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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.ByteArrayInputStream;
import java.io.EOFException;
import java.io.FilterInputStream;
import java.io.IOException;
import java.io.InputStream;
import org.bouncycastle.util.io.Streams;
/**
* A general purpose ASN.1 decoder - note: this class differs from the
* others in that it returns null after it has read the last object in
* the stream. If an ASN.1 NULL is encountered a DER/BER Null object is
* returned.
*/
public class ASN1InputStream
extends FilterInputStream
implements BERTags
{
private final int limit;
private final boolean lazyEvaluate;
private final byte[][] tmpBuffers;
public ASN1InputStream(InputStream is)
{
this(is, StreamUtil.findLimit(is));
}
/**
* Create an ASN1InputStream based on the input byte array. The length of DER objects in
* the stream is automatically limited to the length of the input array.
*
* @param input array containing ASN.1 encoded data.
*/
public ASN1InputStream(byte[] input)
{
this(new ByteArrayInputStream(input), input.length);
}
/**
* Create an ASN1InputStream based on the input byte array. The length of DER objects in
* the stream is automatically limited to the length of the input array.
*
* @param input array containing ASN.1 encoded data.
* @param lazyEvaluate true if parsing inside constructed objects can be delayed.
*/
public ASN1InputStream(byte[] input, boolean lazyEvaluate)
{
this(new ByteArrayInputStream(input), input.length, lazyEvaluate);
}
/**
* Create an ASN1InputStream where no DER object will be longer than limit.
*
* @param input stream containing ASN.1 encoded data.
* @param limit maximum size of a DER encoded object.
*/
public ASN1InputStream(InputStream input, int limit)
{
this(input, limit, false);
}
/**
* Create an ASN1InputStream where no DER object will be longer than limit, and constructed
* objects such as sequences will be parsed lazily.
*
* @param input stream containing ASN.1 encoded data.
* @param lazyEvaluate true if parsing inside constructed objects can be delayed.
*/
public ASN1InputStream(InputStream input, boolean lazyEvaluate)
{
this(input, StreamUtil.findLimit(input), lazyEvaluate);
}
/**
* Create an ASN1InputStream where no DER object will be longer than limit, and constructed
* objects such as sequences will be parsed lazily.
*
* @param input stream containing ASN.1 encoded data.
* @param limit maximum size of a DER encoded object.
* @param lazyEvaluate true if parsing inside constructed objects can be delayed.
*/
public ASN1InputStream(InputStream input, int limit, boolean lazyEvaluate)
{
this(input, limit, lazyEvaluate, new byte[11][]);
}
private ASN1InputStream(InputStream input, int limit, boolean lazyEvaluate, byte[][] tmpBuffers)
{
super(input);
this.limit = limit;
this.lazyEvaluate = lazyEvaluate;
this.tmpBuffers = tmpBuffers;
}
int getLimit()
{
return limit;
}
protected int readLength()
throws IOException
{
return readLength(this, limit, false);
}
protected void readFully(
byte[] bytes)
throws IOException
{
if (Streams.readFully(this, bytes, 0, bytes.length) != bytes.length)
{
throw new EOFException("EOF encountered in middle of object");
}
}
/**
* build an object given its tag and the number of bytes to construct it from.
*
* @param tag the full tag details.
* @param tagNo the tagNo defined.
* @param length the length of the object.
* @return the resulting primitive.
* @throws java.io.IOException on processing exception.
*/
protected ASN1Primitive buildObject(
int tag,
int tagNo,
int length)
throws IOException
{
// TODO[asn1] Special-case zero length first?
DefiniteLengthInputStream defIn = new DefiniteLengthInputStream(this, length, limit);
if (0 == (tag & FLAGS))
{
return createPrimitiveDERObject(tagNo, defIn, tmpBuffers);
}
int tagClass = tag & PRIVATE;
if (0 != tagClass)
{
boolean isConstructed = (tag & CONSTRUCTED) != 0;
return readTaggedObjectDL(tagClass, tagNo, isConstructed, defIn);
}
switch (tagNo)
{
case BIT_STRING:
{
return buildConstructedBitString(readVector(defIn));
}
case OCTET_STRING:
{
//
// yes, people actually do this...
