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/*
 * 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 ch.cern.hbase.thirdparty.io.netty.handler.codec;

import static ch.cern.hbase.thirdparty.io.netty.util.internal.ObjectUtil.checkPositive;

import ch.cern.hbase.thirdparty.io.netty.buffer.ByteBuf;
import ch.cern.hbase.thirdparty.io.netty.channel.ChannelHandlerContext;

import java.util.List;

/**
 * A decoder that splits the received {@link ByteBuf}s by one or more
 * delimiters.  It is particularly useful for decoding the frames which ends
 * with a delimiter such as {@link Delimiters#nulDelimiter() NUL} or
 * {@linkplain Delimiters#lineDelimiter() newline characters}.
 *
 * 

Predefined delimiters

*

* {@link Delimiters} defines frequently used delimiters for convenience' sake. * *

Specifying more than one delimiter

*

* {@link DelimiterBasedFrameDecoder} allows you to specify more than one * delimiter. If more than one delimiter is found in the buffer, it chooses * the delimiter which produces the shortest frame. For example, if you have * the following data in the buffer: *

 * +--------------+
 * | ABC\nDEF\r\n |
 * +--------------+
 * 
* a {@link DelimiterBasedFrameDecoder}({@link Delimiters#lineDelimiter() Delimiters.lineDelimiter()}) * will choose {@code '\n'} as the first delimiter and produce two frames: *
 * +-----+-----+
 * | ABC | DEF |
 * +-----+-----+
 * 
* rather than incorrectly choosing {@code '\r\n'} as the first delimiter: *
 * +----------+
 * | ABC\nDEF |
 * +----------+
 * 
*/ public class DelimiterBasedFrameDecoder extends ByteToMessageDecoder { private final ByteBuf[] delimiters; private final int maxFrameLength; private final boolean stripDelimiter; private final boolean failFast; private boolean discardingTooLongFrame; private int tooLongFrameLength; /** Set only when decoding with "\n" and "\r\n" as the delimiter. */ private final LineBasedFrameDecoder lineBasedDecoder; /** * Creates a new instance. * * @param maxFrameLength the maximum length of the decoded frame. * A {@link TooLongFrameException} is thrown if * the length of the frame exceeds this value. * @param delimiter the delimiter */ public DelimiterBasedFrameDecoder(int maxFrameLength, ByteBuf delimiter) { this(maxFrameLength, true, delimiter); } /** * Creates a new instance. * * @param maxFrameLength the maximum length of the decoded frame. * A {@link TooLongFrameException} is thrown if * the length of the frame exceeds this value. * @param stripDelimiter whether the decoded frame should strip out the * delimiter or not * @param delimiter the delimiter */ public DelimiterBasedFrameDecoder( int maxFrameLength, boolean stripDelimiter, ByteBuf delimiter) { this(maxFrameLength, stripDelimiter, true, delimiter); } /** * Creates a new instance. * * @param maxFrameLength the maximum length of the decoded frame. * A {@link TooLongFrameException} is thrown if * the length of the frame exceeds this value. * @param stripDelimiter whether the decoded frame should strip out the * delimiter or not * @param failFast If true, a {@link TooLongFrameException} is * thrown as soon as the decoder notices the length of the * frame will exceed maxFrameLength regardless of * whether the entire frame has been read. * If false, a {@link TooLongFrameException} is * thrown after the entire frame that exceeds * maxFrameLength has been read. * @param delimiter the delimiter */ public DelimiterBasedFrameDecoder( int maxFrameLength, boolean stripDelimiter, boolean failFast, ByteBuf delimiter) { this(maxFrameLength, stripDelimiter, failFast, new ByteBuf[] { delimiter.slice(delimiter.readerIndex(), delimiter.readableBytes())}); } /** * Creates a new instance. * * @param maxFrameLength the maximum length of the decoded frame. * A {@link TooLongFrameException} is thrown if * the length of the frame exceeds this value. * @param delimiters the delimiters */ public DelimiterBasedFrameDecoder(int maxFrameLength, ByteBuf... delimiters) { this(maxFrameLength, true, delimiters); } /** * Creates a new instance. * * @param maxFrameLength the maximum length of the decoded frame. * A {@link TooLongFrameException} is thrown if * the length of the frame exceeds this value. * @param stripDelimiter whether the decoded frame should strip out the * delimiter or not * @param delimiters the delimiters */ public DelimiterBasedFrameDecoder( int maxFrameLength, boolean stripDelimiter, ByteBuf... delimiters) { this(maxFrameLength, stripDelimiter, true, delimiters); } /** * Creates a new instance. * * @param maxFrameLength the maximum length of the decoded frame. * A {@link TooLongFrameException} is thrown if * the length of the frame exceeds this value. * @param stripDelimiter whether the decoded frame should strip out the * delimiter or not * @param failFast If true, a {@link TooLongFrameException} is * thrown as soon as the decoder notices the length of the * frame will exceed maxFrameLength regardless of * whether the entire frame has been read. * If false, a {@link TooLongFrameException} is * thrown after the entire frame that exceeds * maxFrameLength has been read. * @param delimiters