/// <summary> /// Create a new key ring generator. /// </summary> /// <remarks> /// Conversion of the passphrase characters to bytes is performed using Convert.ToByte(), which is /// the historical behaviour of the library (1.7 and earlier). /// </remarks> /// <param name="certificationLevel">The certification level for keys on this ring.</param> /// <param name="masterKey">The master key pair.</param> /// <param name="id">The id to be associated with the ring.</param> /// <param name="encAlgorithm">The algorithm to be used to protect secret keys.</param> /// <param name="hashAlgorithm">The hash algorithm.</param> /// <param name="passPhrase">The passPhrase to be used to protect secret keys.</param> /// <param name="useSha1">Checksum the secret keys with SHA1 rather than the older 16 bit checksum.</param> /// <param name="hashedPackets">Packets to be included in the certification hash.</param> /// <param name="unhashedPackets">Packets to be attached unhashed to the certification.</param> /// <param name="rand">input secured random.</param> public PgpKeyRingGenerator( int certificationLevel, PgpKeyPair masterKey, string id, SymmetricKeyAlgorithmTag encAlgorithm, HashAlgorithmTag hashAlgorithm, char[] passPhrase, bool useSha1, PgpSignatureSubpacketVector hashedPackets, PgpSignatureSubpacketVector unhashedPackets, SecureRandom rand) : this(certificationLevel, masterKey, id, encAlgorithm, hashAlgorithm, false, passPhrase, useSha1, hashedPackets, unhashedPackets, rand) { }
/// <summary> /// Create a new key ring generator. /// </summary> /// <param name="certificationLevel">The certification level for keys on this ring.</param> /// <param name="masterKey">The master key pair.</param> /// <param name="id">The id to be associated with the ring.</param> /// <param name="encAlgorithm">The algorithm to be used to protect secret keys.</param> /// <param name="rawPassPhrase">The passPhrase to be used to protect secret keys.</param> /// <param name="useSha1">Checksum the secret keys with SHA1 rather than the older 16 bit checksum.</param> /// <param name="hashedPackets">Packets to be included in the certification hash.</param> /// <param name="unhashedPackets">Packets to be attached unhashed to the certification.</param> /// <param name="rand">input secured random.</param> public PgpKeyRingGenerator( int certificationLevel, PgpKeyPair masterKey, string id, SymmetricKeyAlgorithmTag encAlgorithm, byte[] rawPassPhrase, bool useSha1, PgpSignatureSubpacketVector hashedPackets, PgpSignatureSubpacketVector unhashedPackets, SecureRandom rand) { this.certificationLevel = certificationLevel; this.masterKey = masterKey; this.id = id; this.encAlgorithm = encAlgorithm; this.rawPassPhrase = rawPassPhrase; this.useSha1 = useSha1; this.hashedPacketVector = hashedPackets; this.unhashedPacketVector = unhashedPackets; this.rand = rand; keys.Add(new PgpSecretKey(certificationLevel, masterKey, id, encAlgorithm, rawPassPhrase, false, useSha1, hashedPackets, unhashedPackets, rand)); }
/// <summary> /// Add a subkey to the key ring to be generated with default certification. /// </summary> /// <param name="keyPair">The key pair.</param> /// <param name="hashAlgorithm">The hash algorithm.</param> public void AddSubKey(PgpKeyPair keyPair, HashAlgorithmTag hashAlgorithm) { this.AddSubKey(keyPair, this.hashedPacketVector, this.unhashedPacketVector, hashAlgorithm); }
/// <summary>Add a subkey to the key ring to be generated with default certification.</summary> public void AddSubKey( PgpKeyPair keyPair) { AddSubKey(keyPair, this.hashedPacketVector, this.unhashedPacketVector); }