/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License, Version 1.0 only
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* (the "License"). You may not use this file except in compliance
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* with the License.
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*
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* You can obtain a copy of the license at legal-notices/CDDLv1_0.txt
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* or http://forgerock.org/license/CDDLv1.0.html.
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* See the License for the specific language governing permissions
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* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at legal-notices/CDDLv1_0.txt.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* information:
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* Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*
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*
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* Copyright 2010 Sun Microsystems, Inc.
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* Portions copyright 2012-2014 ForgeRock AS.
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*/
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package org.forgerock.opendj.grizzly;
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import static com.forgerock.opendj.ldap.CoreMessages.*;
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import java.io.IOException;
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import org.forgerock.i18n.LocalizableMessage;
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import org.forgerock.i18n.slf4j.LocalizedLogger;
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import org.forgerock.opendj.io.ASN1;
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import org.forgerock.opendj.io.ASN1Reader;
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import org.forgerock.opendj.io.AbstractASN1Reader;
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import org.forgerock.opendj.ldap.ByteString;
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import org.forgerock.opendj.ldap.ByteStringBuilder;
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import org.forgerock.opendj.ldap.DecodeException;
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import org.glassfish.grizzly.Buffer;
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import org.glassfish.grizzly.memory.BuffersBuffer;
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import org.glassfish.grizzly.memory.CompositeBuffer;
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import org.glassfish.grizzly.memory.MemoryManager;
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/**
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* Grizzly ASN1 reader implementation.
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*/
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final class ASN1BufferReader extends AbstractASN1Reader {
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private final class ChildSequenceLimiter implements SequenceLimiter {
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private SequenceLimiter parent;
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private ChildSequenceLimiter child;
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private int readLimit;
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private int bytesRead;
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public void checkLimit(final int readSize) throws IOException {
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if ((readLimit > 0) && (bytesRead + readSize > readLimit)) {
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final LocalizableMessage message = ERR_ASN1_TRUNCATED_LENGTH_BYTE.get();
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throw DecodeException.fatalError(message);
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}
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parent.checkLimit(readSize);
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bytesRead += readSize;
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}
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public SequenceLimiter endSequence() throws IOException {
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parent.checkLimit(remaining());
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if (remaining() > 0) {
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logger.debug(LocalizableMessage.raw(
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"Ignoring %d unused trailing bytes in ASN.1 SEQUENCE", remaining()));
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}
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for (int i = 0; i < remaining(); i++) {
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buffer.get();
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}
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return parent;
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}
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public int remaining() {
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return readLimit - bytesRead;
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}
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public ChildSequenceLimiter startSequence(final int readLimit) {
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if (child == null) {
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child = new ChildSequenceLimiter();
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child.parent = this;
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}
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child.readLimit = readLimit;
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child.bytesRead = 0;
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return child;
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}
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}
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private final class RootSequenceLimiter implements SequenceLimiter {
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private ChildSequenceLimiter child;
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public void checkLimit(final int readSize) throws IOException {
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if (buffer.remaining() < readSize) {
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final LocalizableMessage message = ERR_ASN1_TRUNCATED_LENGTH_BYTE.get();
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throw DecodeException.fatalError(message);
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}
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}
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public ChildSequenceLimiter endSequence() throws DecodeException {
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final LocalizableMessage message = ERR_ASN1_SEQUENCE_READ_NOT_STARTED.get();
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throw new IllegalStateException(message.toString());
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}
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public int remaining() {
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return buffer.remaining();
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}
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public ChildSequenceLimiter startSequence(final int readLimit) {
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if (child == null) {
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child = new ChildSequenceLimiter();
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child.parent = this;
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}
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child.readLimit = readLimit;
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child.bytesRead = 0;
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return child;
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}
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}
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private interface SequenceLimiter {
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public void checkLimit(int readSize) throws IOException;
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public SequenceLimiter endSequence() throws IOException;
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public int remaining();
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public SequenceLimiter startSequence(int readLimit);
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}
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private static final LocalizedLogger logger = LocalizedLogger.getLoggerForThisClass();
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private static final int MAX_STRING_BUFFER_SIZE = 1024;
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private int state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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private byte peekType = 0;
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private int peekLength = -1;
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private int lengthBytesNeeded = 0;
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private final int maxElementSize;
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private final CompositeBuffer buffer;
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private SequenceLimiter readLimiter;
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private final byte[] stringBuffer;
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/**
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* Creates a new ASN1 reader whose source is the provided input stream and
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* having a user defined maximum BER element size.
