com.arangodb.shaded.netty.handler.codec.http2.Http2MultiplexHandler Maven / Gradle / Ivy
/*
* Copyright 2019 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 com.arangodb.shaded.netty.handler.codec.http2;
import com.arangodb.shaded.netty.buffer.ByteBuf;
import com.arangodb.shaded.netty.channel.Channel;
import com.arangodb.shaded.netty.channel.ChannelConfig;
import com.arangodb.shaded.netty.channel.ChannelFuture;
import com.arangodb.shaded.netty.channel.ChannelFutureListener;
import com.arangodb.shaded.netty.channel.ChannelHandler;
import com.arangodb.shaded.netty.channel.ChannelHandlerContext;
import com.arangodb.shaded.netty.channel.ChannelPipeline;
import com.arangodb.shaded.netty.channel.EventLoop;
import com.arangodb.shaded.netty.channel.ServerChannel;
import com.arangodb.shaded.netty.handler.codec.http2.Http2FrameCodec.DefaultHttp2FrameStream;
import com.arangodb.shaded.netty.util.ReferenceCounted;
import com.arangodb.shaded.netty.util.internal.ObjectUtil;
import com.arangodb.shaded.netty.util.internal.UnstableApi;
import javax.net.ssl.SSLException;
import java.util.ArrayDeque;
import java.util.Queue;
import static com.arangodb.shaded.netty.handler.codec.http2.Http2Error.INTERNAL_ERROR;
import static com.arangodb.shaded.netty.handler.codec.http2.Http2Exception.connectionError;
/**
* An HTTP/2 handler that creates child channels for each stream. This handler must be used in combination
* with {@link Http2FrameCodec}.
*
* When a new stream is created, a new {@link Channel} is created for it. Applications send and
* receive {@link Http2StreamFrame}s on the created channel. {@link ByteBuf}s cannot be processed by the channel;
* all writes that reach the head of the pipeline must be an instance of {@link Http2StreamFrame}. Writes that reach
* the head of the pipeline are processed directly by this handler and cannot be intercepted.
*
*
The child channel will be notified of user events that impact the stream, such as {@link
* Http2GoAwayFrame} and {@link Http2ResetFrame}, as soon as they occur. Although {@code
* Http2GoAwayFrame} and {@code Http2ResetFrame} signify that the remote is ignoring further
* communication, closing of the channel is delayed until any inbound queue is drained with {@link
* Channel#read()}, which follows the default behavior of channels in Netty. Applications are
* free to close the channel in response to such events if they don't have use for any queued
* messages. Any connection level events like {@link Http2SettingsFrame} and {@link Http2GoAwayFrame}
* will be processed internally and also propagated down the pipeline for other handlers to act on.
*
*
Outbound streams are supported via the {@link Http2StreamChannelBootstrap}.
*
*
{@link ChannelConfig#setMaxMessagesPerRead(int)} and {@link ChannelConfig#setAutoRead(boolean)} are supported.
*
*
Reference Counting
*
* Some {@link Http2StreamFrame}s implement the {@link ReferenceCounted} interface, as they carry
* reference counted objects (e.g. {@link ByteBuf}s). The multiplex codec will call {@link ReferenceCounted#retain()}
* before propagating a reference counted object through the pipeline, and thus an application handler needs to release
* such an object after having consumed it. For more information on reference counting take a look at
* https://netty.io/wiki/reference-counted-objects.html
*
* Channel Events
*
* A child channel becomes active as soon as it is registered to an {@link EventLoop}. Therefore, an active channel
* does not map to an active HTTP/2 stream immediately. Only once a {@link Http2HeadersFrame} has been successfully sent
* or received, does the channel map to an active HTTP/2 stream. In case it is not possible to open a new HTTP/2 stream
* (i.e. due to the maximum number of active streams being exceeded), the child channel receives an exception
* indicating the cause and is closed immediately thereafter.
*
* Writability and Flow Control
*
* A child channel observes outbound/remote flow control via the channel's writability. A channel only becomes writable
* when it maps to an active HTTP/2 stream . A child channel does not know about the connection-level flow control
* window. {@link ChannelHandler}s are free to ignore the channel's writability, in which case the excessive writes will
* be buffered by the parent channel. It's important to note that only {@link Http2DataFrame}s are subject to
* HTTP/2 flow control.
*/
@UnstableApi
public final class Http2MultiplexHandler extends Http2ChannelDuplexHandler {
static final ChannelFutureListener CHILD_CHANNEL_REGISTRATION_LISTENER = new ChannelFutureListener() {
@Override
public void operationComplete(ChannelFuture future) {
registerDone(future);
}
};
private final ChannelHandler inboundStreamHandler;
private final ChannelHandler upgradeStreamHandler;
private final Queue readCompletePendingQueue =
new MaxCapacityQueue(new ArrayDeque(8),
// Choose 100 which is what is used most of the times as default.
