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using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using Org.BouncyCastle.Utilities;
using Org.BouncyCastle.Utilities.Collections;
namespace Org.BouncyCastle.Asn1
{
public abstract class Asn1Set
: Asn1Object, IEnumerable<Asn1Encodable>
{
internal class Meta : Asn1UniversalType
{
internal static readonly Asn1UniversalType Instance = new Meta();
private Meta() : base(typeof(Asn1Set), Asn1Tags.Set) {}
internal override Asn1Object FromImplicitConstructed(Asn1Sequence sequence)
{
return sequence.ToAsn1Set();
}
}
/**
* return an ASN1Set from the given object.
*
* @param obj the object we want converted.
* @exception ArgumentException if the object cannot be converted.
*/
public static Asn1Set GetInstance(object obj)
{
if (obj == null || obj is Asn1Set)
{
return (Asn1Set)obj;
}
//else if (obj is Asn1SetParser)
else if (obj is IAsn1Convertible)
{
Asn1Object asn1Object = ((IAsn1Convertible)obj).ToAsn1Object();
if (asn1Object is Asn1Set)
return (Asn1Set)asn1Object;
}
else if (obj is byte[])
{
try
{
return (Asn1Set)Meta.Instance.FromByteArray((byte[])obj);
}
catch (IOException e)
{
throw new ArgumentException("failed to construct set from byte[]: " + e.Message);
}
}
throw new ArgumentException("illegal object in GetInstance: " + Platform.GetTypeName(obj), "obj");
}
/**
* Return an ASN1 set from a tagged object. There is a special
* case here, if an object appears to have been explicitly tagged on
* reading but we were expecting it to be implicitly tagged in the
* normal course of events it indicates that we lost the surrounding
* set - so we need to add it back (this will happen if the tagged
* object is a sequence that contains other sequences). If you are
* dealing with implicitly tagged sets you really <b>should</b>
* be using this method.
*
* @param taggedObject the tagged object.
* @param declaredExplicit true if the object is meant to be explicitly tagged false otherwise.
* @exception ArgumentException if the tagged object cannot be converted.
*/
public static Asn1Set GetInstance(Asn1TaggedObject taggedObject, bool declaredExplicit)
{
return (Asn1Set)Meta.Instance.GetContextInstance(taggedObject, declaredExplicit);
}
// NOTE: Only non-readonly to support LazyDLSet
internal Asn1Encodable[] elements;
internal bool isSorted;
protected internal Asn1Set()
{
this.elements = Asn1EncodableVector.EmptyElements;
this.isSorted = true;
}
protected internal Asn1Set(Asn1Encodable element)
{
if (null == element)
throw new ArgumentNullException("element");
this.elements = new Asn1Encodable[]{ element };
this.isSorted = true;
}
protected internal Asn1Set(Asn1Encodable[] elements, bool doSort)
{
if (Arrays.IsNullOrContainsNull(elements))
throw new NullReferenceException("'elements' cannot be null, or contain null");
Asn1Encodable[] tmp = Asn1EncodableVector.CloneElements(elements);
if (doSort && tmp.Length >= 2)
{
tmp = Sort(tmp);
}
this.elements = tmp;
this.isSorted = doSort || tmp.Length < 2;
}
protected internal Asn1Set(Asn1EncodableVector elementVector, bool doSort)
{
if (null == elementVector)
throw new ArgumentNullException("elementVector");
Asn1Encodable[] tmp;
if (doSort && elementVector.Count >= 2)
{
tmp = Sort(elementVector.CopyElements());
}
else
{
tmp = elementVector.TakeElements();
}
this.elements = tmp;
this.isSorted = doSort || tmp.Length < 2;
}
protected internal Asn1Set(bool isSorted, Asn1Encodable[] elements)
{
this.elements = elements;
this.isSorted = isSorted || elements.Length < 2;
}
System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator()
{
return GetEnumerator();
}
public virtual IEnumerator<Asn1Encodable> GetEnumerator()
{
IEnumerable<Asn1Encodable> e = elements;
return e.GetEnumerator();
}
/**
* return the object at the set position indicated by index.
*
* @param index the set number (starting at zero) of the object
* @return the object at the set position indicated by index.