//
return buildConstructedOctetString(readVector(defIn));
}
case SEQUENCE:
{
if (defIn.getRemaining() < 1)
{
return DLFactory.EMPTY_SEQUENCE;
}
else if (lazyEvaluate)
{
return new LazyEncodedSequence(defIn.toByteArray());
}
else
{
return DLFactory.createSequence(readVector(defIn));
}
}
case SET:
return DLFactory.createSet(readVector(defIn));
case EXTERNAL:
return DLFactory.createSequence(readVector(defIn)).toASN1External();
default:
throw new IOException("unknown tag " + tagNo + " encountered");
}
}
public ASN1Primitive readObject()
throws IOException
{
int tag = read();
if (tag <= 0)
{
if (tag == 0)
{
throw new IOException("unexpected end-of-contents marker");
}
return null;
}
int tagNo = readTagNumber(this, tag);
int length = readLength();
if (length >= 0)
{
// definite-length
try
{
return buildObject(tag, tagNo, length);
}
catch (IllegalArgumentException e)
{
throw new ASN1Exception("corrupted stream detected", e);
}
}
// indefinite-length
if (0 == (tag & CONSTRUCTED))
{
throw new IOException("indefinite-length primitive encoding encountered");
}
IndefiniteLengthInputStream indIn = new IndefiniteLengthInputStream(this, limit);
ASN1StreamParser sp = new ASN1StreamParser(indIn, limit, tmpBuffers);
int tagClass = tag & PRIVATE;
if (0 != tagClass)
{
return sp.loadTaggedIL(tagClass, tagNo);
}
switch (tagNo)
{
case BIT_STRING:
return BERBitStringParser.parse(sp);
case OCTET_STRING:
return BEROctetStringParser.parse(sp);
case EXTERNAL:
// TODO[asn1] BERExternalParser
return DERExternalParser.parse(sp);
case SEQUENCE:
return BERSequenceParser.parse(sp);
case SET:
return BERSetParser.parse(sp);
default:
throw new IOException("unknown BER object encountered");
}
}
ASN1BitString buildConstructedBitString(ASN1EncodableVector contentsElements) throws IOException
{
ASN1BitString[] strings = new ASN1BitString[contentsElements.size()];
for (int i = 0; i != strings.length; i++)
{
ASN1Encodable asn1Obj = contentsElements.get(i);
if (asn1Obj instanceof ASN1BitString)
{
strings[i] = (ASN1BitString)asn1Obj;
}
else
{
throw new ASN1Exception(
"unknown object encountered in constructed BIT STRING: " + asn1Obj.getClass());
}
}
// TODO Probably ought to be DLBitString
return new BERBitString(strings);
}
ASN1OctetString buildConstructedOctetString(ASN1EncodableVector contentsElements) throws IOException
{
ASN1OctetString[] strings = new ASN1OctetString[contentsElements.size()];
for (int i = 0; i != strings.length; i++)
{
ASN1Encodable asn1Obj = contentsElements.get(i);
if (asn1Obj instanceof ASN1OctetString)
{
strings[i] = (ASN1OctetString)asn1Obj;
}
else
{
throw new ASN1Exception(
"unknown object encountered in constructed OCTET STRING: " + asn1Obj.getClass());
}
}
// TODO Probably ought to be DEROctetString (no DLOctetString available)
return new BEROctetString(strings);
}
ASN1Primitive readTaggedObjectDL(int tagClass, int tagNo, boolean constructed, DefiniteLengthInputStream defIn)
throws IOException
{
if (!constructed)
{
byte[] contentsOctets = defIn.toByteArray();
return ASN1TaggedObject.createPrimitive(tagClass, tagNo, contentsOctets);
}
ASN1EncodableVector contentsElements = readVector(defIn);
return ASN1TaggedObject.createConstructedDL(tagClass, tagNo, contentsElements);
}
ASN1EncodableVector readVector() throws IOException
{
ASN1Primitive p = readObject();
if (null == p)
{
return new ASN1EncodableVector(0);
}
ASN1EncodableVector v = new ASN1EncodableVector();
do
{
v.add(p);
}
while ((p = readObject()) != null);
return v;
}
ASN1EncodableVector readVector(DefiniteLengthInputStream defIn) throws IOException
{
int remaining = defIn.getRemaining();
if (remaining < 1)
{
return new ASN1EncodableVector(0);
}
