }

    private void verifyHashAlgorithm()
    {
        switch (hashFunctionId)
        {
        case HashAlgorithmTags.SHA256:
        case HashAlgorithmTags.SHA384:
        case HashAlgorithmTags.SHA512:
            break;

        default:
            throw new IllegalStateException("Hash algorithm must be SHA-256 or stronger.");
        }
    }

    private void verifySymmetricKeyAlgorithm()
    {
        switch (symAlgorithmId)
        {
        case SymmetricKeyAlgorithmTags.AES_128:
        case SymmetricKeyAlgorithmTags.AES_192:
        case SymmetricKeyAlgorithmTags.AES_256:
            break;

        default:
            throw new IllegalStateException("Symmetric key algorithm must be AES-128 or stronger.");
        }
    }
}




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