using System; using System.IO; using System.Text; using Org.BouncyCastle.Utilities.Encoders; namespace Org.BouncyCastle.Asn1.Utilities { public static class Asn1Dump { private const string Tab = " "; private const int SampleSize = 32; /** * dump a Der object as a formatted string with indentation * * @param obj the Asn1Object to be dumped out. */ private static void AsString(string indent, bool verbose, Asn1Object obj, StringBuilder buf) { if (obj is Asn1Null) { buf.Append(indent); buf.AppendLine("NULL"); } else if (obj is Asn1Sequence asn1Sequence) { buf.Append(indent); if (asn1Sequence is BerSequence) { buf.AppendLine("BER Sequence"); } else if (!(asn1Sequence is DLSequence)) { buf.AppendLine("DER Sequence"); } else { buf.AppendLine("Sequence"); } string elementsIndent = indent + Tab; for (int i = 0, count = asn1Sequence.Count; i < count; ++i) { AsString(elementsIndent, verbose, asn1Sequence[i].ToAsn1Object(), buf); } } else if (obj is Asn1Set asn1Set) { buf.Append(indent); if (asn1Set is BerSet) { buf.AppendLine("BER Set"); } else if (!(asn1Set is DLSet)) { buf.AppendLine("DER Set"); } else { buf.AppendLine("Set"); } string elementsIndent = indent + Tab; for (int i = 0, count = asn1Set.Count; i < count; ++i) { AsString(elementsIndent, verbose, asn1Set[i].ToAsn1Object(), buf); } } else if (obj is Asn1TaggedObject taggedObject) { buf.Append(indent); if (taggedObject is BerTaggedObject) { buf.Append("BER Tagged "); } else if (!(taggedObject is DLTaggedObject)) { buf.Append("DER Tagged "); } else { buf.Append("Tagged "); } buf.Append(Asn1Utilities.GetTagText(taggedObject)); if (!taggedObject.IsExplicit()) { buf.Append(" IMPLICIT "); } buf.AppendLine(); string baseIndent = indent + Tab; AsString(baseIndent, verbose, taggedObject.GetBaseObject().ToAsn1Object(), buf); } else if (obj is DerObjectIdentifier oid) { buf.Append(indent); buf.AppendLine("ObjectIdentifier(" + oid.Id + ")"); } else if (obj is Asn1RelativeOid relativeOid) { buf.Append(indent); buf.AppendLine("RelativeOID(" + relativeOid.Id + ")"); } else if (obj is DerBoolean derBoolean) { buf.Append(indent); buf.AppendLine("Boolean(" + derBoolean.IsTrue + ")"); } else if (obj is DerInteger derInteger) { buf.Append(indent); buf.AppendLine("Integer(" + derInteger.Value + ")"); } else if (obj is Asn1OctetString oct) { byte[] octets = oct.GetOctets(); buf.Append(indent); if (obj is BerOctetString) { buf.AppendLine("BER Octet String[" + octets.Length + "]"); } else { buf.AppendLine("DER Octet String[" + octets.Length + "]"); } if (verbose) { DumpBinaryDataAsString(buf, indent, octets); } } else if (obj is DerBitString bitString) { byte[] bytes = bitString.GetBytes(); int padBits = bitString.PadBits; buf.Append(indent); if (bitString is BerBitString) { buf.AppendLine("BER Bit String[" + bytes.Length + ", " + padBits + "]"); } else if (bitString is DLBitString) { buf.AppendLine("DL Bit String[" + bytes.Length + ", " + padBits + "]"); } else { buf.AppendLine("DER Bit String[" + bytes.Length + ", " + padBits + "]"); } if (verbose) { DumpBinaryDataAsString(buf, indent, bytes); } } else if (obj is DerIA5String ia5String) { buf.Append(indent); buf.AppendLine("IA5String(" + ia5String.GetString() + ")"); } else if (obj is DerUtf8String utf8String) { buf.Append(indent); buf.AppendLine("UTF8String(" + utf8String.GetString() + ")"); } else if (obj is DerPrintableString