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*
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* @param maxElementSize
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* The maximum BER element size, or <code>0</code> to indicate
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* that there is no limit.
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* @param memoryManager
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* The memory manager to use for buffering.
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*/
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ASN1BufferReader(final int maxElementSize, final MemoryManager<?> memoryManager) {
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this.readLimiter = new RootSequenceLimiter();
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this.stringBuffer = new byte[MAX_STRING_BUFFER_SIZE];
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this.maxElementSize = maxElementSize;
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this.buffer = BuffersBuffer.create(memoryManager);
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}
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/**
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* Closes this ASN.1 reader and the underlying stream.
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*
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* @throws IOException
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* if an I/O error occurs
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*/
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public void close() throws IOException {
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buffer.dispose();
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}
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/**
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* Determines if a complete ASN.1 element is ready to be read from the
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* stream reader.
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*
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* @return <code>true</code> if another complete element is available or
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* <code>false</code> otherwise.
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* @throws IOException
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* If an error occurs while trying to decode an ASN1 element.
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*/
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public boolean elementAvailable() throws IOException {
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return !((state == ASN1.ELEMENT_READ_STATE_NEED_TYPE)
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&& !needTypeState(true))
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&& !((state == ASN1.ELEMENT_READ_STATE_NEED_FIRST_LENGTH_BYTE)
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&& !needFirstLengthByteState(true))
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&& !((state == ASN1.ELEMENT_READ_STATE_NEED_ADDITIONAL_LENGTH_BYTES)
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&& !needAdditionalLengthBytesState(true))
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&& peekLength <= readLimiter.remaining();
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}
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/**
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* Determines if the input stream contains at least one ASN.1 element to be
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* read.
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*
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* @return <code>true</code> if another element is available or
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* <code>false</code> otherwise.
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* @throws IOException
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* If an error occurs while trying to decode an ASN1 element.
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*/
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public boolean hasNextElement() throws IOException {
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return (state != ASN1.ELEMENT_READ_STATE_NEED_TYPE) || needTypeState(true);
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}
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/**
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* {@inheritDoc}
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*/
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public int peekLength() throws IOException {
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peekType();
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switch (state) {
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case ASN1.ELEMENT_READ_STATE_NEED_FIRST_LENGTH_BYTE:
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needFirstLengthByteState(false);
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break;
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case ASN1.ELEMENT_READ_STATE_NEED_ADDITIONAL_LENGTH_BYTES:
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needAdditionalLengthBytesState(false);
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}
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return peekLength;
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}
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/**
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* {@inheritDoc}
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*/
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public byte peekType() throws IOException {
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if (state == ASN1.ELEMENT_READ_STATE_NEED_TYPE) {
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needTypeState(false);
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}
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return peekType;
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}
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/**
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* {@inheritDoc}
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*/
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public boolean readBoolean() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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if (peekLength != 1) {
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final LocalizableMessage message = ERR_ASN1_BOOLEAN_INVALID_LENGTH.get(peekLength);
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throw DecodeException.fatalError(message);
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}
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readLimiter.checkLimit(peekLength);
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final byte readByte = buffer.get();
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logger.trace("READ ASN.1 BOOLEAN(type=0x%x, length=%d, value=%s)", peekType, peekLength, readByte != 0x00);
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return readByte != 0x00;
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}
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/**
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* {@inheritDoc}
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*/
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public void readEndSequence() throws IOException {
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readLimiter = readLimiter.endSequence();
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logger.trace("READ ASN.1 END SEQUENCE");
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// Reset the state
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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}
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/** {@inheritDoc} */
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@Override
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public void readEndExplicitTag() throws DecodeException, IOException {
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readEndSequence();
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}
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/**
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* {@inheritDoc}
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*/
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public void readEndSet() throws IOException {
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// From an implementation point of view, a set is equivalent to a
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// sequence.
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readEndSequence();
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}
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/**
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* {@inheritDoc}
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*/
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public int readEnumerated() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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if ((peekLength < 1) || (peekLength > 4)) {
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final LocalizableMessage message = ERR_ASN1_INTEGER_INVALID_LENGTH.get(peekLength);
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throw DecodeException.fatalError(message);
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}
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// From an implementation point of view, an enumerated value is
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// equivalent to an integer.
