Java tutorial
/* * Copyright 2012 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 com.jcraft.jzlib.Inflater; import com.jcraft.jzlib.JZlib; import io.netty.buffer.ByteBuf; import io.netty.channel.ChannelHandlerContext; import io.netty.util.internal.ObjectUtil; import java.util.List; public class JZlibDecoder extends ZlibDecoder { private final Inflater z = new Inflater(); private byte[] dictionary; private volatile boolean finished; /** * Creates a new instance with the default wrapper ({@link ZlibWrapper#ZLIB}). * * @throws DecompressionException if failed to initialize zlib */ public JZlibDecoder() { this(ZlibWrapper.ZLIB); } /** * Creates a new instance with the specified wrapper. * * @throws DecompressionException if failed to initialize zlib */ public JZlibDecoder(ZlibWrapper wrapper) { ObjectUtil.checkNotNull(wrapper, "wrapper"); int resultCode = z.init(ZlibUtil.convertWrapperType(wrapper)); if (resultCode != JZlib.Z_OK) { ZlibUtil.fail(z, "initialization failure", resultCode); } } /** * Creates a new instance with the specified preset dictionary. The wrapper * is always {@link ZlibWrapper#ZLIB} because it is the only format that * supports the preset dictionary. * * @throws DecompressionException if failed to initialize zlib */ public JZlibDecoder(byte[] dictionary) { this.dictionary = ObjectUtil.checkNotNull(dictionary, "dictionary"); int resultCode; resultCode = z.inflateInit(JZlib.W_ZLIB); if (resultCode != JZlib.Z_OK) { ZlibUtil.fail(z, "initialization failure", resultCode); } } /** * Returns {@code true} if and only if the end of the compressed stream * has been reached. */ @Override public boolean isClosed() { return finished; } @Override protected void decode(ChannelHandlerContext ctx, ByteBuf in, List<Object> out) throws Exception { if (finished) { // Skip data received after finished. in.skipBytes(in.readableBytes()); return; } final int inputLength = in.readableBytes(); if (inputLength == 0) { return; } try { // Configure input. z.avail_in = inputLength; if (in.hasArray()) { z.next_in = in.array(); z.next_in_index = in.arrayOffset() + in.readerIndex(); } else { byte[] array = new byte[inputLength]; in.getBytes(in.readerIndex(), array); z.next_in = array; z.next_in_index = 0; } final int oldNextInIndex = z.next_in_index; // Configure output. ByteBuf decompressed = ctx.alloc().heapBuffer(inputLength << 1); try { loop: for (;;) { decompressed.ensureWritable(z.avail_in << 1); z.avail_out = decompressed.writableBytes(); z.next_out = decompressed.array(); z.next_out_index = decompressed.arrayOffset() + decompressed.writerIndex(); int oldNextOutIndex = z.next_out_index; // Decompress 'in' into 'out' int resultCode = z.inflate(JZlib.Z_SYNC_FLUSH); int outputLength = z.next_out_index - oldNextOutIndex; if (outputLength > 0) { decompressed.writerIndex(decompressed.writerIndex() + outputLength); } switch (resultCode) { case JZlib.Z_NEED_DICT: if (dictionary == null) { ZlibUtil.fail(z, "decompression failure", resultCode); } else { resultCode = z.inflateSetDictionary(dictionary, dictionary.length); if (resultCode != JZlib.Z_OK) { ZlibUtil.fail(z, "failed to set the dictionary", resultCode); } } break; case JZlib.Z_STREAM_END: finished = true; // Do not decode anymore. z.inflateEnd(); break loop; case JZlib.Z_OK: break; case JZlib.Z_BUF_ERROR: if (z.avail_in <= 0) { break loop; } break; default: ZlibUtil.fail(z, "decompression failure", resultCode); } } } finally { in.skipBytes(z.next_in_index - oldNextInIndex); if (decompressed.isReadable()) { out.add(decompressed); } else { decompressed.release(); } } } finally { // Deference the external references explicitly to tell the VM that // the allocated byte arrays are temporary so that the call stack // can be utilized. // I'm not sure if the modern VMs do this optimization though. z.next_in = null; z.next_out = null; } } }