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/*
 * Copyright 2014 The Netty Project
 *
 * The Netty Project licenses this file to you under the Apache License,
 * version 2.0 (the "License"); you may not use this file except in compliance
 * with the License. You may obtain a copy of the License at:
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 * License for the specific language governing permissions and limitations
 * under the License.
 */
package io.netty.handler.codec.compression;

import io.netty.buffer.ByteBuf;
import io.netty.buffer.ByteBufInputStream;
import io.netty.buffer.ByteBufOutputStream;
import io.netty.channel.ChannelHandlerContext;
import io.netty.handler.codec.MessageToByteEncoder;
import io.netty.util.internal.logging.InternalLogger;
import io.netty.util.internal.logging.InternalLoggerFactory;
import lzma.sdk.lzma.Base;
import lzma.sdk.lzma.Encoder;

import java.io.InputStream;

import static lzma.sdk.lzma.Encoder.*;

/**
 * Compresses a {@link ByteBuf} using the LZMA algorithm.
 *
 * See LZMA
 * and LZMA format
 * or documents in LZMA SDK archive.
 */
public class LzmaFrameEncoder extends MessageToByteEncoder {

    private static final InternalLogger logger = InternalLoggerFactory.getInstance(LzmaFrameEncoder.class);

    private static final int MEDIUM_DICTIONARY_SIZE = 1 << 16;

    private static final int MIN_FAST_BYTES = 5;
    private static final int MEDIUM_FAST_BYTES = 0x20;
    private static final int MAX_FAST_BYTES = Base.kMatchMaxLen;

    private static final int DEFAULT_MATCH_FINDER = EMatchFinderTypeBT4;

    private static final int DEFAULT_LC = 3;
    private static final int DEFAULT_LP = 0;
    private static final int DEFAULT_PB = 2;

    /**
     * Underlying LZMA encoder in use.
     */
    private final Encoder encoder;

    /**
     * The Properties field contains three properties which are encoded using the following formula:
     *
     * 

{@code Properties = (pb * 5 + lp) * 9 + lc}

* * The field consists of *
    *
  1. the number of literal context bits (lc, [0, 8]);
  2. *
  3. the number of literal position bits (lp, [0, 4]);
  4. *
  5. the number of position bits (pb, [0, 4]).
  6. *
*/ private final byte properties; /** * Dictionary Size is stored as an unsigned 32-bit little endian integer. */ private final int littleEndianDictionarySize; /** * For log warning only once. */ private static boolean warningLogged; /** * Creates LZMA encoder with default settings. */ public LzmaFrameEncoder() { this(MEDIUM_DICTIONARY_SIZE); } /** * Creates LZMA encoder with specified {@code lc}, {@code lp}, {@code pb} * values and the medium dictionary size of {@value #MEDIUM_DICTIONARY_SIZE}. */ public LzmaFrameEncoder(int lc, int lp, int pb) { this(lc, lp, pb, MEDIUM_DICTIONARY_SIZE); } /** * Creates LZMA encoder with specified dictionary size and default values of * {@code lc} = {@value #DEFAULT_LC}, * {@code lp} = {@value #DEFAULT_LP}, * {@code pb} = {@value #DEFAULT_PB}. */ public LzmaFrameEncoder(int dictionarySize) { this(DEFAULT_LC, DEFAULT_LP, DEFAULT_PB, dictionarySize); } /** * Creates LZMA encoder with specified {@code lc}, {@code lp}, {@code pb} values and custom dictionary size. */ public LzmaFrameEncoder(int lc, int lp, int pb, int dictionarySize) { this(lc, lp, pb, dictionarySize, false, MEDIUM_FAST_BYTES); } /** * Creates LZMA encoder with specified settings. * * @param lc * the number of "literal context" bits, available values [0, 8], default value {@value #DEFAULT_LC}. * @param lp * the number of "literal position" bits, available values [0, 4], default value {@value #DEFAULT_LP}. * @param pb * the number of "position" bits, available values [0, 4], default value {@value #DEFAULT_PB}. * @param dictionarySize * available values [0, {@link java.lang.Integer#MAX_VALUE}], * default value is {@value #MEDIUM_DICTIONARY_SIZE}. * @param endMarkerMode * indicates should {@link LzmaFrameEncoder} use end of stream marker or not. * Note, that {@link LzmaFrameEncoder} always sets size of uncompressed data * in LZMA header, so EOS marker is unnecessary. But you may use it for * better portability. For full description see "LZMA Decoding modes" section * of LZMA-Specification.txt in official LZMA SDK. * @param numFastBytes * available values [{@value #MIN_FAST_BYTES}, {@value #MAX_FAST_BYTES}]. */ public LzmaFrameEncoder(int lc, int lp, int pb, int dictionarySize, boolean endMarkerMode, int numFastBytes) { if (lc < 0 || lc > 8) { throw new IllegalArgumentException("lc: " + lc + " (expected: 0-8)"); } if (lp < 0 || lp > 4) { throw new IllegalArgumentException("lp: " + lp + " (expected: 0-4)"); } if (pb < 0 || pb > 4) { throw new IllegalArgumentException("pb: " + pb + " (expected: 0-4)"); } if (lc + lp > 4) { if (!warningLogged) { logger.warn("The latest versions of LZMA libraries (for example, XZ Utils) " + "has an additional requirement: lc + lp <= 4. Data which don't follow " + "this requirement cannot be decompressed with this libraries."); warningLogged = true; } } if (dictionarySize < 0) { throw new IllegalArgumentException("dictionarySize: " + dictionarySize + " (expected: 0+)"); } if (numFastBytes < MIN_FAST_BYTES || numFastBytes > MAX_FAST_BYTES) { throw new IllegalArgumentException(String.format( "numFastBytes: %d (expected: %d-%d)", numFastBytes, MIN_FAST_BYTES, MAX_FAST_BYTES )); } encoder = new Encoder(); encoder.setDictionarySize(dictionarySize); encoder.setEndMarkerMode(endMarkerMode); encoder.setMatchFinder(DEFAULT_MATCH_FINDER); encoder.setNumFastBytes(numFastBytes); encoder.setLcLpPb(lc, lp, pb); properties = (byte) ((pb * 5 + lp) * 9 + lc); littleEndianDictionarySize = Integer.reverseBytes(dictionarySize); } @Override protected void encode(ChannelHandlerContext ctx, ByteBuf in, ByteBuf out) throws Exception { final int length = in.readableBytes(); InputStream bbIn = null; ByteBufOutputStream bbOut = null; try { bbIn = new ByteBufInputStream(in); bbOut = new ByteBufOutputStream(out); bbOut.writeByte(properties); bbOut.writeInt(littleEndianDictionarySize); bbOut.writeLong(Long.reverseBytes(length)); encoder.code(bbIn, bbOut, -1, -1, null); } finally { if (bbIn != null) { bbIn.close(); } if (bbOut != null) { bbOut.close(); } } } @Override protected ByteBuf allocateBuffer(ChannelHandlerContext ctx, ByteBuf in, boolean preferDirect) throws Exception { final int length = in.readableBytes(); final int maxOutputLength = maxOutputBufferLength(length); return ctx.alloc().ioBuffer(maxOutputLength); } /** * Calculates maximum possible size of output buffer for not compressible data. */ private static int maxOutputBufferLength(int inputLength) { double factor; if (inputLength < 200) { factor = 1.5; } else if (inputLength < 500) { factor = 1.2; } else if (inputLength < 1000) { factor = 1.1; } else if (inputLength < 10000) { factor = 1.05; } else { factor = 1.02; } return 13 + (int) (inputLength * factor); } }




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