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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 nl.topicus.jdbc.shaded.io.netty.handler.codec;

import java.nio.ByteOrder;
import java.util.List;

import nl.topicus.jdbc.shaded.io.netty.buffer.ByteBuf;
import nl.topicus.jdbc.shaded.io.netty.channel.ChannelHandlerContext;
import nl.topicus.jdbc.shaded.io.netty.handler.codec.serialization.ObjectDecoder;

/**
 * A decoder that splits the received {@link ByteBuf}s dynamically by the
 * value of the length field in the message.  It is particularly useful when you
 * decode a binary message which has an integer header field that represents the
 * length of the message body or the whole message.
 * 

* {@link LengthFieldBasedFrameDecoder} has many configuration parameters so * that it can decode any message with a length field, which is often seen in * proprietary client-server protocols. Here are some example that will give * you the basic idea on which option does what. * *

2 bytes length field at offset 0, do not strip header

* * The value of the length field in this example is 12 (0x0C) which * represents the length of "HELLO, WORLD". By default, the decoder assumes * that the length field represents the number of the bytes that follows the * length field. Therefore, it can be decoded with the simplistic parameter * combination. *
 * lengthFieldOffset   = 0
 * lengthFieldLength   = 2
 * lengthAdjustment    = 0
 * initialBytesToStrip = 0 (= do not strip header)
 *
 * BEFORE DECODE (14 bytes)         AFTER DECODE (14 bytes)
 * +--------+----------------+      +--------+----------------+
 * | Length | Actual Content |----->| Length | Actual Content |
 * | 0x000C | "HELLO, WORLD" |      | 0x000C | "HELLO, WORLD" |
 * +--------+----------------+      +--------+----------------+
 * 
* *

2 bytes length field at offset 0, strip header

* * Because we can get the length of the content by calling * {@link ByteBuf#readableBytes()}, you might want to strip the length * field by specifying initialBytesToStrip. In this example, we * specified 2, that is same with the length of the length field, to * strip the first two bytes. *
 * lengthFieldOffset   = 0
 * lengthFieldLength   = 2
 * lengthAdjustment    = 0
 * initialBytesToStrip = 2 (= the length of the Length field)
 *
 * BEFORE DECODE (14 bytes)         AFTER DECODE (12 bytes)
 * +--------+----------------+      +----------------+
 * | Length | Actual Content |----->| Actual Content |
 * | 0x000C | "HELLO, WORLD" |      | "HELLO, WORLD" |
 * +--------+----------------+      +----------------+
 * 
* *

2 bytes length field at offset 0, do not strip header, the length field * represents the length of the whole message

* * In most cases, the length field represents the length of the message body * only, as shown in the previous examples. However, in some protocols, the * length field represents the length of the whole message, including the * message header. In such a case, we specify a non-zero * lengthAdjustment. Because the length value in this example message * is always greater than the body length by 2, we specify -2 * as lengthAdjustment for compensation. *
 * lengthFieldOffset   =  0
 * lengthFieldLength   =  2
 * lengthAdjustment    = -2 (= the length of the Length field)
 * initialBytesToStrip =  0
 *
 * BEFORE DECODE (14 bytes)         AFTER DECODE (14 bytes)
 * +--------+----------------+      +--------+----------------+
 * | Length | Actual Content |----->| Length | Actual Content |
 * | 0x000E | "HELLO, WORLD" |      | 0x000E | "HELLO, WORLD" |
 * +--------+----------------+      +--------+----------------+
 * 
* *

3 bytes length field at the end of 5 bytes header, do not strip header

* * The following message is a simple variation of the first example. An extra * header value is prepended to the message. lengthAdjustment is zero * again because the decoder always takes the length of the prepended data into * account during frame length calculation. *
 * lengthFieldOffset   = 2 (= the length of Header 1)
 * lengthFieldLength   = 3
 * lengthAdjustment    = 0
 * initialBytesToStrip = 0
 *
 * BEFORE DECODE (17 bytes)                      AFTER DECODE (17 bytes)
 * +----------+----------+----------------+      +----------+----------+----------------+
 * | Header 1 |  Length  | Actual Content |----->| Header 1 |  Length  | Actual Content |
 * |  0xCAFE  | 0x00000C | "HELLO, WORLD" |      |  0xCAFE  | 0x00000C | "HELLO, WORLD" |
 * +----------+----------+----------------+      +----------+----------+----------------+
 * 
* *

