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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#pragma warning disable SA1028 // ignore whitespace warnings for generated code
using System;
using System.Formats.Asn1;
using System.Runtime.InteropServices;
namespace System.Security.Cryptography.Pkcs.Asn1
{
[StructLayout(LayoutKind.Sequential)]
internal partial struct OriginatorIdentifierOrKeyAsn
{
internal System.Security.Cryptography.Pkcs.Asn1.IssuerAndSerialNumberAsn? IssuerAndSerialNumber;
internal ReadOnlyMemory<byte>? SubjectKeyIdentifier;
internal System.Security.Cryptography.Pkcs.Asn1.OriginatorPublicKeyAsn? OriginatorKey;
#if DEBUG
static OriginatorIdentifierOrKeyAsn()
{
var usedTags = new System.Collections.Generic.Dictionary<Asn1Tag, string>();
Action<Asn1Tag, string> ensureUniqueTag = (tag, fieldName) =>
{
if (usedTags.TryGetValue(tag, out string? existing))
{
throw new InvalidOperationException($"Tag '{tag}' is in use by both '{existing}' and '{fieldName}'");
}
usedTags.Add(tag, fieldName);
};
ensureUniqueTag(Asn1Tag.Sequence, "IssuerAndSerialNumber");
ensureUniqueTag(new Asn1Tag(TagClass.ContextSpecific, 0), "SubjectKeyIdentifier");
ensureUniqueTag(new Asn1Tag(TagClass.ContextSpecific, 1), "OriginatorKey");
}
#endif
internal readonly void Encode(AsnWriter writer)
{
bool wroteValue = false;
if (IssuerAndSerialNumber.HasValue)
{
if (wroteValue)
throw new CryptographicException();
IssuerAndSerialNumber.Value.Encode(writer);
wroteValue = true;
}
if (SubjectKeyIdentifier.HasValue)
{
if (wroteValue)
throw new CryptographicException();
writer.WriteOctetString(SubjectKeyIdentifier.Value.Span, new Asn1Tag(TagClass.ContextSpecific, 0));
wroteValue = true;
}
if (OriginatorKey.HasValue)
{
if (wroteValue)
throw new CryptographicException();
OriginatorKey.Value.Encode(writer, new Asn1Tag(TagClass.ContextSpecific, 1));
wroteValue = true;
}
if (!wroteValue)
{
throw new CryptographicException();
}
}
internal static OriginatorIdentifierOrKeyAsn Decode(ReadOnlyMemory<byte> encoded, AsnEncodingRules ruleSet)
{
try
{
AsnValueReader reader = new AsnValueReader(encoded.Span, ruleSet);
DecodeCore(ref reader, encoded, out OriginatorIdentifierOrKeyAsn decoded);
reader.ThrowIfNotEmpty();
return decoded;
}
catch (AsnContentException e)
{
throw new CryptographicException(SR.Cryptography_Der_Invalid_Encoding, e);
}
}
internal static void Decode(ref AsnValueReader reader, ReadOnlyMemory<byte> rebind, out OriginatorIdentifierOrKeyAsn decoded)
{
try
{
DecodeCore(ref reader, rebind, out decoded);
}
catch (AsnContentException e)
{
throw new CryptographicException(SR.Cryptography_Der_Invalid_Encoding, e);
}
}
private static void DecodeCore(ref AsnValueReader reader, ReadOnlyMemory<byte> rebind, out OriginatorIdentifierOrKeyAsn decoded)
{
decoded = default;
Asn1Tag tag = reader.PeekTag();
ReadOnlySpan<byte> rebindSpan = rebind.Span;
int offset;
ReadOnlySpan<byte> tmpSpan;
if (tag.HasSameClassAndValue(Asn1Tag.Sequence))
{
System.Security.Cryptography.Pkcs.Asn1.IssuerAndSerialNumberAsn tmpIssuerAndSerialNumber;
System.Security.Cryptography.Pkcs.Asn1.IssuerAndSerialNumberAsn.Decode(ref reader, rebind, out tmpIssuerAndSerialNumber);
decoded.IssuerAndSerialNumber = tmpIssuerAndSerialNumber;
}
else if (tag.HasSameClassAndValue(new Asn1Tag(TagClass.ContextSpecific, 0)))
{
if (reader.TryReadPrimitiveOctetString(out tmpSpan, new Asn1Tag(TagClass.ContextSpecific, 0)))
{
decoded.SubjectKeyIdentifier = rebindSpan.Overlaps(tmpSpan, out offset) ? rebind.Slice(offset, tmpSpan.Length) : tmpSpan.ToArray();
}
else
{
decoded.SubjectKeyIdentifier = reader.ReadOctetString(new Asn1Tag(TagClass.ContextSpecific, 0));
}
}
else if (tag.HasSameClassAndValue(new Asn1Tag(TagClass.ContextSpecific, 1)))
{
System.Security.Cryptography.Pkcs.Asn1.OriginatorPublicKeyAsn tmpOriginatorKey;
System.Security.Cryptography.Pkcs.Asn1.OriginatorPublicKeyAsn.Decode(ref reader, new Asn1Tag(TagClass.ContextSpecific, 1), rebind, out tmpOriginatorKey);
decoded.OriginatorKey = tmpOriginatorKey;
}
else
{
throw new CryptographicException();
}
}
}
}
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