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/*
 * Copyright 2016 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.http2;

import io.netty.buffer.ByteBuf;
import io.netty.channel.Channel;
import io.netty.channel.ChannelFuture;
import io.netty.channel.ChannelFutureListener;
import io.netty.channel.ChannelHandlerContext;
import io.netty.channel.ChannelInboundHandler;
import io.netty.channel.ChannelPromise;
import io.netty.handler.codec.UnsupportedMessageTypeException;
import io.netty.handler.codec.http.HttpServerUpgradeHandler.UpgradeEvent;
import io.netty.handler.codec.http2.Http2Connection.PropertyKey;
import io.netty.handler.codec.http2.Http2Stream.State;
import io.netty.handler.codec.http2.StreamBufferingEncoder.Http2ChannelClosedException;
import io.netty.handler.codec.http2.StreamBufferingEncoder.Http2GoAwayException;
import io.netty.util.ReferenceCountUtil;
import io.netty.util.ReferenceCounted;
import io.netty.util.collection.IntObjectHashMap;
import io.netty.util.collection.IntObjectMap;
import io.netty.util.internal.UnstableApi;
import io.netty.util.internal.logging.InternalLogLevel;
import io.netty.util.internal.logging.InternalLogger;
import io.netty.util.internal.logging.InternalLoggerFactory;

import static io.netty.buffer.ByteBufUtil.writeAscii;
import static io.netty.handler.codec.http2.Http2CodecUtil.HTTP_UPGRADE_STREAM_ID;
import static io.netty.handler.codec.http2.Http2CodecUtil.isStreamIdValid;
import static io.netty.handler.codec.http2.Http2Error.NO_ERROR;

/**
 * 

This API is very immature. The Http2Connection-based API is currently preferred over this API. * This API is targeted to eventually replace or reduce the need for the {@link Http2ConnectionHandler} API. * *

An HTTP/2 handler that maps HTTP/2 frames to {@link Http2Frame} objects and vice versa. For every incoming HTTP/2 * frame, an {@link Http2Frame} object is created and propagated via {@link #channelRead}. Outbound {@link Http2Frame} * objects received via {@link #write} are converted to the HTTP/2 wire format. HTTP/2 frames specific to a stream * implement the {@link Http2StreamFrame} interface. The {@link Http2FrameCodec} is instantiated using the * {@link Http2FrameCodecBuilder}. It's recommended for channel handlers to inherit from the * {@link Http2ChannelDuplexHandler}, as it provides additional functionality like iterating over all active streams or * creating outbound streams. * *

Stream Lifecycle

* * The frame codec delivers and writes frames for active streams. An active stream is closed when either side sends a * {@code RST_STREAM} frame or both sides send a frame with the {@code END_STREAM} flag set. Each * {@link Http2StreamFrame} has a {@link Http2FrameStream} object attached that uniquely identifies a particular stream. * *

{@link Http2StreamFrame}s read from the channel always a {@link Http2FrameStream} object set, while when writing a * {@link Http2StreamFrame} the application code needs to set a {@link Http2FrameStream} object using * {@link Http2StreamFrame#stream(Http2FrameStream)}. * *

Flow control

* * The frame codec automatically increments stream and connection flow control windows. * *

Incoming flow controlled frames need to be consumed by writing a {@link Http2WindowUpdateFrame} with the consumed * number of bytes and the corresponding stream identifier set to the frame codec. * *

The local stream-level flow control window can be changed by writing a {@link Http2SettingsFrame} with the * {@link Http2Settings#initialWindowSize()} set to the targeted value. * *

The connection-level flow control window can be changed by writing a {@link Http2WindowUpdateFrame} with the * desired window size increment in bytes and the stream identifier set to {@code 0}. By default the initial * connection-level flow control window is the same as initial stream-level flow control window. * *

New inbound Streams

* * The first frame of an HTTP/2 stream must be an {@link Http2HeadersFrame}, which will have an {@link Http2FrameStream} * object attached. * *

New outbound Streams

* * A outbound HTTP/2 stream can be created by first instantiating a new {@link Http2FrameStream} object via * {@link Http2ChannelDuplexHandler#newStream()}, and then writing a {@link Http2HeadersFrame} object with the stream * attached. * *
 *     final Http2Stream2 stream = handler.newStream();
 *     ctx.write(headersFrame.stream(stream)).addListener(new ChannelFutureListener() {
 *
 *         @Override
 *         public void operationComplete(ChannelFuture f) {
 *             if (f.isSuccess()) {
 *                 // Stream is active and stream.id() returns a valid stream identifier.
 *                 System.out.println("New stream with id " + stream.id() + " created.");
 *             } else {
 *                 // Stream failed to become active. Handle error.
 *                 if (f.cause() instanceof Http2NoMoreStreamIdsException) {
 *
 *                 } else if (f.cause() instanceof Http2GoAwayException) {
 *
 *                 } else {
 *
 *                 }
 *             }
 *         }
 *     }
 * 
* *

