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using System;
using System.Collections;
using Org.BouncyCastle.Bcpg.Sig;
using Org.BouncyCastle.Utilities;
namespace Org.BouncyCastle.Bcpg.OpenPgp
{
/// <remarks>Generator for signature subpackets.</remarks>
public class PgpSignatureSubpacketGenerator
{
private IList list = Platform.CreateArrayList();
/// <summary>
///Base constructor, creates an empty generator.
/// </summary>
public PgpSignatureSubpacketGenerator()
{
}
/// <summary>
/// Constructor for pre-initialising the generator from an existing one.
/// </summary>
/// <param name="sigSubV">
/// sigSubV an initial set of subpackets.
/// </param>
public PgpSignatureSubpacketGenerator(PgpSignatureSubpacketVector sigSubV)
{
if (sigSubV != null)
{
SignatureSubpacket[] subs = sigSubV.ToSubpacketArray();
for (int i = 0; i != sigSubV.Count; i++)
{
list.Add(subs[i]);
}
}
}
public void SetRevocable(
bool isCritical,
bool isRevocable)
{
list.Add(new Revocable(isCritical, isRevocable));
}
public void SetExportable(
bool isCritical,
bool isExportable)
{
list.Add(new Exportable(isCritical, isExportable));
}
public void SetFeature(
bool isCritical,
byte feature)
{
list.Add(new Features(isCritical, feature));
}
/// <summary>
/// Add a TrustSignature packet to the signature. The values for depth and trust are largely
/// installation dependent but there are some guidelines in RFC 4880 - 5.2.3.13.
/// </summary>
/// <param name="isCritical">true if the packet is critical.</param>
/// <param name="depth">depth level.</param>
/// <param name="trustAmount">trust amount.</param>
public void SetTrust(
bool isCritical,
int depth,
int trustAmount)
{
list.Add(new TrustSignature(isCritical, depth, trustAmount));
}
/// <summary>
/// Set the number of seconds a key is valid for after the time of its creation.
/// A value of zero means the key never expires.
/// </summary>
/// <param name="isCritical">True, if should be treated as critical, false otherwise.</param>
/// <param name="seconds">The number of seconds the key is valid, or zero if no expiry.</param>
public void SetKeyExpirationTime(
bool isCritical,
long seconds)
{
list.Add(new KeyExpirationTime(isCritical, seconds));
}
/// <summary>
/// Set the number of seconds a signature is valid for after the time of its creation.
/// A value of zero means the signature never expires.
/// </summary>
/// <param name="isCritical">True, if should be treated as critical, false otherwise.</param>
/// <param name="seconds">The number of seconds the signature is valid, or zero if no expiry.</param>
public void SetSignatureExpirationTime(
bool isCritical,
long seconds)
{
list.Add(new SignatureExpirationTime(isCritical, seconds));
}
/// <summary>
/// Set the creation time for the signature.
/// <p>
/// Note: this overrides the generation of a creation time when the signature
/// is generated.</p>
/// </summary>
public void SetSignatureCreationTime(
bool isCritical,
DateTime date)
{
list.Add(new SignatureCreationTime(isCritical, date));
}
public void SetPreferredHashAlgorithms(
bool isCritical,
int[] algorithms)
{
list.Add(new PreferredAlgorithms(SignatureSubpacketTag.PreferredHashAlgorithms, isCritical, algorithms));
}
public void SetPreferredSymmetricAlgorithms(
bool isCritical,
int[] algorithms)
{
list.Add(new PreferredAlgorithms(SignatureSubpacketTag.PreferredSymmetricAlgorithms, isCritical, algorithms));
}
public void SetPreferredCompressionAlgorithms(
bool isCritical,
int[] algorithms)
{
list.Add(new PreferredAlgorithms(SignatureSubpacketTag.PreferredCompressionAlgorithms, isCritical, algorithms));
}
public void SetKeyFlags(
bool isCritical,
int flags)
{
list.Add(new KeyFlags(isCritical, flags));
}
public void SetSignerUserId(
bool isCritical,
string userId)
{
if (userId == null)
throw new ArgumentNullException("userId");
list.Add(new SignerUserId(isCritical, userId));
}
public void SetSignerUserId(
bool isCritical,
byte[] rawUserId)
{
if (rawUserId == null)
throw new ArgumentNullException("rawUserId");
list.Add(new SignerUserId(isCritical, false, rawUserId));
}
public void SetEmbeddedSignature(
bool isCritical,
PgpSignature pgpSignature)
{
byte[] sig = pgpSignature.GetEncoded();
byte[] data;
// TODO Should be >= ?
if (sig.Length - 1 > 256)
{
data = new byte[sig.Length - 3];
}
else
{
data = new byte[sig.Length - 2];
}
Array.Copy(sig, sig.Length - data.Length, data, 0, data.Length);
list.Add(new EmbeddedSignature(isCritical, false, data));
}
public void SetPrimaryUserId(
bool isCritical,
bool isPrimaryUserId)
{
list.Add(new PrimaryUserId(isCritical, isPrimaryUserId));
}
public void SetNotationData(
bool isCritical,
bool isHumanReadable,
string notationName,
string notationValue)
{
list.Add(new NotationData(isCritical, isHumanReadable, notationName, notationValue));
}
/// <summary>
/// Sets revocation reason sub packet
/// </summary>
public void SetRevocationReason(bool isCritical, RevocationReasonTag reason,
string description)
{
list.Add(new RevocationReason(isCritical, reason, description));
}
/// <summary>
/// Sets revocation key sub packet
/// </summary>
public void SetRevocationKey(bool isCritical, PublicKeyAlgorithmTag keyAlgorithm, byte[] fingerprint)
{
list.Add(new RevocationKey(isCritical, RevocationKeyTag.ClassDefault, keyAlgorithm, fingerprint));
}
/// <summary>
/// Sets issuer key sub packet
/// </summary>
public void SetIssuerKeyID(bool isCritical, long keyID)
{
list.Add(new IssuerKeyId(isCritical, keyID));
}
public PgpSignatureSubpacketVector Generate()
{
SignatureSubpacket[] a = new SignatureSubpacket[list.Count];
for (int i = 0; i < list.Count; ++i)
{
a[i] = (SignatureSubpacket)list[i];
}
return new PgpSignatureSubpacketVector(a);
}
}
}
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