org.bouncycastle.asn1.BEROctetStringGenerator Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of bcprov-jdk15to18 Show documentation
Show all versions of bcprov-jdk15to18 Show documentation
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 1.5 to JDK 1.8.
package org.bouncycastle.asn1;
import java.io.IOException;
import java.io.OutputStream;
/**
* A generator for indefinite-length OCTET STRINGs
*/
public class BEROctetStringGenerator
extends BERGenerator
{
/**
* Use the passed in stream as the target for the generator, writing out the header tag
* for a constructed OCTET STRING.
*
* @param out target stream
* @throws IOException if the target stream cannot be written to.
*/
public BEROctetStringGenerator(OutputStream out)
throws IOException
{
super(out);
writeBERHeader(BERTags.CONSTRUCTED | BERTags.OCTET_STRING);
}
/**
* Use the passed in stream as the target for the generator, writing out the header tag
* for a tagged constructed OCTET STRING (possibly implicit).
*
* @param out target stream
* @param tagNo the tag number to introduce
* @param isExplicit true if this is an explicitly tagged object, false otherwise.
* @throws IOException if the target stream cannot be written to.
*/
public BEROctetStringGenerator(
OutputStream out,
int tagNo,
boolean isExplicit)
throws IOException
{
super(out, tagNo, isExplicit);
writeBERHeader(BERTags.CONSTRUCTED | BERTags.OCTET_STRING);
}
/**
* Return a stream representing the content target for this OCTET STRING
*
* @return an OutputStream which chunks data in blocks of 1000 (CER limit).
*/
public OutputStream getOctetOutputStream()
{
return getOctetOutputStream(new byte[1000]); // limit for CER encoding.
}
/**
* Return a stream representing the content target for this OCTET STRING
*
* @param buf the buffer to use for chunking the data.
* @return an OutputStream which chunks data in blocks of buf length.
*/
public OutputStream getOctetOutputStream(
byte[] buf)
{
return new BufferedBEROctetStream(buf);
}
private class BufferedBEROctetStream
extends OutputStream
{
private byte[] _buf;
private int _off;
private DEROutputStream _derOut;
BufferedBEROctetStream(
byte[] buf)
{
_buf = buf;
_off = 0;
_derOut = new DEROutputStream(_out);
}
public void write(
int b)
throws IOException
{
_buf[_off++] = (byte)b;
if (_off == _buf.length)
{
DEROctetString.encode(_derOut, true, _buf, 0, _buf.length);
_off = 0;
}
}
public void write(byte[] b, int off, int len) throws IOException
{
int bufLen = _buf.length;
int available = bufLen - _off;
if (len < available)
{
System.arraycopy(b, off, _buf, _off, len);
_off += len;
return;
}
int count = 0;
if (_off > 0)
{
System.arraycopy(b, off, _buf, _off, available);
count += available;
DEROctetString.encode(_derOut, true, _buf, 0, bufLen);
}
int remaining;
while ((remaining = (len - count)) >= bufLen)
{
DEROctetString.encode(_derOut, true, b, off + count, bufLen);
count += bufLen;
}
System.arraycopy(b, off + count, _buf, 0, remaining);
this._off = remaining;
}
public void close()
throws IOException
{
if (_off != 0)
{
DEROctetString.encode(_derOut, true, _buf, 0, _off);
}
_derOut.flushInternal();
writeBEREnd();
}
}
}