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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:
 *
 *   https://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 com.ning.compress.BufferRecycler;
import com.ning.compress.lzf.ChunkEncoder;
import com.ning.compress.lzf.LZFChunk;
import com.ning.compress.lzf.LZFEncoder;
import com.ning.compress.lzf.util.ChunkEncoderFactory;
import io.netty.buffer.ByteBuf;
import io.netty.channel.ChannelHandlerContext;
import io.netty.handler.codec.MessageToByteEncoder;

import static com.ning.compress.lzf.LZFChunk.MAX_CHUNK_LEN;

/**
 * Compresses a {@link ByteBuf} using the LZF format.
 * 

* See original LZF package * and LZF format for full description. */ public class LzfEncoder extends MessageToByteEncoder { /** * Minimum block size ready for compression. Blocks with length * less than {@link #MIN_BLOCK_TO_COMPRESS} will write as uncompressed. */ private static final int MIN_BLOCK_TO_COMPRESS = 16; /** * Compress threshold for LZF format. When the amount of input data is less than compressThreshold, * we will construct an uncompressed output according to the LZF format. *

* When the value is less than {@see ChunkEncoder#MIN_BLOCK_TO_COMPRESS}, since LZF will not compress data * that is less than {@see ChunkEncoder#MIN_BLOCK_TO_COMPRESS}, compressThreshold will not work. */ private final int compressThreshold; /** * Underlying decoder in use. */ private final ChunkEncoder encoder; /** * Object that handles details of buffer recycling. */ private final BufferRecycler recycler; /** * Creates a new LZF encoder with the most optimal available methods for underlying data access. * It will "unsafe" instance if one can be used on current JVM. * It should be safe to call this constructor as implementations are dynamically loaded; however, on some * non-standard platforms it may be necessary to use {@link #LzfEncoder(boolean)} with {@code true} param. */ public LzfEncoder() { this(false); } /** * Creates a new LZF encoder with specified encoding instance. * * @param safeInstance If {@code true} encoder will use {@link ChunkEncoder} that only uses * standard JDK access methods, and should work on all Java platforms and JVMs. * Otherwise encoder will try to use highly optimized {@link ChunkEncoder} * implementation that uses Sun JDK's {@link sun.misc.Unsafe} * class (which may be included by other JDK's as well). */ public LzfEncoder(boolean safeInstance) { this(safeInstance, MAX_CHUNK_LEN); } /** * Creates a new LZF encoder with specified encoding instance and compressThreshold. * * @param safeInstance If {@code true} encoder will use {@link ChunkEncoder} that only uses standard * JDK access methods, and should work on all Java platforms and JVMs. * Otherwise encoder will try to use highly optimized {@link ChunkEncoder} * implementation that uses Sun JDK's {@link sun.misc.Unsafe} * class (which may be included by other JDK's as well). * @param totalLength Expected total length of content to compress; only matters for outgoing messages * that is smaller than maximum chunk size (64k), to optimize encoding hash tables. */ public LzfEncoder(boolean safeInstance, int totalLength) { this(safeInstance, totalLength, MIN_BLOCK_TO_COMPRESS); } /** * Creates a new LZF encoder with specified total length of encoded chunk. You can configure it to encode * your data flow more efficient if you know the average size of messages that you send. * * @param totalLength Expected total length of content to compress; * only matters for outgoing messages that is smaller than maximum chunk size (64k), * to optimize encoding hash tables. */ public LzfEncoder(int totalLength) { this(false, totalLength); } /** * Creates a new LZF encoder with specified settings. * * @param safeInstance If {@code true} encoder will use {@link ChunkEncoder} that only uses standard