using Org.BouncyCastle.Math; using Org.BouncyCastle.Utilities; using System; using System.IO; namespace Org.BouncyCastle.Asn1 { public class DerEnumerated : Asn1Object { internal class Meta : Asn1UniversalType { internal static readonly Asn1UniversalType Instance = new Meta(); private Meta() : base(typeof(DerEnumerated), 10) { } internal override Asn1Object FromImplicitPrimitive(DerOctetString octetString) { return CreatePrimitive(octetString.GetOctets(), false); } } private readonly byte[] contents; private readonly int start; private static readonly DerEnumerated[] cache = new DerEnumerated[12]; public BigInteger Value => new BigInteger(contents); public int IntValueExact { get { if (contents.Length - start > 4) throw new ArithmeticException("ASN.1 Enumerated out of int range"); return DerInteger.IntValue(contents, start, -1); } } public static DerEnumerated GetInstance(object obj) { if (obj == null) return null; DerEnumerated derEnumerated = obj as DerEnumerated; if (derEnumerated != null) return derEnumerated; IAsn1Convertible asn1Convertible = obj as IAsn1Convertible; if (asn1Convertible != null) { DerEnumerated derEnumerated2 = asn1Convertible.ToAsn1Object() as DerEnumerated; if (derEnumerated2 != null) return derEnumerated2; } else { byte[] array = obj as byte[]; if (array != null) try { return (DerEnumerated)Meta.Instance.FromByteArray(array); } catch (IOException ex) { throw new ArgumentException("failed to construct enumerated from byte[]: " + ex.Message); } } throw new ArgumentException("illegal object in GetInstance: " + Platform.GetTypeName(obj)); } public static DerEnumerated GetInstance(Asn1TaggedObject taggedObject, bool declaredExplicit) { return (DerEnumerated)Meta.Instance.GetContextInstance(taggedObject, declaredExplicit); } public DerEnumerated(int val) { if (val < 0) throw new ArgumentException("enumerated must be non-negative", "val"); contents = BigInteger.ValueOf(val).ToByteArray(); start = 0; } public DerEnumerated(long val) { if (val < 0) throw new ArgumentException("enumerated must be non-negative", "val"); contents = BigInteger.ValueOf(val).ToByteArray(); start = 0; } public DerEnumerated(BigInteger val) { if (val.SignValue < 0) throw new ArgumentException("enumerated must be non-negative", "val"); contents = val.ToByteArray(); start = 0; } public DerEnumerated(byte[] contents) : this(contents, true) { } internal DerEnumerated(byte[] contents, bool clone) { if (DerInteger.IsMalformed(contents)) throw new ArgumentException("malformed enumerated", "contents"); if ((contents[0] & 128) != 0) throw new ArgumentException("enumerated must be non-negative", "contents"); this.contents = (clone ? Arrays.Clone(contents) : contents); start = DerInteger.SignBytesToSkip(this.contents); } public bool HasValue(int x) { if (contents.Length - start <= 4) return DerInteger.IntValue(contents, start, -1) == x; return false; } public bool HasValue(BigInteger x) { if (x != null && DerInteger.IntValue(contents, start, -1) == x.IntValue) return Value.Equals(x); return false; } internal override IAsn1Encoding GetEncoding(int encoding) { return new PrimitiveEncoding(0, 10, contents); } internal override IAsn1Encoding GetEncodingImplicit(int encoding, int tagClass, int tagNo) { return new PrimitiveEncoding(tagClass, tagNo, contents); } internal sealed override DerEncoding GetEncodingDer() { return new PrimitiveDerEncoding(0, 10, contents); } internal sealed override DerEncoding GetEncodingDerImplicit(int tagClass, int tagNo) { return new PrimitiveDerEncoding(tagClass, tagNo, contents); } protected override bool Asn1Equals(Asn1Object asn1Object) { DerEnumerated derEnumerated = asn1Object as DerEnumerated; if (derEnumerated == null) return false; return Arrays.AreEqual(contents, derEnumerated.contents); } protected override int Asn1GetHashCode() { return Arrays.GetHashCode(contents); } internal static DerEnumerated CreatePrimitive(byte[] contents, bool clone) { if (contents.Length > 1) return new DerEnumerated(contents, clone); if (contents.Length == 0) throw new ArgumentException("ENUMERATED has zero length", "contents"); int num = contents[0]; if (num >= cache.Length) return new DerEnumerated(contents, clone); DerEnumerated derEnumerated = cache[num]; if (derEnumerated == null) derEnumerated = (cache[num] = new DerEnumerated(contents, clone)); return derEnumerated; } } }