3 bytes length field at the beginning of 5 bytes header, do not strip header

* * This is an advanced example that shows the case where there is an extra * header between the length field and the message body. You have to specify a * positive lengthAdjustment so that the decoder counts the extra * header into the frame length calculation. *
 * lengthFieldOffset   = 0
 * lengthFieldLength   = 3
 * lengthAdjustment    = 2 (= the length of Header 1)
 * initialBytesToStrip = 0
 *
 * BEFORE DECODE (17 bytes)                      AFTER DECODE (17 bytes)
 * +----------+----------+----------------+      +----------+----------+----------------+
 * |  Length  | Header 1 | Actual Content |----->|  Length  | Header 1 | Actual Content |
 * | 0x00000C |  0xCAFE  | "HELLO, WORLD" |      | 0x00000C |  0xCAFE  | "HELLO, WORLD" |
 * +----------+----------+----------------+      +----------+----------+----------------+
 * 
* *

2 bytes length field at offset 1 in the middle of 4 bytes header, * strip the first header field and the length field

* * This is a combination of all the examples above. There are the prepended * header before the length field and the extra header after the length field. * The prepended header affects the lengthFieldOffset and the extra * header affects the lengthAdjustment. We also specified a non-zero * initialBytesToStrip to strip the length field and the prepended * header from the frame. If you don't want to strip the prepended header, you * could specify 0 for initialBytesToSkip. *
 * lengthFieldOffset   = 1 (= the length of HDR1)
 * lengthFieldLength   = 2
 * lengthAdjustment    = 1 (= the length of HDR2)
 * initialBytesToStrip = 3 (= the length of HDR1 + LEN)
 *
 * BEFORE DECODE (16 bytes)                       AFTER DECODE (13 bytes)
 * +------+--------+------+----------------+      +------+----------------+
 * | HDR1 | Length | HDR2 | Actual Content |----->| HDR2 | Actual Content |
 * | 0xCA | 0x000C | 0xFE | "HELLO, WORLD" |      | 0xFE | "HELLO, WORLD" |
 * +------+--------+------+----------------+      +------+----------------+
 * 
* *

2 bytes length field at offset 1 in the middle of 4 bytes header, * strip the first header field and the length field, the length field * represents the length of the whole message