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return (int) readInteger();
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}
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/**
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* {@inheritDoc}
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*/
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public long readInteger() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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if ((peekLength < 1) || (peekLength > 8)) {
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final LocalizableMessage message = ERR_ASN1_INTEGER_INVALID_LENGTH.get(peekLength);
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throw DecodeException.fatalError(message);
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}
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readLimiter.checkLimit(peekLength);
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if (peekLength > 4) {
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long longValue = 0;
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for (int i = 0; i < peekLength; i++) {
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final int readByte = buffer.get();
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if ((i == 0) && (((byte) readByte) < 0)) {
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longValue = 0xFFFFFFFFFFFFFFFFL;
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}
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longValue = (longValue << 8) | (readByte & 0xFF);
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}
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return longValue;
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} else {
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int intValue = 0;
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for (int i = 0; i < peekLength; i++) {
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final int readByte = buffer.get();
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if ((i == 0) && (((byte) readByte) < 0)) {
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intValue = 0xFFFFFFFF;
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}
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intValue = (intValue << 8) | (readByte & 0xFF);
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}
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logger.trace("READ ASN.1 INTEGER(type=0x%x, length=%d, value=%d)", peekType, peekLength, intValue);
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return intValue;
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}
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}
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/**
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* {@inheritDoc}
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*/
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public void readNull() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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// Make sure that the decoded length is exactly zero byte.
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if (peekLength != 0) {
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final LocalizableMessage message = ERR_ASN1_NULL_INVALID_LENGTH.get(peekLength);
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throw DecodeException.fatalError(message);
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}
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logger.trace("READ ASN.1 NULL(type=0x%x, length=%d)", peekType, peekLength);
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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}
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/**
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* {@inheritDoc}
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*/
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public ByteString readOctetString() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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if (peekLength == 0) {
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return ByteString.empty();
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}
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readLimiter.checkLimit(peekLength);
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// Copy the value and construct the element to return.
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final byte[] value = new byte[peekLength];
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buffer.get(value);
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logger.trace("READ ASN.1 OCTETSTRING(type=0x%x, length=%d)", peekType, peekLength);
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return ByteString.wrap(value);
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}
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/**
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* {@inheritDoc}
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*/
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public ByteStringBuilder readOctetString(final ByteStringBuilder builder) throws IOException {
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// Read the header if haven't done so already
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peekLength();
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if (peekLength == 0) {
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return builder;
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}
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readLimiter.checkLimit(peekLength);
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// Copy the value and construct the element to return.
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// TODO: Is there a more efficient way to do this?
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for (int i = 0; i < peekLength; i++) {
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builder.append(buffer.get());
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}
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logger.trace("READ ASN.1 OCTETSTRING(type=0x%x, length=%d)", peekType, peekLength);
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return builder;
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}
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/**
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* {@inheritDoc}
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*/
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public String readOctetStringAsString() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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if (peekLength == 0) {
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return "";
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}
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byte[] readBuffer;
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if (peekLength <= stringBuffer.length) {
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readBuffer = stringBuffer;
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} else {
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readBuffer = new byte[peekLength];
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}
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readLimiter.checkLimit(peekLength);
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buffer.get(readBuffer, 0, peekLength);
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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String str;
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try {
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str = new String(readBuffer, 0, peekLength, "UTF-8");
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} catch (final Exception e) {
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// TODO: I18N
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logger.warn(LocalizableMessage.raw("Unable to decode ASN.1 OCTETSTRING bytes as UTF-8 string: %s", e));
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str = new String(stringBuffer, 0, peekLength);
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}
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logger.trace("READ ASN.1 OCTETSTRING(type=0x%x, length=%d, value=%s)", peekType, peekLength, str);
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return str;
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}
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/**
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* {@inheritDoc}
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*/
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public void readStartSequence() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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readLimiter = readLimiter.startSequence(peekLength);
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logger.trace("READ ASN.1 START SEQUENCE(type=0x%x, length=%d)", peekType, peekLength);
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// Reset the state
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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}
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/** {@inheritDoc} */
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@Override
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public void readStartExplicitTag() throws DecodeException, IOException {
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readStartSequence();
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}
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/**
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* {@inheritDoc}
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*/
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public void readStartSet() throws IOException {
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// From an implementation point of view, a set is equivalent to a
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// sequence.
