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(BcpgOutputStream bcpgOut)
{
//IL_0000: Unknown result type (might be due to invalid IL or missing references)
//IL_0006: Expected O, but got Unknown
MemoryStream val = new MemoryStream();
BcpgOutputStream bcpgOutputStream = new BcpgOutputStream((Stream)(object)val);
bcpgOutputStream.Write((byte)version, (byte)sigType, (byte)hashAlgorithm, (byte)keyAlgorithm);
bcpgOutputStream.WriteLong(keyId);
((Stream)bcpgOutputStream).WriteByte((byte)nested);
bcpgOut.WritePacket(PacketTag.OnePassSignature, val.ToArray(), oldFormat: true);
}
public override void Encode(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
BcpgOutputStream pOut = new BcpgOutputStream(bOut);
pOut.WriteByte((byte)version);
if (version == 3 || version == 2)
{
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);
}
else if (version == 4)
{
pOut.Write(
(byte)signatureType,
(byte)keyAlgorithm,
(byte)hashAlgorithm);
EncodeLengthAndData(pOut, GetEncodedSubpackets(hashedData));
EncodeLengthAndData(pOut, GetEncodedSubpackets(unhashedData));
}
else
{
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(BcpgOutputStream bcpgOut)
{
MemoryStream memoryStream = new MemoryStream();
BcpgOutputStream bcpgOutputStream = new BcpgOutputStream(memoryStream);
bcpgOutputStream.WriteByte((byte)this.version);
bcpgOutputStream.WriteLong(this.keyId);
bcpgOutputStream.WriteByte((byte)this.algorithm);
for (int num = 0; num != this.data.Length; num++)
{
MPInteger.Encode(bcpgOutputStream, this.data[num]);
}
bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession, memoryStream.ToArray(), true);
}
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(BcpgOutputStream bcpgOut)
{
MemoryStream memoryStream = new MemoryStream();
BcpgOutputStream bcpgOutputStream = new BcpgOutputStream(memoryStream);
bcpgOutputStream.Write(new byte[]
{
(byte)this.version,
(byte)this.sigType,
(byte)this.hashAlgorithm,
(byte)this.keyAlgorithm
});
bcpgOutputStream.WriteLong(this.keyId);
bcpgOutputStream.WriteByte((byte)this.nested);
bcpgOut.WritePacket(PacketTag.OnePassSignature, memoryStream.ToArray(), true);
}
public override void Encode(BcpgOutputStream bcpgOut)
{
MemoryStream memoryStream = new MemoryStream();
BcpgOutputStream bcpgOutputStream = new BcpgOutputStream(memoryStream);
bcpgOutputStream.WriteByte((byte)this.version);
if (this.version == 3 || this.version == 2)
{
bcpgOutputStream.Write(new byte[]
{
5,
(byte)this.signatureType
});
bcpgOutputStream.WriteInt((int)(this.creationTime / 1000L));
bcpgOutputStream.WriteLong(this.keyId);
bcpgOutputStream.Write(new byte[]
{
(byte)this.keyAlgorithm,
(byte)this.hashAlgorithm
});
}
else
{
if (this.version != 4)
{
throw new IOException("unknown version: " + this.version);
}
bcpgOutputStream.Write(new byte[]
{
(byte)this.signatureType,
(byte)this.keyAlgorithm,
(byte)this.hashAlgorithm
});
SignaturePacket.EncodeLengthAndData(bcpgOutputStream, SignaturePacket.GetEncodedSubpackets(this.hashedData));
SignaturePacket.EncodeLengthAndData(bcpgOutputStream, SignaturePacket.GetEncodedSubpackets(this.unhashedData));
}
bcpgOutputStream.Write(this.fingerprint);
if (this.signature != null)
{
bcpgOutputStream.WriteObjects(this.signature);
}
else
{
bcpgOutputStream.Write(this.signatureEncoding);
}
bcpgOut.WritePacket(PacketTag.Signature, memoryStream.ToArray(), true);
}
public override void Encode(BcpgOutputStream bcpgOut)
{
//IL_0000: Unknown result type (might be due to invalid IL or missing references)
//IL_0006: Expected O, but got Unknown
MemoryStream val = new MemoryStream();
BcpgOutputStream bcpgOutputStream = new BcpgOutputStream((Stream)(object)val);
((Stream)bcpgOutputStream).WriteByte((byte)version);
bcpgOutputStream.WriteLong(keyId);
((Stream)bcpgOutputStream).WriteByte((byte)algorithm);
for (int i = 0; i < data.Length; i++)
{
bcpgOutputStream.Write(data[i]);
