#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR) using System; using System.IO; namespace Org.BouncyCastle.Asn1 { public class Asn1StreamParser { private readonly Stream _in; private readonly int _limit; private readonly byte[][] tmpBuffers; public Asn1StreamParser( Stream inStream) : this(inStream, Asn1InputStream.FindLimit(inStream)) { } public Asn1StreamParser( Stream inStream, int limit) { if (!inStream.CanRead) throw new ArgumentException("Expected stream to be readable", "inStream"); this._in = inStream; this._limit = limit; this.tmpBuffers = new byte[16][]; } public Asn1StreamParser( byte[] encoding) : this(new MemoryStream(encoding, false), encoding.Length) { } internal IAsn1Convertible ReadIndef(int tagValue) { // Note: INDEF => CONSTRUCTED // TODO There are other tags that may be constructed (e.g. BIT_STRING) switch (tagValue) { case Asn1Tags.External: return new DerExternalParser(this); case Asn1Tags.OctetString: return new BerOctetStringParser(this); case Asn1Tags.Sequence: return new BerSequenceParser(this); case Asn1Tags.Set: return new BerSetParser(this); default: throw new Asn1Exception("unknown BER object encountered: 0x" + tagValue.ToString("X")); } } internal IAsn1Convertible ReadImplicit(bool constructed, int tag) { if (_in is IndefiniteLengthInputStream) { if (!constructed) throw new IOException("indefinite length primitive encoding encountered"); return ReadIndef(tag); } if (constructed) { switch (tag) { case Asn1Tags.Set: return new DerSetParser(this); case Asn1Tags.Sequence: return new DerSequenceParser(this); case Asn1Tags.OctetString: return new BerOctetStringParser(this); } } else { switch (tag) { case Asn1Tags.Set: throw new Asn1Exception("sequences must use constructed encoding (see X.690 8.9.1/8.10.1)"); case Asn1Tags.Sequence: throw new Asn1Exception("sets must use constructed encoding (see X.690 8.11.1/8.12.1)"); case Asn1Tags.OctetString: return new DerOctetStringParser((DefiniteLengthInputStream)_in); } } throw new Asn1Exception("implicit tagging not implemented"); } internal Asn1Object ReadTaggedObject(bool constructed, int tag) { if (!constructed) { // Note: !CONSTRUCTED => IMPLICIT DefiniteLengthInputStream defIn = (DefiniteLengthInputStream)_in; return new DerTaggedObject(false, tag, new DerOctetString(defIn.ToArray())); } Asn1EncodableVector v = ReadVector(); if (_in is IndefiniteLengthInputStream) { return v.Count == 1 ? new BerTaggedObject(true, tag, v[0]) : new BerTaggedObject(false, tag, BerSequence.FromVector(v)); } return v.Count == 1 ? new DerTaggedObject(true, tag, v[0]) : new DerTaggedObject(false, tag, DerSequence.FromVector(v)); } public virtual IAsn1Convertible ReadObject() { int tag = _in.ReadByte(); if (tag == -1) return null; // turn of looking for "00" while we resolve the tag Set00Check(false); // // calculate tag number // int tagNo = Asn1InputStream.ReadTagNumber(_in, tag); bool isConstructed = (tag & Asn1Tags.Constructed) != 0; // // calculate length // int length = Asn1InputStream.ReadLength(_in, _limit); if (length < 0) // indefinite length method { if (!isConstructed) throw new IOException("indefinite length primitive encoding encountered"); IndefiniteLengthInputStream indIn = new IndefiniteLengthInputStream(_in, _limit); Asn1StreamParser sp = new Asn1StreamParser(indIn, _limit); if ((tag & Asn1Tags.Application) != 0) { return new BerApplicationSpecificParser(tagNo, sp); } if ((tag & Asn1Tags.Tagged) != 0) { return new BerTaggedObjectParser(true, tagNo, sp); } return sp.ReadIndef(tagNo); } else { DefiniteLengthInputStream defIn = new DefiniteLengthInputStream(_in, length); if ((tag & Asn1Tags.Application) != 0) { return new DerApplicationSpecific(isConstructed, tagNo, defIn.ToArray()); } if ((tag & Asn1Tags.Tagged) != 0) { return new BerTaggedObjectParser(isConstructed, tagNo, new Asn1StreamParser(defIn)); } if (isConstructed) { // TODO There are other tags that may be constructed (e.g. BitString) switch (tagNo) { case Asn1Tags.OctetString: // // yes, people actually do this... // return new BerOctetStringParser(new Asn1StreamParser(defIn)); case Asn1Tags.Sequence: return new DerSequenceParser(new Asn1StreamParser(defIn)); case Asn1Tags.Set: return new DerSetParser(new Asn1StreamParser(defIn)); case Asn1Tags.External: return new DerExternalParser(new Asn1StreamParser(defIn)); default: throw new IOException("unknown tag " + tagNo + " encountered"); } } // Some primitive encodings can be handled by parsers too... switch (tagNo) { case Asn1Tags.OctetString: return new DerOctetStringParser(defIn); } try { return Asn1InputStream.CreatePrimitiveDerObject(tagNo, defIn, tmpBuffers); } catch (ArgumentException e) { throw new Asn1Exception("corrupted stream detected", e); } } } private void Set00Check( bool enabled) { if (_in is IndefiniteLengthInputStream) { ((IndefiniteLengthInputStream) _in).SetEofOn00(enabled); } } internal Asn1EncodableVector ReadVector() { Asn1EncodableVector v = new Asn1EncodableVector(); IAsn1Convertible obj; while ((obj = ReadObject()) != null) { v.Add(obj.ToAsn1Object()); } return v; } } } #endif