public override void Encode(IBcpgOutputStream pOut) { var pk = new SymmetricKeyEncSessionPacket( EncAlgorithm, _s2K, SessionInfo); pOut.WritePacket(pk); }
public override void Encode(IBcpgOutputStream bcpgOut) { using (var bOut = new MemoryStream()) { using (var pOut = new BcpgOutputStream(bOut)) { pOut.WriteByte((byte)_version); pOut.WriteLong(_keyId); pOut.WriteByte((byte)_algorithm); for (var i = 0; i != _data.Length; i++) { MPInteger.EncodeInteger(pOut, _data[i]); } if (_extraData != null) { if (_extraData.Length > 0xFF) { throw new PgpException("Extra Data is too large."); } pOut.WriteByte((byte)_extraData.Length); pOut.Write(_extraData, 0, _extraData.Length); } bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession, bOut.ToArray(), true); } } }
public override void Encode(IBcpgOutputStream bcpgOut) { using (var bOut = new MemoryStream()) { for (var i = 0; i != _subpackets.Length; i++) { _subpackets[i].Encode(bOut); } bcpgOut.WritePacket(PacketTag.UserAttribute, bOut.ToArray(), false); } }
public override void Encode(IBcpgOutputStream bcpgOut) { using (var bOut = new MemoryStream()) { using (var pOut = new BcpgOutputStream(bOut)) { pOut.WriteByte((byte)_version); switch (_version) { case 2: case 3: pOut.Write( 5, // the length of the next block (byte)_signatureType); pOut.WriteInt((int)(CreationTime / 1000L)); pOut.WriteLong(_keyId); pOut.Write( (byte)_keyAlgorithm, (byte)_hashAlgorithm); break; case 4: pOut.Write( (byte)_signatureType, (byte)_keyAlgorithm, (byte)_hashAlgorithm); EncodeLengthAndData(pOut, GetEncodedSubpackets(_hashedData)); EncodeLengthAndData(pOut, GetEncodedSubpackets(_unhashedData)); break; default: throw new IOException("unknown version: " + _version); } pOut.Write(_fingerprint); if (_signature != null) { pOut.WriteObjects(_signature); } else { pOut.Write(_signatureEncoding); } bcpgOut.WritePacket(PacketTag.Signature, bOut.ToArray(), true); } } }
public override void Encode( IBcpgOutputStream bcpgOut) { using (MemoryStream bOut = new MemoryStream()) { using (BcpgOutputStream pOut = new BcpgOutputStream(bOut)) { pOut.Write( (byte)version, (byte)sigType, (byte)hashAlgorithm, (byte)keyAlgorithm); pOut.WriteLong(keyId); pOut.WriteByte((byte)nested); bcpgOut.WritePacket(PacketTag.OnePassSignature, bOut.ToArray(), true); } } }
/// <summary> /// Encodes this instance to the given stream. /// </summary> /// <param name="bcpgOut">The BCPG out.</param> public override void Encode(IBcpgOutputStream bcpgOut) { using (var bOut = new MemoryStream()) { using (var pOut = new BcpgOutputStream(bOut)) { pOut.Write( (byte)Version, (byte)EncAlgorithm); pOut.WriteObject(S2K); if (_secKeyData != null && _secKeyData.Length > 0) { pOut.Write(_secKeyData); } bcpgOut.WritePacket(PacketTag.SymmetricKeyEncryptedSessionKey, bOut.ToArray(), true); } } }
public override void Encode(IBcpgOutputStream pOut) { var pk = new PublicKeyEncSessionPacket(_pubKey.KeyId, _pubKey.Algorithm, _data, _extraData); pOut.WritePacket(pk); }
public override void Encode(IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(PacketTag.Trust, _levelAndTrustAmount, true); }
public override void Encode(IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(PacketTag.PublicSubkey, GetEncodedContents(), true); }
public override void Encode(IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(PacketTag.UserId, _idData, true); }
public override void Encode( IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(PacketTag.ModificationDetectionCode, digest, false); }
/// <summary> /// Encodes this instance to the given stream. /// </summary> /// <param name="bcpgOut">The BCPG out.</param> public override void Encode(IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(PacketTag.SecretSubkey, GetEncodedContents(), true); }
/// <summary> /// Encodes this instance to the given stream. /// </summary> /// <param name="bcpgOut">The BCPG out.</param> public override void Encode(IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(PacketTag.SecretKey, this.GetEncodedContents(), true); }
public override void Encode(IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(_tag, _contents, true); }
public override void Encode( IBcpgOutputStream bcpgOut) { bcpgOut.WritePacket(PacketTag.Marker, marker, true); }
public override void Encode( IBcpgOutputStream bcpgOut) { using (MemoryStream bOut = new MemoryStream()) { using (BcpgOutputStream pOut = new BcpgOutputStream(bOut)) { pOut.Write( (byte) version, (byte) sigType, (byte) hashAlgorithm, (byte) keyAlgorithm); pOut.WriteLong(keyId); pOut.WriteByte((byte) nested); bcpgOut.WritePacket(PacketTag.OnePassSignature, bOut.ToArray(), true); } } }
public override void Encode(IBcpgOutputStream bcpgOut) { using (var bOut = new MemoryStream()) { using (var pOut = new BcpgOutputStream(bOut)) { pOut.WriteByte((byte)_version); pOut.WriteLong(_keyId); pOut.WriteByte((byte)_algorithm); for (var i = 0; i != _data.Length; i++) { MPInteger.EncodeInteger(pOut, _data[i]); } if (_extraData != null) { if (_extraData.Length > 0xFF) throw new PgpException("Extra Data is too large."); pOut.WriteByte((byte)_extraData.Length); pOut.Write(_extraData, 0, _extraData.Length); } bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession, bOut.ToArray(), true); } } }