Http2CodecUtil.SMALLEST_MAX_CONCURRENT_STREAMS);
private boolean parentReadInProgress;
private int idCount;
// Need to be volatile as accessed from within the Http2MultiplexHandlerStreamChannel in a multi-threaded fashion.
private volatile ChannelHandlerContext ctx;
/**
* Creates a new instance
*
* @param inboundStreamHandler the {@link ChannelHandler} that will be added to the {@link ChannelPipeline} of
* the {@link Channel}s created for new inbound streams.
*/
public Http2MultiplexHandler(ChannelHandler inboundStreamHandler) {
this(inboundStreamHandler, null);
}
/**
* Creates a new instance
*
* @param inboundStreamHandler the {@link ChannelHandler} that will be added to the {@link ChannelPipeline} of
* the {@link Channel}s created for new inbound streams.
* @param upgradeStreamHandler the {@link ChannelHandler} that will be added to the {@link ChannelPipeline} of the
* upgraded {@link Channel}.
*/
public Http2MultiplexHandler(ChannelHandler inboundStreamHandler, ChannelHandler upgradeStreamHandler) {
this.inboundStreamHandler = ObjectUtil.checkNotNull(inboundStreamHandler, "inboundStreamHandler");
this.upgradeStreamHandler = upgradeStreamHandler;
}
static void registerDone(ChannelFuture future) {
// Handle any errors that occurred on the local thread while registering. Even though
// failures can happen after this point, they will be handled by the channel by closing the
// childChannel.
if (!future.isSuccess()) {
Channel childChannel = future.channel();
if (childChannel.isRegistered()) {
childChannel.close();
} else {
childChannel.unsafe().closeForcibly();
}
}
}
@Override
protected void handlerAdded0(ChannelHandlerContext ctx) {
if (ctx.executor() != ctx.channel().eventLoop()) {
throw new IllegalStateException("EventExecutor must be EventLoop of Channel");
}
this.ctx = ctx;
}
@Override
protected void handlerRemoved0(ChannelHandlerContext ctx) {
readCompletePendingQueue.clear();
}
@Override
public void channelRead(ChannelHandlerContext ctx, Object msg) throws Exception {
parentReadInProgress = true;
if (msg instanceof Http2StreamFrame) {
if (msg instanceof Http2WindowUpdateFrame) {
// We dont want to propagate update frames to the user
return;
}
Http2StreamFrame streamFrame = (Http2StreamFrame) msg;
DefaultHttp2FrameStream s =
(DefaultHttp2FrameStream) streamFrame.stream();
AbstractHttp2StreamChannel channel = (AbstractHttp2StreamChannel) s.attachment;
if (msg instanceof Http2ResetFrame) {
// Reset frames needs to be propagated via user events as these are not flow-controlled and so
// must not be controlled by suppressing channel.read() on the child channel.
channel.pipeline().fireUserEventTriggered(msg);
// RST frames will also trigger closing of the streams which then will call
// AbstractHttp2StreamChannel.streamClosed()
} else {
channel.fireChildRead(streamFrame);
}
return;
}
if (msg instanceof Http2GoAwayFrame) {
// goaway frames will also trigger closing of the streams which then will call
// AbstractHttp2StreamChannel.streamClosed()
onHttp2GoAwayFrame(ctx, (Http2GoAwayFrame) msg);
}
// Send everything down the pipeline
ctx.fireChannelRead(msg);
}
@Override
public void channelWritabilityChanged(final ChannelHandlerContext ctx) throws Exception {
if (ctx.channel().isWritable()) {
// While the writability state may change during iterating of the streams we just set all of the streams
// to writable to not affect fairness. These will be "limited" by their own watermarks in any case.
forEachActiveStream(AbstractHttp2StreamChannel.WRITABLE_VISITOR);
}
ctx.fireChannelWritabilityChanged();
}
@Override
public void userEventTriggered(ChannelHandlerContext ctx, Object evt) throws Exception {
if (evt instanceof Http2FrameStreamEvent) {
Http2FrameStreamEvent event = (Http2FrameStreamEvent) evt;
DefaultHttp2FrameStream stream = (DefaultHttp2FrameStream) event.stream();
if (event.type() == Http2FrameStreamEvent.Type.State) {
switch (stream.state()) {
case HALF_CLOSED_LOCAL:
if (stream.id() != Http2CodecUtil.HTTP_UPGRADE_STREAM_ID) {
// Ignore everything which was not caused by an upgrade
break;
}
// fall-through
case HALF_CLOSED_REMOTE:
// fall-through
case OPEN:
if (stream.attachment != null) {
// ignore if child channel was already created.
break;
}
final AbstractHttp2StreamChannel ch;
// We need to handle upgrades special when on the client side.
if (stream.id() == Http2CodecUtil.HTTP_UPGRADE_STREAM_ID && !isServer(ctx)) {
// We must have an upgrade handler or else we can't handle the stream
if (upgradeStreamHandler == null) {
throw connectionError(INTERNAL_ERROR,
"Client is misconfigured for upgrade requests");
}
ch = new Http2MultiplexHandlerStreamChannel(stream, upgradeStreamHandler);
ch.closeOutbound();
} else {
ch = new Http2MultiplexHandlerStreamChannel(stream, inboundStreamHandler);
}
ChannelFuture future = ctx.channel().eventLoop().register(ch);
if (future.isDone()) {
registerDone(future);
} else {
future.addListener(CHILD_CHANNEL_REGISTRATION_LISTENER);
}
break;
case CLOSED:
AbstractHttp2StreamChannel channel = (AbstractHttp2StreamChannel) stream.attachment;
if (channel != null) {
channel.streamClosed();
}
break;
default:
// ignore for now
break;
}
}
return;
}
ctx.fireUserEventTriggered(evt);
}
// TODO: This is most likely not the best way to expose this, need to think more about it.
