using System; using System.IO; namespace Org.BouncyCastle.Asn1 { public class Asn1OutputStream : DerOutputStream { public static Asn1OutputStream Create(Stream output) { return new Asn1OutputStream(output); } public static Asn1OutputStream Create(Stream output, string encoding) { if (Asn1Encodable.Der.Equals(encoding)) { return new DerOutputStreamNew(output); } else { return new Asn1OutputStream(output); } } [Obsolete("Use static Create method(s)")] public Asn1OutputStream(Stream os) : base(os) { } public override void WriteObject(Asn1Encodable encodable) { if (null == encodable) throw new IOException("null object detected"); WritePrimitive(encodable.ToAsn1Object(), true); FlushInternal(); } public override void WriteObject(Asn1Object primitive) { if (null == primitive) throw new IOException("null object detected"); WritePrimitive(primitive, true); FlushInternal(); } internal void FlushInternal() { // Placeholder to support future internal buffering } internal virtual bool IsBer { get { return true; } } internal void WriteDL(int length) { if (length < 128) { WriteByte((byte)length); } else { byte[] stack = new byte[5]; int pos = stack.Length; do { stack[--pos] = (byte)length; length >>= 8; } while (length > 0); int count = stack.Length - pos; stack[--pos] = (byte)(0x80 | count); Write(stack, pos, count + 1); } } internal virtual void WriteElements(Asn1Encodable[] elements) { for (int i = 0, count = elements.Length; i < count; ++i) { elements[i].ToAsn1Object().Encode(this, true); } } internal void WriteEncodingDL(bool withID, int identifier, byte contents) { WriteIdentifier(withID, identifier); WriteDL(1); WriteByte(contents); } internal void WriteEncodingDL(bool withID, int identifier, byte[] contents) { WriteIdentifier(withID, identifier); WriteDL(contents.Length); Write(contents, 0, contents.Length); } internal void WriteEncodingDL(bool withID, int identifier, byte[] contents, int contentsOff, int contentsLen) { WriteIdentifier(withID, identifier); WriteDL(contentsLen); Write(contents, contentsOff, contentsLen); } internal void WriteEncodingDL(bool withID, int identifier, byte contentsPrefix, byte[] contents, int contentsOff, int contentsLen) { WriteIdentifier(withID, identifier); WriteDL(1 + contentsLen); WriteByte(contentsPrefix); Write(contents, contentsOff, contentsLen); } internal void WriteEncodingDL(bool withID, int identifier, byte[] contents, int contentsOff, int contentsLen, byte contentsSuffix) { WriteIdentifier(withID, identifier); WriteDL(contentsLen + 1); Write(contents, contentsOff, contentsLen); WriteByte(contentsSuffix); } internal void WriteEncodingDL(bool withID, int flags, int tag, byte[] contents) { WriteIdentifier(withID, flags, tag); WriteDL(contents.Length); Write(contents, 0, contents.Length); } internal void WriteEncodingIL(bool withID, int identifier, Asn1Encodable[] elements) { WriteIdentifier(withID, identifier); WriteByte(0x80); WriteElements(elements); WriteByte(0x00); WriteByte(0x00); } internal void WriteIdentifier(bool withID, int identifier) { if (withID) { WriteByte((byte)identifier); } } internal void WriteIdentifier(bool withID, int flags, int tag) { if (!withID) { // Don't write the identifier } else if (tag < 31) { WriteByte((byte)(flags | tag)); } else { byte[] stack = new byte[6]; int pos = stack.Length; stack[--pos] = (byte)(tag & 0x7F); while (tag > 127) { tag >>= 7; stack[--pos] = (byte)(tag & 0x7F | 0x80); } stack[--pos] = (byte)(flags | 0x1F); Write(stack, pos, stack.Length - pos); } } internal virtual void WritePrimitive(Asn1Object primitive, bool withID) { primitive.Encode(this, withID); } internal virtual void WritePrimitives(Asn1Object[] primitives) { for (int i = 0, count = primitives.Length; i < count; ++i) { WritePrimitive(primitives[i], true); } } } }