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The Long Term Stable (LTS) Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains the JCA/JCE provider and low-level API for the BC LTS version 2.73.7 for Java 8 and later.
package org.bouncycastle.asn1;
import java.io.IOException;
public class BERBitString
extends ASN1BitString
{
private static final int DEFAULT_SEGMENT_LIMIT = 1000;
private final int segmentLimit;
private final ASN1BitString[] elements;
/**
* Convert a vector of bit strings into a single bit string
*/
static byte[] flattenBitStrings(ASN1BitString[] bitStrings)
{
int count = bitStrings.length;
switch (count)
{
case 0:
// No bits
return new byte[]{ 0 };
case 1:
return bitStrings[0].contents;
default:
{
int last = count - 1, totalLength = 0;
for (int i = 0; i < last; ++i)
{
byte[] elementContents = bitStrings[i].contents;
if (elementContents[0] != 0)
{
throw new IllegalArgumentException("only the last nested bitstring can have padding");
}
totalLength += elementContents.length - 1;
}
// Last one can have padding
byte[] lastElementContents = bitStrings[last].contents;
byte padBits = lastElementContents[0];
totalLength += lastElementContents.length;
byte[] contents = new byte[totalLength];
contents[0] = padBits;
int pos = 1;
for (int i = 0; i < count; ++i)
{
byte[] elementContents = bitStrings[i].contents;
int length = elementContents.length - 1;
System.arraycopy(elementContents, 1, contents, pos, length);
pos += length;
}
// assert pos == totalLength;
return contents;
}
}
}
public BERBitString(byte[] data)
{
this(data, 0);
}
public BERBitString(byte data, int padBits)
{
super(data, padBits);
this.elements = null;
this.segmentLimit = DEFAULT_SEGMENT_LIMIT;
}
public BERBitString(byte[] data, int padBits)
{
this(data, padBits, DEFAULT_SEGMENT_LIMIT);
}
public BERBitString(byte[] data, int padBits, int segmentLimit)
{
super(data, padBits);
this.elements = null;
this.segmentLimit = segmentLimit;
}
public BERBitString(ASN1Encodable obj) throws IOException
{
this(obj.toASN1Primitive().getEncoded(ASN1Encoding.DER), 0);
}
public BERBitString(ASN1BitString[] elements)
{
this(elements, DEFAULT_SEGMENT_LIMIT);
}
public BERBitString(ASN1BitString[] elements, int segmentLimit)
{
super(flattenBitStrings(elements), false);
this.elements = elements;
this.segmentLimit = segmentLimit;
}
BERBitString(byte[] contents, boolean check)
{
super(contents, check);
this.elements = null;
this.segmentLimit = DEFAULT_SEGMENT_LIMIT;
}
boolean encodeConstructed()
{
return null != elements || contents.length > segmentLimit;
}
int encodedLength(boolean withTag)
throws IOException
{
if (!encodeConstructed())
{
return DLBitString.encodedLength(withTag, contents.length);
}
int totalLength = withTag ? 4 : 3;
if (null != elements)
{
for (int i = 0; i < elements.length; ++i)
{
totalLength += elements[i].encodedLength(true);
}
}
else if (contents.length < 2)
{
// No bits
}
else
{
int extraSegments = (contents.length - 2) / (segmentLimit - 1);
totalLength += extraSegments * DLBitString.encodedLength(true, segmentLimit);
int lastSegmentLength = contents.length - (extraSegments * (segmentLimit - 1));
totalLength += DLBitString.encodedLength(true, lastSegmentLength);
}
return totalLength;
}
void encode(ASN1OutputStream out, boolean withTag) throws IOException
{
if (!encodeConstructed())
{
DLBitString.encode(out, withTag, contents, 0, contents.length);
return;
}
out.writeIdentifier(withTag, BERTags.CONSTRUCTED | BERTags.BIT_STRING);
out.write(0x80);
if (null != elements)
{
out.writePrimitives(elements);
}
else if (contents.length < 2)
{
// No bits
}
else
{
byte pad = contents[0];
int length = contents.length;
int remaining = length - 1;
int segmentLength = segmentLimit - 1;
while (remaining > segmentLength)
{
DLBitString.encode(out, true, (byte)0, contents, length - remaining, segmentLength);
remaining -= segmentLength;
}
DLBitString.encode(out, true, pad, contents, length - remaining, remaining);
}
out.write(0x00);
out.write(0x00);
}
}
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