I am using Bouncy Castle to generate RSA PGP key pairs. In all the examples I can find, the User ID field is always assigned when creating the Key Ring object, not the key pair itself.


However, when looking at https://tools.ietf.org/html/rfc4880#section-5.11 I can see that keys do have a User ID field designated in the key packet. My question is, how do I assign the User ID to a Keypair during key creation?
This is some example code that is close to what I am trying to do, but they still assign the User ID when assigning the key pair to a key ring.

    public final static PGPKeyRingGenerator generateKeyRingGenerator
        (String id, char[] pass, int s2kcount)
        throws Exception
{
    // This object generates individual key-pairs.
    RSAKeyPairGenerator  kpg = new RSAKeyPairGenerator();

    // Boilerplate RSA parameters, no need to change anything
    // except for the RSA key-size (2048). You can use whatever
    // key-size makes sense for you -- 4096, etc.
    kpg.init
            (new RSAKeyGenerationParameters
                    (BigInteger.valueOf(0x10001),
                            new SecureRandom(), 2048, 12));

    // First create the master (signing) key with the generator.
    PGPKeyPair rsakp_sign =
            new BcPGPKeyPair
                    (PGPPublicKey.RSA_SIGN, kpg.generateKeyPair(), new Date());
    // Then an encryption subkey.
    PGPKeyPair rsakp_enc =
            new BcPGPKeyPair
                    (PGPPublicKey.RSA_ENCRYPT, kpg.generateKeyPair(), new Date());

    // Add a self-signature on the id
    PGPSignatureSubpacketGenerator signhashgen =
            new PGPSignatureSubpacketGenerator();

    // Add signed metadata on the signature.
    // 1) Declare its purpose
    signhashgen.setKeyFlags
            (false, KeyFlags.SIGN_DATA|KeyFlags.CERTIFY_OTHER);
    // 2) Set preferences for secondary crypto algorithms to use
    //    when sending messages to this key.
    signhashgen.setPreferredSymmetricAlgorithms
            (false, new int[] {
                    SymmetricKeyAlgorithmTags.AES_256,
                    SymmetricKeyAlgorithmTags.AES_192,
                    SymmetricKeyAlgorithmTags.AES_128
            });
    signhashgen.setPreferredHashAlgorithms
            (false, new int[] {
                    HashAlgorithmTags.SHA256,
                    HashAlgorithmTags.SHA1,
                    HashAlgorithmTags.SHA384,
                    HashAlgorithmTags.SHA512,
                    HashAlgorithmTags.SHA224,
            });
    // 3) Request senders add additional checksums to the
    //    message (useful when verifying unsigned messages.)
    signhashgen.setFeature
            (false, Features.FEATURE_MODIFICATION_DETECTION);

    // Create a signature on the encryption subkey.
    PGPSignatureSubpacketGenerator enchashgen =
            new PGPSignatureSubpacketGenerator();
    // Add metadata to declare its purpose
    enchashgen.setKeyFlags
            (false, KeyFlags.ENCRYPT_COMMS|KeyFlags.ENCRYPT_STORAGE);

    // Objects used to encrypt the secret key.
    PGPDigestCalculator sha1Calc =
            new BcPGPDigestCalculatorProvider()
                    .get(HashAlgorithmTags.SHA1);
    PGPDigestCalculator sha256Calc =
            new BcPGPDigestCalculatorProvider()
                    .get(HashAlgorithmTags.SHA256);

    // bcpg 1.48 exposes this API that includes s2kcount. Earlier
    // versions use a default of 0x60.
    PBESecretKeyEncryptor pske =
            (new BcPBESecretKeyEncryptorBuilder
                    (PGPEncryptedData.AES_256, sha256Calc, s2kcount))
                    .build(pass);

    // Finally, create the keyring itself. The constructor
    // takes parameters that allow it to generate the self
    // signature.
    PGPKeyRingGenerator keyRingGen =
            new PGPKeyRingGenerator
                    (PGPSignature.POSITIVE_CERTIFICATION, rsakp_sign,
                            id, sha1Calc, signhashgen.generate(), null,
                            new BcPGPContentSignerBuilder
                                    (rsakp_sign.getPublicKey().getAlgorithm(),
                                            HashAlgorithmTags.SHA1),
                            pske);

    // Add our encryption subkey, together with its signature.
    keyRingGen.addSubKey
            (rsakp_enc, enchashgen.generate(), null);
    return keyRingGen;
}
  • I have very little background of gpg, however enough of rsa. The RSA keypair is mathematical construct ( p, q, d, n, e) and has no ownership other attributes. E. g. in case of X509 the certificate assignes attributes and public key. I'd assume it is similar with PGP. – gusto2 Aug 6 at 20:56

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