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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 io.netty.handler.codec;

import io.netty.buffer.ByteBuf;
import io.netty.buffer.ByteBufHolder;
import io.netty.buffer.CompositeByteBuf;
import io.netty.channel.ChannelFuture;
import io.netty.channel.ChannelFutureListener;
import io.netty.channel.ChannelHandler;
import io.netty.channel.ChannelHandlerContext;
import io.netty.channel.ChannelPipeline;
import io.netty.util.ReferenceCountUtil;

import java.util.List;

import static io.netty.buffer.Unpooled.EMPTY_BUFFER;
import static io.netty.util.internal.ObjectUtil.checkPositiveOrZero;

/**
 * An abstract {@link ChannelHandler} that aggregates a series of message objects into a single aggregated message.
 * 

* 'A series of messages' is composed of the following: *

    *
  • a single start message which optionally contains the first part of the content, and
  • *
  • 1 or more content messages.
  • *
* The content of the aggregated message will be the merged content of the start message and its following content * messages. If this aggregator encounters a content message where {@link #isLastContentMessage(ByteBufHolder)} * return {@code true} for, the aggregator will finish the aggregation and produce the aggregated message and expect * another start message. *

* * @param the type that covers both start message and content message * @param the type of the start message * @param the type of the content message (must be a subtype of {@link ByteBufHolder}) * @param the type of the aggregated message (must be a subtype of {@code S} and {@link ByteBufHolder}) */ public abstract class MessageAggregator extends MessageToMessageDecoder { private static final int DEFAULT_MAX_COMPOSITEBUFFER_COMPONENTS = 1024; private final int maxContentLength; private O currentMessage; private boolean handlingOversizedMessage; private int maxCumulationBufferComponents = DEFAULT_MAX_COMPOSITEBUFFER_COMPONENTS; private ChannelHandlerContext ctx; private ChannelFutureListener continueResponseWriteListener; private boolean aggregating; /** * Creates a new instance. * * @param maxContentLength * the maximum length of the aggregated content. * If the length of the aggregated content exceeds this value, * {@link #handleOversizedMessage(ChannelHandlerContext, Object)} will be called. */ protected MessageAggregator(int maxContentLength) { validateMaxContentLength(maxContentLength); this.maxContentLength = maxContentLength; } protected MessageAggregator(int maxContentLength, Class inboundMessageType) { super(inboundMessageType); validateMaxContentLength(maxContentLength); this.maxContentLength = maxContentLength; } private static void validateMaxContentLength(int maxContentLength) { checkPositiveOrZero(maxContentLength, "maxContentLength"); } @Override public boolean acceptInboundMessage(Object msg) throws Exception { // No need to match last and full types because they are subset of first and middle types. if (!super.acceptInboundMessage(msg)) { return false; } @SuppressWarnings("unchecked") I in = (I) msg; if (isAggregated(in)) { return false; } // NOTE: It's tempting to make this check only if aggregating is false. There are however // side conditions in decode(...) in respect to large messages. if (isStartMessage(in)) { aggregating = true; return true; } else if (aggregating && isContentMessage(in)) { return true; } return false; } /** * Returns {@code true} if and only if the specified message is a start message. Typically, this method is * implemented as a single {@code return} statement with {@code instanceof}: *
     * return msg instanceof MyStartMessage;
     * 
*/ protected abstract boolean isStartMessage(I msg) throws Exception; /** * Returns {@code true} if and only if the specified message is a content message. Typically, this method is * implemented as a single {@code return} statement with {@code instanceof}: *
     * return msg instanceof MyContentMessage;
     * 
*/ protected abstract boolean isContentMessage(I msg) throws Exception; /** * Returns {@code true} if and only if the specified message is the last content message. Typically, this method is * implemented as a single {@code return} statement with {@code instanceof}: *
     * return msg instanceof MyLastContentMessage;
     * 
* or with {@code instanceof} and boolean field check: *
     * return msg instanceof MyContentMessage && msg.isLastFragment();
     * 