printableString) { buf.Append(indent); buf.AppendLine("PrintableString(" + printableString.GetString() + ")"); } else if (obj is DerVisibleString visibleString) { buf.Append(indent); buf.AppendLine("VisibleString(" + visibleString.GetString() + ")"); } else if (obj is DerBmpString bmpString) { buf.Append(indent); buf.AppendLine("BMPString(" + bmpString.GetString() + ")"); } else if (obj is DerT61String t61String) { buf.Append(indent); buf.AppendLine("T61String(" + t61String.GetString() + ")"); } else if (obj is DerGraphicString graphicString) { buf.Append(indent); buf.AppendLine("GraphicString(" + graphicString.GetString() + ")"); } else if (obj is DerVideotexString videotexString) { buf.Append(indent); buf.AppendLine("VideotexString(" + videotexString.GetString() + ")"); } else if (obj is Asn1UtcTime utcTime) { buf.Append(indent); buf.AppendLine("UTCTime(" + utcTime.TimeString + ")"); } else if (obj is Asn1GeneralizedTime generalizedTime) { buf.Append(indent); buf.AppendLine("GeneralizedTime(" + generalizedTime.TimeString + ")"); } else if (obj is DerEnumerated en) { buf.Append(indent); buf.AppendLine("DER Enumerated(" + en.Value + ")"); } else if (obj is DerExternal ext) { buf.Append(indent); buf.AppendLine("External "); string tab = indent + Tab; if (ext.DirectReference != null) { buf.Append(tab); buf.AppendLine("Direct Reference: " + ext.DirectReference.Id); } if (ext.IndirectReference != null) { buf.Append(tab); buf.AppendLine("Indirect Reference: " + ext.IndirectReference.ToString()); } if (ext.DataValueDescriptor != null) { AsString(tab, verbose, ext.DataValueDescriptor, buf); } buf.Append(tab); buf.AppendLine("Encoding: " + ext.Encoding); AsString(tab, verbose, ext.ExternalContent, buf); } else { buf.Append(indent); buf.Append(obj); buf.AppendLine(); } } /// Parse ASN.1 objects from input , and write them to the output. public static void Dump(Stream input, TextWriter output) { Asn1InputStream asn1InputStream = new Asn1InputStream(input); Asn1Object asn1Object; while ((asn1Object = asn1InputStream.ReadObject()) != null) { output.Write(DumpAsString(asn1Object)); } } /** * dump out a DER object as a formatted string, in non-verbose mode * * @param obj the Asn1Encodable to be dumped out. * @return the resulting string. */ public static string DumpAsString(Asn1Encodable obj) { return DumpAsString(obj, false); } /** * Dump out the object as a string * * @param obj the Asn1Encodable to be dumped out. * @param verbose if true, dump out the contents of octet and bit strings. * @return the resulting string. */ public static string DumpAsString(Asn1Encodable obj, bool verbose) { StringBuilder buf = new StringBuilder(); AsString("", verbose, obj.ToAsn1Object(), buf); return buf.ToString(); } private static void DumpBinaryDataAsString(StringBuilder buf, string indent, byte[] bytes) { if (bytes.Length < 1) return; indent += Tab; for (int i = 0; i < bytes.Length; i += SampleSize) { int remaining = bytes.Length - i; int chunk = System.Math.Min(remaining, SampleSize); buf.Append(indent); buf.Append(Hex.ToHexString(bytes, i, chunk)); for (int j = chunk; j < SampleSize; ++j) { buf.Append(" "); } buf.Append(Tab); AppendAscString(buf, bytes, i, chunk); buf.AppendLine(); } } private static void AppendAscString(StringBuilder buf, byte[] bytes, int off, int len) { for (int i = off; i != off + len; i++) { char c = (char)bytes[i]; if (c >= ' ' && c <= '~') { buf.Append(c); } } } } }