*/
public virtual Asn1Encodable this[int index]
{
get { return elements[index]; }
}
public virtual int Count
{
get { return elements.Length; }
}
public virtual T[] MapElements<T>(Func<Asn1Encodable, T> func)
{
// NOTE: Call Count here to 'force' a LazyDerSet
int count = Count;
T[] result = new T[count];
for (int i = 0; i < count; ++i)
{
result[i] = func(elements[i]);
}
return result;
}
public virtual Asn1Encodable[] ToArray()
{
return Asn1EncodableVector.CloneElements(elements);
}
private class Asn1SetParserImpl
: Asn1SetParser
{
private readonly Asn1Set outer;
private readonly int max;
private int index;
public Asn1SetParserImpl(
Asn1Set outer)
{
this.outer = outer;
// NOTE: Call Count here to 'force' a LazyDerSet
this.max = outer.Count;
}
public IAsn1Convertible ReadObject()
{
if (index == max)
return null;
Asn1Encodable obj = outer[index++];
if (obj is Asn1Sequence)
return ((Asn1Sequence)obj).Parser;
if (obj is Asn1Set)
return ((Asn1Set)obj).Parser;
// NB: Asn1OctetString implements Asn1OctetStringParser directly
// if (obj is Asn1OctetString)
// return ((Asn1OctetString)obj).Parser;
return obj;
}
public virtual Asn1Object ToAsn1Object()
{
return outer;
}
}
public Asn1SetParser Parser
{
get { return new Asn1SetParserImpl(this); }
}
protected override int Asn1GetHashCode()
{
// NOTE: Call Count here to 'force' a LazyDerSet
int i = Count;
int hc = i + 1;
while (--i >= 0)
{
hc *= 257;
hc ^= elements[i].ToAsn1Object().CallAsn1GetHashCode();
}
return hc;
}
protected override bool Asn1Equals(Asn1Object asn1Object)
{
Asn1Set that = asn1Object as Asn1Set;
if (null == that)
return false;
// NOTE: Call Count here (on both) to 'force' a LazyDerSet
int count = this.Count;
if (that.Count != count)
return false;
for (int i = 0; i < count; ++i)
{
Asn1Object o1 = this.elements[i].ToAsn1Object();
Asn1Object o2 = that.elements[i].ToAsn1Object();
if (!o1.Equals(o2))
return false;
}
return true;
}
public override string ToString()
{
return CollectionUtilities.ToString(elements);
}
internal static Asn1Encodable[] Sort(Asn1Encodable[] elements)
{
int count = elements.Length;
if (count < 2)
return elements;
byte[][] keys = new byte[count][];
for (int i = 0; i < count; ++i)
{
keys[i] = elements[i].GetEncoded(Der);
}
Array.Sort(keys, elements, new DerComparer());
return elements;
}
private class DerComparer
: IComparer<byte[]>
{
public int Compare(byte[] a, byte[] b)
{
Debug.Assert(a.Length >= 2 && b.Length >= 2);
/*
* NOTE: Set elements in DER encodings are ordered first according to their tags (class and
* number); the CONSTRUCTED bit is not part of the tag.
*
* For SET-OF, this is unimportant. All elements have the same tag and DER requires them to
* either all be in constructed form or all in primitive form, according to that tag. The
* elements are effectively ordered according to their content octets.
*
* For SET, the elements will have distinct tags, and each will be in constructed or
* primitive form accordingly. Failing to ignore the CONSTRUCTED bit could therefore lead to
* ordering inversions.
*/
int a0 = a[0] & ~Asn1Tags.Constructed;
int b0 = b[0] & ~Asn1Tags.Constructed;
if (a0 != b0)
return a0 < b0 ? -1 : 1;
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
int compareLength = System.Math.Min(a.Length, b.Length) - 1;
return a.AsSpan(1, compareLength).SequenceCompareTo(b.AsSpan(1, compareLength));
#else
int len = System.Math.Min(a.Length, b.Length);
for (int i = 1; i < len; ++i)
{
byte ai = a[i], bi = b[i];
if (ai != bi)
return ai < bi ? -1 : 1;
}
Debug.Assert(a.Length == b.Length);
return 0;
#endif
}
}
}
}
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