* * Let's give another twist to the previous example. The only difference from * the previous example is that the length field represents the length of the * whole message instead of the message body, just like the third example. * We have to count the length of HDR1 and Length into lengthAdjustment. * Please note that we don't need to take the length of HDR2 into account * because the length field already includes the whole header length. *
 * lengthFieldOffset   =  1
 * lengthFieldLength   =  2
 * lengthAdjustment    = -3 (= the length of HDR1 + LEN, negative)
 * initialBytesToStrip =  3
 *
 * BEFORE DECODE (16 bytes)                       AFTER DECODE (13 bytes)
 * +------+--------+------+----------------+      +------+----------------+
 * | HDR1 | Length | HDR2 | Actual Content |----->| HDR2 | Actual Content |
 * | 0xCA | 0x0010 | 0xFE | "HELLO, WORLD" |      | 0xFE | "HELLO, WORLD" |
 * +------+--------+------+----------------+      +------+----------------+
 * 
* @see LengthFieldPrepender */ public class LengthFieldBasedFrameDecoder extends ByteToMessageDecoder { private final ByteOrder byteOrder; private final int maxFrameLength; private final int lengthFieldOffset; private final int lengthFieldLength; private final int lengthFieldEndOffset; private final int lengthAdjustment; private final int initialBytesToStrip; private final boolean failFast; private boolean discardingTooLongFrame; private long tooLongFrameLength; private long bytesToDiscard; /** * Creates a new instance. * * @param maxFrameLength * the maximum length of the frame. If the length of the frame is * greater than this value, {@link TooLongFrameException} will be * thrown. * @param lengthFieldOffset * the offset of the length field * @param lengthFieldLength * the length of the length field */ public LengthFieldBasedFrameDecoder( int maxFrameLength, int lengthFieldOffset, int lengthFieldLength) { this(maxFrameLength, lengthFieldOffset, lengthFieldLength, 0, 0); } /** * Creates a new instance. * * @param maxFrameLength * the maximum length of the frame. If the length of the frame is * greater than this value, {@link TooLongFrameException} will be * thrown. * @param lengthFieldOffset * the offset of the length field * @param lengthFieldLength * the length of the length field * @param lengthAdjustment * the compensation value to add to the value of the length field * @param initialBytesToStrip * the number of first bytes to strip out from the decoded frame */ public LengthFieldBasedFrameDecoder( int maxFrameLength, int lengthFieldOffset, int lengthFieldLength, int lengthAdjustment, int initialBytesToStrip) { this( maxFrameLength, lengthFieldOffset, lengthFieldLength, lengthAdjustment, initialBytesToStrip, true); } /** * Creates a new instance. * * @param maxFrameLength * the maximum length of the frame. If the length of the frame is * greater than this value, {@link TooLongFrameException} will be * thrown. * @param lengthFieldOffset * the offset of the length field * @param lengthFieldLength * the length of the length field * @param lengthAdjustment * the compensation value to add to the value of the length field * @param initialBytesToStrip * the number of first bytes to strip out from the decoded frame * @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. */ public LengthFieldBasedFrameDecoder( int maxFrameLength, int lengthFieldOffset, int lengthFieldLength, int lengthAdjustment, int initialBytesToStrip, boolean failFast) { this( ByteOrder.BIG_ENDIAN, maxFrameLength, lengthFieldOffset, lengthFieldLength, lengthAdjustment, initialBytesToStrip, failFast); } /** * Creates a new instance. * * @param byteOrder * the {@link ByteOrder} of the length field * @param maxFrameLength * the maximum length of the frame. If the length of the frame is * greater than this value, {@link TooLongFrameException} will be * thrown. * @param lengthFieldOffset * the offset of the length field * @param lengthFieldLength * the length of the length field * @param lengthAdjustment * the compensation value to add to the value of the length field * @param initialBytesToStrip * the number of first bytes to strip out from the decoded frame * @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. */ public LengthFieldBasedFrameDecoder( ByteOrder byteOrder, int maxFrameLength, int lengthFieldOffset, int lengthFieldLength, int lengthAdjustment, int initialBytesToStrip, boolean failFast) { if (byteOrder == null) { throw new NullPointerException("byteOrder"); } if (maxFrameLength <= 0) { throw new IllegalArgumentException( "maxFrameLength must be a positive integer: " + maxFrameLength); } if (lengthFieldOffset < 0) { throw new IllegalArgumentException( "lengthFieldOffset must be a non-negative integer: " + lengthFieldOffset); } if (initialBytesToStrip < 0) { throw new IllegalArgumentException( "initialBytesToStrip must be a non-negative integer: " + initialBytesToStrip); } if (lengthFieldOffset > maxFrameLength - lengthFieldLength) { throw new IllegalArgumentException( "maxFrameLength (" + maxFrameLength + ") " + "must be equal to or greater than " + "lengthFieldOffset (" + lengthFieldOffset + ") + " + "lengthFieldLength (" + lengthFieldLength + ")."); } this.byteOrder = byteOrder; this.maxFrameLength = maxFrameLength; this.lengthFieldOffset = lengthFieldOffset; this.lengthFieldLength = lengthFieldLength; this.lengthAdjustment = lengthAdjustment; lengthFieldEndOffset = lengthFieldOffset + lengthFieldLength; this.initialBytesToStrip = initialBytesToStrip; this.failFast = failFast; } @Override protected final void decode(ChannelHandlerContext ctx, ByteBuf in, List out) throws Exception { Object decoded = decode(ctx, in); if (decoded != null) { out.add(decoded); } } private void discardingTooLongFrame(ByteBuf in) { long bytesToDiscard = this.bytesToDiscard; int localBytesToDiscard = (int) Math.min(bytesToDiscard, in.readableBytes()); in.skipBytes(localBytesToDiscard); bytesToDiscard -= localBytesToDiscard; this.bytesToDiscard = bytesToDiscard; failIfNecessary(false); } private static void failOnNegativeLengthField(ByteBuf in, long frameLength, int lengthFieldEndOffset) { in.skipBytes(lengthFieldEndOffset); throw new CorruptedFrameException( "negative pre-adjustment length field: " + frameLength); } private static void failOnFrameLengthLessThanLengthFieldEndOffset(ByteBuf in, long frameLength, int lengthFieldEndOffset) { in.skipBytes(lengthFieldEndOffset); throw new CorruptedFrameException( "Adjusted frame length (" + frameLength + ") is less " + "than lengthFieldEndOffset: " + lengthFieldEndOffset); } private void exceededFrameLength(ByteBuf in, long frameLength) { long discard = frameLength - in.readableBytes(); tooLongFrameLength = frameLength; if (discard < 0) { // buffer contains more bytes then the frameLength so we can discard all now in.skipBytes((int) frameLength); } else { // Enter the discard mode and discard everything received so far. discardingTooLongFrame = true; bytesToDiscard = discard; in.skipBytes(in.readableBytes()); } failIfNecessary(true); } private static void failOnFrameLengthLessThanInitialBytesToStrip(ByteBuf in, long frameLength, int initialBytesToStrip) { in.skipBytes((int) frameLength); throw new CorruptedFrameException( "Adjusted frame length (" + frameLength + ") is less " + "than initialBytesToStrip: " + initialBytesToStrip); } /** * Create a frame out of the {@link ByteBuf} and return it. * * @param ctx the {@link ChannelHandlerContext} which this {@link ByteToMessageDecoder} belongs to * @param in 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 in) throws Exception { if (discardingTooLongFrame) { discardingTooLongFrame(in); } if (in.readableBytes() < lengthFieldEndOffset) { return null; } int actualLengthFieldOffset = in.readerIndex() + lengthFieldOffset; long frameLength = getUnadjustedFrameLength(in, actualLengthFieldOffset, lengthFieldLength, byteOrder); if (frameLength < 0) { failOnNegativeLengthField(in, frameLength, lengthFieldEndOffset); } frameLength += lengthAdjustment + lengthFieldEndOffset; if (frameLength < lengthFieldEndOffset) { failOnFrameLengthLessThanLengthFieldEndOffset(in, frameLength, lengthFieldEndOffset); } if (frameLength > maxFrameLength) { exceededFrameLength(in, frameLength); return null; } // never overflows because it's less than maxFrameLength int frameLengthInt = (int) frameLength; if (in.readableBytes() < frameLengthInt) { return null; } if (initialBytesToStrip > frameLengthInt) { failOnFrameLengthLessThanInitialBytesToStrip(in, frameLength, initialBytesToStrip); } in.skipBytes(initialBytesToStrip); // extract frame int readerIndex = in.readerIndex(); int actualFrameLength = frameLengthInt - initialBytesToStrip; ByteBuf frame = extractFrame(ctx, in, readerIndex, actualFrameLength); in.readerIndex(readerIndex + actualFrameLength); return frame; } /** * Decodes the specified region of the buffer into an unadjusted frame length. The default implementation is * capable of decoding the specified region into an unsigned 8/16/24/32/64 bit integer. Override this method to * decode the length field encoded differently. Note that this method must not modify the state of the specified * buffer (e.g. {@code readerIndex}, {@code writerIndex}, and the content of the buffer.) * * @throws DecoderException if failed to decode the specified region */ protected long getUnadjustedFrameLength(ByteBuf buf, int offset, int length, ByteOrder order) { buf = buf.order(order); long frameLength; switch (length) { case 1: frameLength = buf.getUnsignedByte(offset); break; case 2: frameLength = buf.getUnsignedShort(offset); break; case 3: frameLength = buf.getUnsignedMedium(offset); break; case 4: frameLength = buf.getUnsignedInt(offset); break; case 8: frameLength = buf.getLong(offset); break; default: throw new DecoderException( "unsupported lengthFieldLength: " + lengthFieldLength + " (expected: 1, 2, 3, 4, or 8)"); } return frameLength; } private void failIfNecessary(boolean firstDetectionOfTooLongFrame) { if (bytesToDiscard == 0) { // Reset to the initial state and tell the handlers that // the frame was too large. long tooLongFrameLength = this.tooLongFrameLength; this.tooLongFrameLength = 0; discardingTooLongFrame = false; if (!failFast || firstDetectionOfTooLongFrame) { fail(tooLongFrameLength); } } else { // Keep discarding and notify handlers if necessary. if (failFast && firstDetectionOfTooLongFrame) { fail(tooLongFrameLength); } } } /** * Extract the sub-region of the specified buffer. *

* If you are sure that the frame and its content are not accessed after * the current {@link #decode(ChannelHandlerContext, ByteBuf)} * call returns, you can even avoid memory copy by returning the sliced * sub-region (i.e. return buffer.slice(index, length)). * It's often useful when you convert the extracted frame into an object. * Refer to the source code of {@link ObjectDecoder} to see how this method * is overridden to avoid memory copy. */ protected ByteBuf extractFrame(ChannelHandlerContext ctx, ByteBuf buffer, int index, int length) { return buffer.retainedSlice(index, length); } private void fail(long frameLength) { if (frameLength > 0) { throw new TooLongFrameException( "Adjusted frame length exceeds " + maxFrameLength + ": " + frameLength + " - discarded"); } else { throw new TooLongFrameException( "Adjusted frame length exceeds " + maxFrameLength + " - discarding"); } } }