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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.4.

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package org.bouncycastle.asn1;

import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.util.Enumeration;
import java.util.Vector;

/**
 * ASN.1 OctetStrings, with indefinite length rules, and constructed form support.
 * 

* The Basic Encoding Rules (BER) format allows encoding using so called "constructed form", * which DER and CER formats forbid allowing only "primitive form". *

* This class always produces the constructed form with underlying segments * in an indefinite length array. If the input wasn't the same, then this output * is not faithful reproduction. *

*

* See {@link ASN1OctetString} for X.690 encoding rules of OCTET-STRING objects. *

*/ public class BEROctetString extends ASN1OctetString { private static final int MAX_LENGTH = 1000; private ASN1OctetString[] octs; /** * Convert a vector of octet strings into a single byte string */ static private byte[] toBytes( ASN1OctetString[] octs) { ByteArrayOutputStream bOut = new ByteArrayOutputStream(); for (int i = 0; i != octs.length; i++) { try { DEROctetString o = (DEROctetString)octs[i]; bOut.write(o.getOctets()); } catch (ClassCastException e) { throw new IllegalArgumentException(octs[i].getClass().getName() + " found in input should only contain DEROctetString"); } catch (IOException e) { throw new IllegalArgumentException("exception converting octets " + e.toString()); } } return bOut.toByteArray(); } /** * Create an OCTET-STRING object from a byte[] * @param string the octets making up the octet string. */ public BEROctetString( byte[] string) { super(string); } /** * Multiple {@link ASN1OctetString} data blocks are input, * the result is constructed form. * * @param octs an array of OCTET STRING to construct the BER OCTET STRING from. */ public BEROctetString( ASN1OctetString[] octs) { super(toBytes(octs)); this.octs = octs; } /** * Return a concatenated byte array of all the octets making up the constructed OCTET STRING * @return the full OCTET STRING. */ public byte[] getOctets() { return string; } /** * Return the OCTET STRINGs that make up this string. * * @return an Enumeration of the component OCTET STRINGs. */ public Enumeration getObjects() { if (octs == null) { return generateOcts().elements(); } return new Enumeration() { int counter = 0; public boolean hasMoreElements() { return counter < octs.length; } public Object nextElement() { return octs[counter++]; } }; } private Vector generateOcts() { Vector vec = new Vector(); for (int i = 0; i < string.length; i += MAX_LENGTH) { int end; if (i + MAX_LENGTH > string.length) { end = string.length; } else { end = i + MAX_LENGTH; } byte[] nStr = new byte[end - i]; System.arraycopy(string, i, nStr, 0, nStr.length); vec.addElement(new DEROctetString(nStr)); } return vec; } boolean isConstructed() { return true; } int encodedLength() throws IOException { int length = 0; for (Enumeration e = getObjects(); e.hasMoreElements();) { length += ((ASN1Encodable)e.nextElement()).toASN1Primitive().encodedLength(); } return 2 + length + 2; } public void encode( ASN1OutputStream out) throws IOException { out.write(BERTags.CONSTRUCTED | BERTags.OCTET_STRING); out.write(0x80); // // write out the octet array // for (Enumeration e = getObjects(); e.hasMoreElements();) { out.writeObject((ASN1Encodable)e.nextElement()); } out.write(0x00); out.write(0x00); } static BEROctetString fromSequence(ASN1Sequence seq) { ASN1OctetString[] v = new ASN1OctetString[seq.size()]; Enumeration e = seq.getObjects(); int index = 0; while (e.hasMoreElements()) { v[index++] = (ASN1OctetString)e.nextElement(); } return new BEROctetString(v); } }




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