the delimiters */ public DelimiterBasedFrameDecoder( int maxFrameLength, boolean stripDelimiter, boolean failFast, ByteBuf... delimiters) { validateMaxFrameLength(maxFrameLength); if (delimiters == null) { throw new NullPointerException("delimiters"); } if (delimiters.length == 0) { throw new IllegalArgumentException("empty delimiters"); } if (isLineBased(delimiters) && !isSubclass()) { lineBasedDecoder = new LineBasedFrameDecoder(maxFrameLength, stripDelimiter, failFast); this.delimiters = null; } else { this.delimiters = new ByteBuf[delimiters.length]; for (int i = 0; i < delimiters.length; i ++) { ByteBuf d = delimiters[i]; validateDelimiter(d); this.delimiters[i] = d.slice(d.readerIndex(), d.readableBytes()); } lineBasedDecoder = null; } this.maxFrameLength = maxFrameLength; this.stripDelimiter = stripDelimiter; this.failFast = failFast; } /** Returns true if the delimiters are "\n" and "\r\n". */ private static boolean isLineBased(final ByteBuf[] delimiters) { if (delimiters.length != 2) { return false; } ByteBuf a = delimiters[0]; ByteBuf b = delimiters[1]; if (a.capacity() < b.capacity()) { a = delimiters[1]; b = delimiters[0]; } return a.capacity() == 2 && b.capacity() == 1 && a.getByte(0) == '\r' && a.getByte(1) == '\n' && b.getByte(0) == '\n'; } /** * Return {@code true} if the current instance is a subclass of DelimiterBasedFrameDecoder */ private boolean isSubclass() { return getClass() != DelimiterBasedFrameDecoder.class; } @Override protected final void decode(ChannelHandlerContext ctx, ByteBuf in, List out) throws Exception { Object decoded = decode(ctx, in); if (decoded != null) { out.add(decoded); } } /** * Create a frame out of the {@link ByteBuf} and return it. * * @param ctx the {@link ChannelHandlerContext} which this {@link ByteToMessageDecoder} belongs to * @param buffer the {@link ByteBuf} from which to read data * @return frame the {@link ByteBuf} which represent the frame or {@code null} if no frame could * be created. */ protected Object decode(ChannelHandlerContext ctx, ByteBuf buffer) throws Exception { if (lineBasedDecoder != null) { return lineBasedDecoder.decode(ctx, buffer); } // Try all delimiters and choose the delimiter which yields the shortest frame. int minFrameLength = Integer.MAX_VALUE; ByteBuf minDelim = null; for (ByteBuf delim: delimiters) { int frameLength = indexOf(buffer, delim); if (frameLength >= 0 && frameLength < minFrameLength) { minFrameLength = frameLength; minDelim = delim; } } if (minDelim != null) { int minDelimLength = minDelim.capacity(); ByteBuf frame; if (discardingTooLongFrame) { // We've just finished discarding a very large frame. // Go back to the initial state. discardingTooLongFrame = false; buffer.skipBytes(minFrameLength + minDelimLength); int tooLongFrameLength = this.tooLongFrameLength; this.tooLongFrameLength = 0; if (!failFast) { fail(tooLongFrameLength); } return null; } if (minFrameLength > maxFrameLength) { // Discard read frame. buffer.skipBytes(minFrameLength + minDelimLength); fail(minFrameLength); return null; } if (stripDelimiter) { frame = buffer.readRetainedSlice(minFrameLength); buffer.skipBytes(minDelimLength); } else { frame = buffer.readRetainedSlice(minFrameLength + minDelimLength); } return frame; } else { if (!discardingTooLongFrame) { if (buffer.readableBytes() > maxFrameLength) { // Discard the content of the buffer until a delimiter is found. tooLongFrameLength = buffer.readableBytes(); buffer.skipBytes(buffer.readableBytes()); discardingTooLongFrame = true; if (failFast) { fail(tooLongFrameLength); } } } else { // Still discarding the buffer since a delimiter is not found. tooLongFrameLength += buffer.readableBytes(); buffer.skipBytes(buffer.readableBytes()); } return null; } } private void fail(long frameLength) { if (frameLength > 0) { throw new TooLongFrameException( "frame length exceeds " + maxFrameLength + ": " + frameLength + " - discarded"); } else { throw new TooLongFrameException( "frame length exceeds " + maxFrameLength + " - discarding"); } } /** * Returns the number of bytes between the readerIndex of the haystack and * the first needle found in the haystack. -1 is returned if no needle is * found in the haystack. */ private static int indexOf(ByteBuf haystack, ByteBuf needle) { for (int i = haystack.readerIndex(); i < haystack.writerIndex(); i ++) { int haystackIndex = i; int needleIndex; for (needleIndex = 0; needleIndex < needle.capacity(); needleIndex ++) { if (haystack.getByte(haystackIndex) != needle.getByte(needleIndex)) { break; } else { haystackIndex ++; if (haystackIndex == haystack.writerIndex() && needleIndex != needle.capacity() - 1) { return -1; } } } if (needleIndex == needle.capacity()) { // Found the needle from the haystack! return i - haystack.readerIndex(); } } return -1; } private static void validateDelimiter(ByteBuf delimiter) { if (delimiter == null) { throw new NullPointerException("delimiter"); } if (!delimiter.isReadable()) { throw new IllegalArgumentException("empty delimiter"); } } private static void validateMaxFrameLength(int maxFrameLength) { checkPositive(maxFrameLength, "maxFrameLength"); } }