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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 1.5 to JDK 1.8.
package org.bouncycastle.asn1;
import java.io.IOException;
import java.io.OutputStream;
import java.util.Enumeration;
/**
* Stream that produces output based on the default encoding for the passed in objects.
*/
public class ASN1OutputStream
{
public static ASN1OutputStream create(OutputStream out)
{
return new ASN1OutputStream(out);
}
public static ASN1OutputStream create(OutputStream out, String encoding)
{
if (encoding.equals(ASN1Encoding.DER))
{
return new DEROutputStream(out);
}
else if (encoding.equals(ASN1Encoding.DL))
{
return new DLOutputStream(out);
}
else
{
return new ASN1OutputStream(out);
}
}
private OutputStream os;
/**
* @deprecated Use {@link ASN1OutputStream#create(OutputStream)} instead.
*/
public ASN1OutputStream(OutputStream os)
{
this.os = os;
}
final void writeLength(
int length)
throws IOException
{
if (length > 127)
{
int size = 1;
int val = length;
while ((val >>>= 8) != 0)
{
size++;
}
write((byte)(size | 0x80));
for (int i = (size - 1) * 8; i >= 0; i -= 8)
{
write((byte)(length >> i));
}
}
else
{
write((byte)length);
}
}
final void write(int b)
throws IOException
{
os.write(b);
}
final void write(byte[] bytes, int off, int len)
throws IOException
{
os.write(bytes, off, len);
}
final void writeElements(ASN1Encodable[] elements)
throws IOException
{
int count = elements.length;
for (int i = 0; i < count; ++i)
{
ASN1Primitive primitive = elements[i].toASN1Primitive();
writePrimitive(primitive, true);
}
}
final void writeElements(Enumeration elements)
throws IOException
{
while (elements.hasMoreElements())
{
ASN1Primitive primitive = ((ASN1Encodable)elements.nextElement()).toASN1Primitive();
writePrimitive(primitive, true);
}
}
final void writeEncoded(
boolean withTag,
int tag,
byte contents)
throws IOException
{
if (withTag)
{
write(tag);
}
writeLength(1);
write(contents);
}
final void writeEncoded(
boolean withTag,
int tag,
byte[] contents)
throws IOException
{
if (withTag)
{
write(tag);
}
writeLength(contents.length);
write(contents, 0, contents.length);
}
final void writeEncoded(
boolean withTag,
int tag,
byte[] contents,
int contentsOff,
int contentsLen)
throws IOException
{
if (withTag)
{
write(tag);
}
writeLength(contentsLen);
write(contents, contentsOff, contentsLen);
}
final void writeEncoded(
boolean withTag,
int tag,
byte headByte,
byte[] tailBytes)
throws IOException
{
if (withTag)
{
write(tag);
}
writeLength(1 + tailBytes.length);
write(headByte);
write(tailBytes, 0, tailBytes.length);
}
final void writeEncoded(
boolean withTag,
int tag,
byte headByte,
byte[] body,
int bodyOff,
int bodyLen,
byte tailByte)
throws IOException
{
if (withTag)
{
write(tag);
}
writeLength(2 + bodyLen);
write(headByte);
write(body, bodyOff, bodyLen);
write(tailByte);
}
final void writeEncoded(boolean withTag, int flags, int tagNo, byte[] contents)
throws IOException
{
writeTag(withTag, flags, tagNo);
writeLength(contents.length);
write(contents, 0, contents.length);
}
final void writeEncodedIndef(boolean withTag, int flags, int tagNo, byte[] contents)
throws IOException
{
writeTag(withTag, flags, tagNo);
write(0x80);
write(contents, 0, contents.length);
write(0x00);
write(0x00);
}
final void writeEncodedIndef(boolean withTag, int tag, ASN1Encodable[] elements)
throws IOException
{
if (withTag)
{
write(tag);
}
write(0x80);
writeElements(elements);
write(0x00);
write(0x00);
}
final void writeEncodedIndef(boolean withTag, int tag, Enumeration elements)
throws IOException
{
if (withTag)
{
write(tag);
}
write(0x80);
writeElements(elements);
write(0x00);
write(0x00);
}
final void writeTag(boolean withTag, int flags, int tagNo)
throws IOException
{
if (!withTag)
{
return;
}
if (tagNo < 31)
{
write(flags | tagNo);
}
else
{
write(flags | 0x1f);
if (tagNo < 128)
{
write(tagNo);
}
else
{
byte[] stack = new byte[5];
int pos = stack.length;
stack[--pos] = (byte)(tagNo & 0x7F);
do
{
tagNo >>= 7;
stack[--pos] = (byte)(tagNo & 0x7F | 0x80);
}
while (tagNo > 127);
write(stack, pos, stack.length - pos);
}
}
}
/**
* @deprecated Will be removed.
*/
protected void writeNull()
throws IOException
{
write(BERTags.NULL);
write(0x00);
}
public void writeObject(ASN1Encodable obj) throws IOException
{
if (null == obj)
{
throw new IOException("null object detected");
}
writePrimitive(obj.toASN1Primitive(), true);
flushInternal();
}
public void writeObject(ASN1Primitive primitive) throws IOException
{
if (null == primitive)
{
throw new IOException("null object detected");
}
writePrimitive(primitive, true);
flushInternal();
}
void writePrimitive(ASN1Primitive primitive, boolean withTag) throws IOException
{
primitive.encode(this, withTag);
}
public void close()
throws IOException
{
os.close();
}
public void flush()
throws IOException
{
os.flush();
}
void flushInternal()
throws IOException
{
// Placeholder to support future internal buffering
}
DEROutputStream getDERSubStream()
{
return new DEROutputStream(os);
}
ASN1OutputStream getDLSubStream()
{
return new DLOutputStream(os);
}
}
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