return new ASN1InputStream(defIn, remaining, lazyEvaluate, tmpBuffers).readVector();
}
static int readTagNumber(InputStream s, int tag)
throws IOException
{
int tagNo = tag & 0x1f;
//
// with tagged object tag number is bottom 5 bits, or stored at the start of the content
//
if (tagNo == 0x1f)
{
int b = s.read();
if (b < 31)
{
if (b < 0)
{
throw new EOFException("EOF found inside tag value.");
}
throw new IOException("corrupted stream - high tag number < 31 found");
}
tagNo = b & 0x7f;
// X.690-0207 8.1.2.4.2
// "c) bits 7 to 1 of the first subsequent octet shall not all be zero."
if (0 == tagNo)
{
throw new IOException("corrupted stream - invalid high tag number found");
}
while ((b & 0x80) != 0)
{
if ((tagNo >>> 24) != 0)
{
throw new IOException("Tag number more than 31 bits");
}
tagNo <<= 7;
b = s.read();
if (b < 0)
{
throw new EOFException("EOF found inside tag value.");
}
tagNo |= (b & 0x7f);
}
}
return tagNo;
}
static int readLength(InputStream s, int limit, boolean isParsing)
throws IOException
{
int length = s.read();
if (0 == (length >>> 7))
{
// definite-length short form
return length;
}
if (0x80 == length)
{
// indefinite-length
return -1;
}
if (length < 0)
{
throw new EOFException("EOF found when length expected");
}
if (0xFF == length)
{
throw new IOException("invalid long form definite-length 0xFF");
}
int octetsCount = length & 0x7F, octetsPos = 0;
length = 0;
do
{
int octet = s.read();
if (octet < 0)
{
throw new EOFException("EOF found reading length");
}
if ((length >>> 23) != 0)
{
throw new IOException("long form definite-length more than 31 bits");
}
length = (length << 8) + octet;
}
while (++octetsPos < octetsCount);
if (length >= limit && !isParsing) // after all we must have read at least 1 byte
{
throw new IOException("corrupted stream - out of bounds length found: " + length + " >= " + limit);
}
return length;
}
private static byte[] getBuffer(DefiniteLengthInputStream defIn, byte[][] tmpBuffers)
throws IOException
{
int len = defIn.getRemaining();
if (len >= tmpBuffers.length)
{
return defIn.toByteArray();
}
byte[] buf = tmpBuffers[len];
if (buf == null)
{
buf = tmpBuffers[len] = new byte[len];
}
defIn.readAllIntoByteArray(buf);
return buf;
}
private static char[] getBMPCharBuffer(DefiniteLengthInputStream defIn)
throws IOException
{
int remainingBytes = defIn.getRemaining();
if (0 != (remainingBytes & 1))
{
throw new IOException("malformed BMPString encoding encountered");
}
char[] string = new char[remainingBytes / 2];
int stringPos = 0;
byte[] buf = new byte[8];
while (remainingBytes >= 8)
{
if (Streams.readFully(defIn, buf, 0, 8) != 8)
{
throw new EOFException("EOF encountered in middle of BMPString");
}
string[stringPos ] = (char)((buf[0] << 8) | (buf[1] & 0xFF));
string[stringPos + 1] = (char)((buf[2] << 8) | (buf[3] & 0xFF));
string[stringPos + 2] = (char)((buf[4] << 8) | (buf[5] & 0xFF));
string[stringPos + 3] = (char)((buf[6] << 8) | (buf[7] & 0xFF));
stringPos += 4;
remainingBytes -= 8;
}
if (remainingBytes > 0)
{
if (Streams.readFully(defIn, buf, 0, remainingBytes) != remainingBytes)
{
throw new EOFException("EOF encountered in middle of BMPString");
}
int bufPos = 0;
do
{
int b1 = buf[bufPos++] << 8;
int b2 = buf[bufPos++] & 0xFF;
string[stringPos++] = (char)(b1 | b2);
}
while (bufPos < remainingBytes);
}
if (0 != defIn.getRemaining() || string.length != stringPos)
{
throw new IllegalStateException();
}
return string;
}
static ASN1Primitive createPrimitiveDERObject(
int tagNo,
DefiniteLengthInputStream defIn,
byte[][] tmpBuffers)
throws IOException
{
/*
* TODO[asn1] Lookup the universal type object and get it to parse the stream directly (possibly with
* access to a single temporary buffer replacing tmpBuffers).