}
Platform.Dispose((Stream)(object)bcpgOutputStream);
bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession, val.ToArray(), oldFormat: true);
}
public override void Encode(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
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(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
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(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
BcpgOutputStream pOut = new BcpgOutputStream(bOut);
pOut.WriteByte((byte)version);
pOut.WriteLong(keyId);
pOut.WriteByte((byte)algorithm);
for (int i = 0; i != data.Length; i++)
{
MPInteger.Encode(pOut, data[i]);
}
bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession, bOut.ToArray(), true);
}
public override void Encode(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
BcpgOutputStream pOut = new BcpgOutputStream(bOut);
pOut.WriteByte((byte)version);
pOut.WriteLong(keyId);
pOut.WriteByte((byte)algorithm);
for (int i = 0; i < data.Length; ++i)
{
pOut.Write(data[i]);
}
Platform.Dispose(pOut);
bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession, bOut.ToArray(), true);
}
public override void Encode(BcpgOutputStream bcpgOut)
{
//IL_0000: Unknown result type (might be due to invalid IL or missing references)
//IL_0006: Expected O, but got Unknown
//IL_00fa: Unknown result type (might be due to invalid IL or missing references)
MemoryStream val = new MemoryStream();
BcpgOutputStream bcpgOutputStream = new BcpgOutputStream((Stream)(object)val);
((Stream)bcpgOutputStream).WriteByte((byte)version);
if (version == 3 || version == 2)
{
bcpgOutputStream.Write(5, (byte)signatureType);
bcpgOutputStream.WriteInt((int)(creationTime / 1000));
bcpgOutputStream.WriteLong(keyId);
bcpgOutputStream.Write((byte)keyAlgorithm, (byte)hashAlgorithm);
}
else
{
if (version != 4)
{
throw new IOException(string.Concat((object)"unknown version: ", (object)version));
}
bcpgOutputStream.Write((byte)signatureType, (byte)keyAlgorithm, (byte)hashAlgorithm);
EncodeLengthAndData(bcpgOutputStream, GetEncodedSubpackets(hashedData));
EncodeLengthAndData(bcpgOutputStream, GetEncodedSubpackets(unhashedData));
}
bcpgOutputStream.Write(fingerprint);
if (signature != null)
{
bcpgOutputStream.WriteObjects(signature);
}
else
{
bcpgOutputStream.Write(signatureEncoding);
}
bcpgOut.WritePacket(PacketTag.Signature, val.ToArray(), oldFormat: 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);
}
}
}
public override void Encode(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
BcpgOutputStream pOut = new BcpgOutputStream(bOut);
pOut.WriteByte((byte) version);
pOut.WriteLong(keyId);
pOut.WriteByte((byte)algorithm);
for (int i = 0; i != data.Length; i++)
{
pOut.WriteObject(new MPInteger(data[i]));
}
bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession , bOut.ToArray(), true);
}
public override void Encode(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
BcpgOutputStream pOut = new BcpgOutputStream(bOut);
pOut.WriteByte((byte) version);
if (version == 3 || version == 2)
{
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);
}
else if (version == 4)
{
pOut.Write(
(byte) signatureType,
(byte) keyAlgorithm,
(byte) hashAlgorithm);
EncodeLengthAndData(pOut, GetEncodedSubpackets(hashedData));
EncodeLengthAndData(pOut, GetEncodedSubpackets(unhashedData));
}
else
{
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(
BcpgOutputStream bcpgOut)
{
MemoryStream bOut = new MemoryStream();
BcpgOutputStream pOut = new BcpgOutputStream(bOut);
pOut.WriteByte((byte) version);
pOut.WriteLong(keyId);
pOut.WriteByte((byte)algorithm);
for (int i = 0; i < data.Length; ++i)
{
pOut.Write(data[i]);
}
Platform.Dispose(pOut);
bcpgOut.WritePacket(PacketTag.PublicKeyEncryptedSession , bOut.ToArray(), true);
}
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);
}
}
}