JDK * access methods, and should work on all Java platforms and JVMs. * Otherwise encoder will try to use highly optimized {@link ChunkEncoder} * implementation that uses Sun JDK's {@link sun.misc.Unsafe} * class (which may be included by other JDK's as well). * @param totalLength Expected total length of content to compress; only matters for outgoing messages * that is smaller than maximum chunk size (64k), to optimize encoding hash tables. * @param compressThreshold Compress threshold for LZF format. When the amount of input data is less than * compressThreshold, we will construct an uncompressed output according * to the LZF format. */ public LzfEncoder(boolean safeInstance, int totalLength, int compressThreshold) { super(false); if (totalLength < MIN_BLOCK_TO_COMPRESS || totalLength > MAX_CHUNK_LEN) { throw new IllegalArgumentException("totalLength: " + totalLength + " (expected: " + MIN_BLOCK_TO_COMPRESS + '-' + MAX_CHUNK_LEN + ')'); } if (compressThreshold < MIN_BLOCK_TO_COMPRESS) { // not a suitable value. throw new IllegalArgumentException("compressThreshold:" + compressThreshold + " expected >=" + MIN_BLOCK_TO_COMPRESS); } this.compressThreshold = compressThreshold; this.encoder = safeInstance ? ChunkEncoderFactory.safeNonAllocatingInstance(totalLength) : ChunkEncoderFactory.optimalNonAllocatingInstance(totalLength); this.recycler = BufferRecycler.instance(); } @Override protected void encode(ChannelHandlerContext ctx, ByteBuf in, ByteBuf out) throws Exception { final int length = in.readableBytes(); final int idx = in.readerIndex(); final byte[] input; final int inputPtr; if (in.hasArray()) { input = in.array(); inputPtr = in.arrayOffset() + idx; } else { input = recycler.allocInputBuffer(length); in.getBytes(idx, input, 0, length); inputPtr = 0; } // Estimate may apparently under-count by one in some cases. final int maxOutputLength = LZFEncoder.estimateMaxWorkspaceSize(length) + 1; out.ensureWritable(maxOutputLength); final byte[] output; final int outputPtr; if (out.hasArray()) { output = out.array(); outputPtr = out.arrayOffset() + out.writerIndex(); } else { output = new byte[maxOutputLength]; outputPtr = 0; } final int outputLength; if (length >= compressThreshold) { // compress. outputLength = encodeCompress(input, inputPtr, length, output, outputPtr); } else { // not compress. outputLength = encodeNonCompress(input, inputPtr, length, output, outputPtr); } if (out.hasArray()) { out.writerIndex(out.writerIndex() + outputLength); } else { out.writeBytes(output, 0, outputLength); } in.skipBytes(length); if (!in.hasArray()) { recycler.releaseInputBuffer(input); } } private int encodeCompress(byte[] input, int inputPtr, int length, byte[] output, int outputPtr) { return LZFEncoder.appendEncoded(encoder, input, inputPtr, length, output, outputPtr) - outputPtr; } private static int lzfEncodeNonCompress(byte[] input, int inputPtr, int length, byte[] output, int outputPtr) { int left = length; int chunkLen = Math.min(LZFChunk.MAX_CHUNK_LEN, left); outputPtr = LZFChunk.appendNonCompressed(input, inputPtr, chunkLen, output, outputPtr); left -= chunkLen; if (left < 1) { return outputPtr; } inputPtr += chunkLen; do { chunkLen = Math.min(left, LZFChunk.MAX_CHUNK_LEN); outputPtr = LZFChunk.appendNonCompressed(input, inputPtr, chunkLen, output, outputPtr); inputPtr += chunkLen; left -= chunkLen; } while (left > 0); return outputPtr; } /** * Use lzf uncompressed format to encode a piece of input. */ private static int encodeNonCompress(byte[] input, int inputPtr, int length, byte[] output, int outputPtr) { return lzfEncodeNonCompress(input, inputPtr, length, output, outputPtr) - outputPtr; } @Override public void handlerRemoved(ChannelHandlerContext ctx) throws Exception { encoder.close(); super.handlerRemoved(ctx); } }





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