*/
try
{
switch (tagNo)
{
case BIT_STRING:
return ASN1BitString.createPrimitive(defIn.toByteArray());
case BMP_STRING:
return ASN1BMPString.createPrimitive(getBMPCharBuffer(defIn));
case BOOLEAN:
return ASN1Boolean.createPrimitive(getBuffer(defIn, tmpBuffers));
case ENUMERATED:
// TODO Ideally only clone if we used a buffer
return ASN1Enumerated.createPrimitive(getBuffer(defIn, tmpBuffers), true);
case GENERAL_STRING:
return ASN1GeneralString.createPrimitive(defIn.toByteArray());
case GENERALIZED_TIME:
return ASN1GeneralizedTime.createPrimitive(defIn.toByteArray());
case GRAPHIC_STRING:
return ASN1GraphicString.createPrimitive(defIn.toByteArray());
case IA5_STRING:
return ASN1IA5String.createPrimitive(defIn.toByteArray());
case INTEGER:
return ASN1Integer.createPrimitive(defIn.toByteArray());
case NULL:
return ASN1Null.createPrimitive(defIn.toByteArray());
case NUMERIC_STRING:
return ASN1NumericString.createPrimitive(defIn.toByteArray());
case OBJECT_DESCRIPTOR:
return ASN1ObjectDescriptor.createPrimitive(defIn.toByteArray());
case OBJECT_IDENTIFIER:
// TODO Ideally only clone if we used a buffer
return ASN1ObjectIdentifier.createPrimitive(getBuffer(defIn, tmpBuffers), true);
case OCTET_STRING:
return ASN1OctetString.createPrimitive(defIn.toByteArray());
case PRINTABLE_STRING:
return ASN1PrintableString.createPrimitive(defIn.toByteArray());
case RELATIVE_OID:
return ASN1RelativeOID.createPrimitive(defIn.toByteArray(), false);
case T61_STRING:
return ASN1T61String.createPrimitive(defIn.toByteArray());
case UNIVERSAL_STRING:
return ASN1UniversalString.createPrimitive(defIn.toByteArray());
case UTC_TIME:
return ASN1UTCTime.createPrimitive(defIn.toByteArray());
case UTF8_STRING:
return ASN1UTF8String.createPrimitive(defIn.toByteArray());
case VIDEOTEX_STRING:
return ASN1VideotexString.createPrimitive(defIn.toByteArray());
case VISIBLE_STRING:
return ASN1VisibleString.createPrimitive(defIn.toByteArray());
case TIME:
case DATE:
case TIME_OF_DAY:
case DATE_TIME:
case DURATION:
case OBJECT_IDENTIFIER_IRI:
case RELATIVE_OID_IRI:
throw new IOException("unsupported tag " + tagNo + " encountered");
default:
throw new IOException("unknown tag " + tagNo + " encountered");
}
}
catch (IllegalArgumentException e)
{
throw new ASN1Exception(e.getMessage(), e);
}
catch (IllegalStateException e)
{
throw new ASN1Exception(e.getMessage(), e);
}
}
}
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