Http2StreamChannel newOutboundStream() {
return new Http2MultiplexHandlerStreamChannel((DefaultHttp2FrameStream) newStream(), null);
}
@Override
public void exceptionCaught(ChannelHandlerContext ctx, final Throwable cause) throws Exception {
if (cause instanceof Http2FrameStreamException) {
Http2FrameStreamException exception = (Http2FrameStreamException) cause;
Http2FrameStream stream = exception.stream();
AbstractHttp2StreamChannel childChannel = (AbstractHttp2StreamChannel)
((DefaultHttp2FrameStream) stream).attachment;
try {
childChannel.pipeline().fireExceptionCaught(cause.getCause());
} finally {
// Close with the correct error that causes this stream exception.
// See https://github.com/netty/netty/issues/13235#issuecomment-1441994672
childChannel.closeWithError(exception.error());
}
return;
}
if (cause instanceof Http2MultiplexActiveStreamsException) {
// Unwrap the cause that was used to create it and fire it for all the active streams.
fireExceptionCaughtForActiveStream(cause.getCause());
return;
}
if (cause.getCause() instanceof SSLException) {
fireExceptionCaughtForActiveStream(cause);
}
ctx.fireExceptionCaught(cause);
}
private void fireExceptionCaughtForActiveStream(final Throwable cause) throws Http2Exception {
forEachActiveStream(new Http2FrameStreamVisitor() {
@Override
public boolean visit(Http2FrameStream stream) {
AbstractHttp2StreamChannel childChannel = (AbstractHttp2StreamChannel)
((DefaultHttp2FrameStream) stream).attachment;
childChannel.pipeline().fireExceptionCaught(cause);
return true;
}
});
}
private static boolean isServer(ChannelHandlerContext ctx) {
return ctx.channel().parent() instanceof ServerChannel;
}
private void onHttp2GoAwayFrame(ChannelHandlerContext ctx, final Http2GoAwayFrame goAwayFrame) {
if (goAwayFrame.lastStreamId() == Integer.MAX_VALUE) {
// None of the streams can have an id greater than Integer.MAX_VALUE
return;
}
// Notify which streams were not processed by the remote peer and are safe to retry on another connection:
try {
final boolean server = isServer(ctx);
forEachActiveStream(new Http2FrameStreamVisitor() {
@Override
public boolean visit(Http2FrameStream stream) {
final int streamId = stream.id();
if (streamId > goAwayFrame.lastStreamId() && Http2CodecUtil.isStreamIdValid(streamId, server)) {
final AbstractHttp2StreamChannel childChannel = (AbstractHttp2StreamChannel)
((DefaultHttp2FrameStream) stream).attachment;
childChannel.pipeline().fireUserEventTriggered(goAwayFrame.retainedDuplicate());
}
return true;
}
});
} catch (Http2Exception e) {
ctx.fireExceptionCaught(e);
ctx.close();
}
}
/**
* Notifies any child streams of the read completion.
*/
@Override
public void channelReadComplete(ChannelHandlerContext ctx) throws Exception {
processPendingReadCompleteQueue();
ctx.fireChannelReadComplete();
}
private void processPendingReadCompleteQueue() {
parentReadInProgress = true;
// If we have many child channel we can optimize for the case when multiple call flush() in
// channelReadComplete(...) callbacks and only do it once as otherwise we will end-up with multiple
// write calls on the socket which is expensive.
AbstractHttp2StreamChannel childChannel = readCompletePendingQueue.poll();
if (childChannel != null) {
try {
do {
childChannel.fireChildReadComplete();
childChannel = readCompletePendingQueue.poll();
} while (childChannel != null);
} finally {
parentReadInProgress = false;
readCompletePendingQueue.clear();
ctx.flush();
}
} else {
parentReadInProgress = false;
}
}
private final class Http2MultiplexHandlerStreamChannel extends AbstractHttp2StreamChannel {
Http2MultiplexHandlerStreamChannel(DefaultHttp2FrameStream stream, ChannelHandler inboundHandler) {
super(stream, ++idCount, inboundHandler);
}
@Override
protected boolean isParentReadInProgress() {
return parentReadInProgress;
}
@Override
protected void addChannelToReadCompletePendingQueue() {
// If there is no space left in the queue, just keep on processing everything that is already
// stored there and try again.
while (!readCompletePendingQueue.offer(this)) {
processPendingReadCompleteQueue();
}
}
@Override
protected ChannelHandlerContext parentContext() {
return ctx;
}
}
}