*/ protected abstract boolean isLastContentMessage(C msg) throws Exception; /** * Returns {@code true} if and only if the specified message is already aggregated. If this method returns * {@code true}, this handler will simply forward the message to the next handler as-is. */ protected abstract boolean isAggregated(I msg) throws Exception; /** * Returns the maximum allowed length of the aggregated message in bytes. */ public final int maxContentLength() { return maxContentLength; } /** * Returns the maximum number of components in the cumulation buffer. If the number of * the components in the cumulation buffer exceeds this value, the components of the * cumulation buffer are consolidated into a single component, involving memory copies. * The default value of this property is {@value #DEFAULT_MAX_COMPOSITEBUFFER_COMPONENTS}. */ public final int maxCumulationBufferComponents() { return maxCumulationBufferComponents; } /** * Sets the maximum number of components in the cumulation buffer. If the number of * the components in the cumulation buffer exceeds this value, the components of the * cumulation buffer are consolidated into a single component, involving memory copies. * The default value of this property is {@value #DEFAULT_MAX_COMPOSITEBUFFER_COMPONENTS} * and its minimum allowed value is {@code 2}. */ public final void setMaxCumulationBufferComponents(int maxCumulationBufferComponents) { if (maxCumulationBufferComponents < 2) { throw new IllegalArgumentException( "maxCumulationBufferComponents: " + maxCumulationBufferComponents + " (expected: >= 2)"); } if (ctx == null) { this.maxCumulationBufferComponents = maxCumulationBufferComponents; } else { throw new IllegalStateException( "decoder properties cannot be changed once the decoder is added to a pipeline."); } } /** * @deprecated This method will be removed in future releases. */ @Deprecated public final boolean isHandlingOversizedMessage() { return handlingOversizedMessage; } protected final ChannelHandlerContext ctx() { if (ctx == null) { throw new IllegalStateException("not added to a pipeline yet"); } return ctx; } @Override protected void decode(final ChannelHandlerContext ctx, I msg, List out) throws Exception { assert aggregating; if (isStartMessage(msg)) { handlingOversizedMessage = false; if (currentMessage != null) { currentMessage.release(); currentMessage = null; throw new MessageAggregationException(); } @SuppressWarnings("unchecked") S m = (S) msg; // Send the continue response if necessary (e.g. 'Expect: 100-continue' header) // Check before content length. Failing an expectation may result in a different response being sent. Object continueResponse = newContinueResponse(m, maxContentLength, ctx.pipeline()); if (continueResponse != null) { // Cache the write listener for reuse. ChannelFutureListener listener = continueResponseWriteListener; if (listener == null) { continueResponseWriteListener = listener = new ChannelFutureListener() { @Override public void operationComplete(ChannelFuture future) throws Exception { if (!future.isSuccess()) { ctx.fireExceptionCaught(future.cause()); } } }; } // Make sure to call this before writing, otherwise reference counts may be invalid. boolean closeAfterWrite = closeAfterContinueResponse(continueResponse); handlingOversizedMessage = ignoreContentAfterContinueResponse(continueResponse); final ChannelFuture future = ctx.writeAndFlush(continueResponse).addListener(listener); if (closeAfterWrite) { future.addListener(ChannelFutureListener.CLOSE); return; } if (handlingOversizedMessage) { return; } } else if (isContentLengthInvalid(m, maxContentLength)) { // if content length is set, preemptively close if it's too large invokeHandleOversizedMessage(ctx, m); return; } if (m instanceof DecoderResultProvider && !((DecoderResultProvider) m).decoderResult().isSuccess()) { O aggregated; if (m instanceof ByteBufHolder) { aggregated = beginAggregation(m, ((ByteBufHolder) m).content().retain()); } else { aggregated = beginAggregation(m, EMPTY_BUFFER); } finishAggregation0(aggregated); out.add(aggregated); return; } // A streamed message - initialize the cumulative buffer, and wait for incoming chunks. CompositeByteBuf content = ctx.alloc().compositeBuffer(maxCumulationBufferComponents); if (m instanceof ByteBufHolder) { appendPartialContent(content, ((ByteBufHolder) m).content()); } currentMessage = beginAggregation(m, content); } else if (isContentMessage(msg)) { if (currentMessage == null) { // it is possible that a TooLongFrameException was already thrown but we can still discard data // until the begging of the next request/response. return; } // Merge the received chunk into the content of the current message. CompositeByteBuf content = (CompositeByteBuf) currentMessage.content(); @SuppressWarnings("unchecked") final C m = (C) msg; // Handle oversized message. if (content.readableBytes() > maxContentLength - m.content().readableBytes()) { // By convention, full message type extends first message type. @SuppressWarnings("unchecked") S s = (S) currentMessage; invokeHandleOversizedMessage(ctx, s); return; } // Append the content of the chunk. appendPartialContent(content, m.content()); // Give the subtypes a chance to merge additional information such as trailing headers. aggregate(currentMessage, m); final boolean last; if (m instanceof DecoderResultProvider) { DecoderResult decoderResult = ((DecoderResultProvider) m).decoderResult(); if (!decoderResult.isSuccess()) { if (currentMessage instanceof DecoderResultProvider) { ((DecoderResultProvider) currentMessage).setDecoderResult( DecoderResult.failure(decoderResult.cause())); } last = true; } else { last = isLastContentMessage(m); } } else { last = isLastContentMessage(m); } if (last) { finishAggregation0(currentMessage); // All done out.add(currentMessage); currentMessage = null; } } else { throw new MessageAggregationException(); } } private static void