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readStartSequence();
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}
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/**
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* {@inheritDoc}
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*/
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public ASN1Reader skipElement() throws IOException {
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// Read the header if haven't done so already
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peekLength();
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readLimiter.checkLimit(peekLength);
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for (int i = 0; i < peekLength; i++) {
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buffer.get();
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}
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state = ASN1.ELEMENT_READ_STATE_NEED_TYPE;
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return this;
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}
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void appendBytesRead(final Buffer buffer) {
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this.buffer.append(buffer);
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}
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void disposeBytesRead() {
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this.buffer.shrink();
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}
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/**
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* Internal helper method reading the additional ASN.1 length bytes and
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* transition to the next state if successful.
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*
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* @param ensureRead
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* <code>true</code> to check for availability first.
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* @return <code>true</code> if the length bytes was successfully read.
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* @throws IOException
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* If an error occurs while reading from the stream.
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*/
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private boolean needAdditionalLengthBytesState(final boolean ensureRead) throws IOException {
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if (ensureRead && (readLimiter.remaining() < lengthBytesNeeded)) {
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return false;
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}
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byte readByte;
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readLimiter.checkLimit(lengthBytesNeeded);
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while (lengthBytesNeeded > 0) {
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readByte = buffer.get();
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peekLength = (peekLength << 8) | (readByte & 0xFF);
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lengthBytesNeeded--;
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}
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// Make sure that the element is not larger than the maximum allowed
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// message size.
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if ((maxElementSize > 0) && (peekLength > maxElementSize)) {
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final LocalizableMessage m =
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ERR_LDAP_CLIENT_DECODE_MAX_REQUEST_SIZE_EXCEEDED
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.get(peekLength, maxElementSize);
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throw DecodeException.fatalError(m);
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}
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state = ASN1.ELEMENT_READ_STATE_NEED_VALUE_BYTES;
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return true;
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}
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/**
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* Internal helper method reading the first length bytes and transition to
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* the next state if successful.
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*
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* @param ensureRead
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* <code>true</code> to check for availability first.
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* @return <code>true</code> if the length bytes was successfully read
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* @throws IOException
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* If an error occurs while trying to decode an ASN1 element.
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*/
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private boolean needFirstLengthByteState(final boolean ensureRead) throws IOException {
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if (ensureRead && (readLimiter.remaining() <= 0)) {
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return false;
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}
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readLimiter.checkLimit(1);
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byte readByte = buffer.get();
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peekLength = (readByte & 0x7F);
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if (peekLength != readByte) {
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lengthBytesNeeded = peekLength;
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if (lengthBytesNeeded > 4) {
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final LocalizableMessage message =
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ERR_ASN1_INVALID_NUM_LENGTH_BYTES.get(lengthBytesNeeded);
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throw DecodeException.fatalError(message);
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}
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peekLength = 0x00;
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if (ensureRead && (readLimiter.remaining() < lengthBytesNeeded)) {
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state = ASN1.ELEMENT_READ_STATE_NEED_ADDITIONAL_LENGTH_BYTES;
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return false;
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}
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readLimiter.checkLimit(lengthBytesNeeded);
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while (lengthBytesNeeded > 0) {
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readByte = buffer.get();
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peekLength = (peekLength << 8) | (readByte & 0xFF);
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lengthBytesNeeded--;
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}
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}
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// Make sure that the element is not larger than the maximum allowed
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// message size.
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if ((maxElementSize > 0) && (peekLength > maxElementSize)) {
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final LocalizableMessage m =
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ERR_LDAP_CLIENT_DECODE_MAX_REQUEST_SIZE_EXCEEDED
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.get(peekLength, maxElementSize);
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throw DecodeException.fatalError(m);
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}
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state = ASN1.ELEMENT_READ_STATE_NEED_VALUE_BYTES;
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return true;
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}
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/**
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* Internal helper method reading the ASN.1 type byte and transition to the
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* next state if successful.
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*
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* @param ensureRead
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* <code>true</code> to check for availability first.
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* @return <code>true</code> if the type byte was successfully read
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* @throws IOException
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* If an error occurs while trying to decode an ASN1 element.
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*/
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private boolean needTypeState(final boolean ensureRead) throws IOException {
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// Read just the type.
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if (ensureRead && (readLimiter.remaining() <= 0)) {
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return false;
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}
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readLimiter.checkLimit(1);
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peekType = buffer.get();
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state = ASN1.ELEMENT_READ_STATE_NEED_FIRST_LENGTH_BYTE;
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return true;
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}
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}
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