appendPartialContent(CompositeByteBuf content, ByteBuf partialContent) { if (partialContent.isReadable()) { content.addComponent(true, partialContent.retain()); } } /** * Determine if the message {@code start}'s content length is known, and if it greater than * {@code maxContentLength}. * @param start The message which may indicate the content length. * @param maxContentLength The maximum allowed content length. * @return {@code true} if the message {@code start}'s content length is known, and if it greater than * {@code maxContentLength}. {@code false} otherwise. */ protected abstract boolean isContentLengthInvalid(S start, int maxContentLength) throws Exception; /** * Returns the 'continue response' for the specified start message if necessary. For example, this method is * useful to handle an HTTP 100-continue header. * * @return the 'continue response', or {@code null} if there's no message to send */ protected abstract Object newContinueResponse(S start, int maxContentLength, ChannelPipeline pipeline) throws Exception; /** * Determine if the channel should be closed after the result of * {@link #newContinueResponse(Object, int, ChannelPipeline)} is written. * @param msg The return value from {@link #newContinueResponse(Object, int, ChannelPipeline)}. * @return {@code true} if the channel should be closed after the result of * {@link #newContinueResponse(Object, int, ChannelPipeline)} is written. {@code false} otherwise. */ protected abstract boolean closeAfterContinueResponse(Object msg) throws Exception; /** * Determine if all objects for the current request/response should be ignored or not. * Messages will stop being ignored the next time {@link #isContentMessage(Object)} returns {@code true}. * * @param msg The return value from {@link #newContinueResponse(Object, int, ChannelPipeline)}. * @return {@code true} if all objects for the current request/response should be ignored or not. * {@code false} otherwise. */ protected abstract boolean ignoreContentAfterContinueResponse(Object msg) throws Exception; /** * Creates a new aggregated message from the specified start message and the specified content. If the start * message implements {@link ByteBufHolder}, its content is appended to the specified {@code content}. * This aggregator will continue to append the received content to the specified {@code content}. */ protected abstract O beginAggregation(S start, ByteBuf content) throws Exception; /** * Transfers the information provided by the specified content message to the specified aggregated message. * Note that the content of the specified content message has been appended to the content of the specified * aggregated message already, so that you don't need to. Use this method to transfer the additional information * that the content message provides to {@code aggregated}. */ protected void aggregate(O aggregated, C content) throws Exception { } private void finishAggregation0(O aggregated) throws Exception { aggregating = false; finishAggregation(aggregated); } /** * Invoked when the specified {@code aggregated} message is about to be passed to the next handler in the pipeline. */ protected void finishAggregation(O aggregated) throws Exception { } private void invokeHandleOversizedMessage(ChannelHandlerContext ctx, S oversized) throws Exception { handlingOversizedMessage = true; currentMessage = null; try { handleOversizedMessage(ctx, oversized); } finally { // Release the message in case it is a full one. ReferenceCountUtil.release(oversized); } } /** * Invoked when an incoming request exceeds the maximum content length. The default behvaior is to trigger an * {@code exceptionCaught()} event with a {@link TooLongFrameException}. * * @param ctx the {@link ChannelHandlerContext} * @param oversized the accumulated message up to this point, whose type is {@code S} or {@code O} */ protected void handleOversizedMessage(ChannelHandlerContext ctx, S oversized) throws Exception { ctx.fireExceptionCaught( new TooLongFrameException("content length exceeded " + maxContentLength() + " bytes.")); } @Override public void channelReadComplete(ChannelHandlerContext ctx) throws Exception { // We might need keep reading the channel until the full message is aggregated. // // See https://github.com/netty/netty/issues/6583 if (currentMessage != null && !ctx.channel().config().isAutoRead()) { ctx.read(); } ctx.fireChannelReadComplete(); } @Override public void channelInactive(ChannelHandlerContext ctx) throws Exception { try { // release current message if it is not null as it may be a left-over super.channelInactive(ctx); } finally { releaseCurrentMessage(); } } @Override public void handlerAdded(ChannelHandlerContext ctx) throws Exception { this.ctx = ctx; } @Override public void handlerRemoved(ChannelHandlerContext ctx) throws Exception { try { super.handlerRemoved(ctx); } finally { // release current message if it is not null as it may be a left-over as there is not much more we can do in // this case releaseCurrentMessage(); } } private void releaseCurrentMessage() { if (currentMessage != null) { currentMessage.release(); currentMessage = null; handlingOversizedMessage = false; aggregating = false; } } }