If a new stream cannot be created due to stream id exhaustion of the endpoint, the {@link ChannelPromise} of the * HEADERS frame will fail with a {@link Http2NoMoreStreamIdsException}. * *

The HTTP/2 standard allows for an endpoint to limit the maximum number of concurrently active streams via the * {@code SETTINGS_MAX_CONCURRENT_STREAMS} setting. When this limit is reached, no new streams can be created. However, * the {@link Http2FrameCodec} can be build with * {@link Http2FrameCodecBuilder#encoderEnforceMaxConcurrentStreams(boolean)} enabled, in which case a new stream and * its associated frames will be buffered until either the limit is increased or an active stream is closed. It's, * however, possible that a buffered stream will never become active. That is, the channel might * get closed or a GO_AWAY frame might be received. In the first case, all writes of buffered streams will fail with a * {@link Http2ChannelClosedException}. In the second case, all writes of buffered streams with an identifier less than * the last stream identifier of the GO_AWAY frame will fail with a {@link Http2GoAwayException}. * *

Error Handling

* * Exceptions and errors are propagated via {@link ChannelInboundHandler#exceptionCaught}. Exceptions that apply to * a specific HTTP/2 stream are wrapped in a {@link Http2FrameStreamException} and have the corresponding * {@link Http2FrameStream} object attached. * *

Reference Counting

* * Some {@link Http2StreamFrame}s implement the {@link ReferenceCounted} interface, as they carry * reference counted objects (e.g. {@link ByteBuf}s). The frame 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 * *

HTTP Upgrade

* * Server-side HTTP to HTTP/2 upgrade is supported in conjunction with {@link Http2ServerUpgradeCodec}; the necessary * HTTP-to-HTTP/2 conversion is performed automatically. */ @UnstableApi public class Http2FrameCodec extends Http2ConnectionHandler { private static final InternalLogger LOG = InternalLoggerFactory.getInstance(Http2FrameCodec.class); protected final PropertyKey streamKey; private final PropertyKey upgradeKey; private final Integer initialFlowControlWindowSize; ChannelHandlerContext ctx; /** Number of buffered streams if the {@link StreamBufferingEncoder} is used. **/ private int numBufferedStreams; private final IntObjectMap frameStreamToInitializeMap = new IntObjectHashMap(8); Http2FrameCodec(Http2ConnectionEncoder encoder, Http2ConnectionDecoder decoder, Http2Settings initialSettings, boolean decoupleCloseAndGoAway) { super(decoder, encoder, initialSettings, decoupleCloseAndGoAway); decoder.frameListener(new FrameListener()); connection().addListener(new ConnectionListener()); connection().remote().flowController().listener(new Http2RemoteFlowControllerListener()); streamKey = connection().newKey(); upgradeKey = connection().newKey(); initialFlowControlWindowSize = initialSettings.initialWindowSize(); } /** * Creates a new outbound/local stream. */ DefaultHttp2FrameStream newStream() { return new DefaultHttp2FrameStream(); } /** * Iterates over all active HTTP/2 streams. * *

This method must not be called outside of the event loop. */ final void forEachActiveStream(final Http2FrameStreamVisitor streamVisitor) throws Http2Exception { assert ctx.executor().inEventLoop(); if (connection().numActiveStreams() > 0) { connection().forEachActiveStream(new Http2StreamVisitor() { @Override public boolean visit(Http2Stream stream) { try { return streamVisitor.visit((Http2FrameStream) stream.getProperty(streamKey)); } catch (Throwable cause) { onError(ctx, false, cause); return false; } } }); } } /** * Retrieve the number of streams currently in the process of being initialized. * * This is package-private for testing only. */ int numInitializingStreams() { return frameStreamToInitializeMap.size(); } @Override public final void handlerAdded(ChannelHandlerContext ctx) throws Exception { this.ctx = ctx; super.handlerAdded(ctx); handlerAdded0(ctx); // Must be after Http2ConnectionHandler does its initialization in handlerAdded above. // The server will not send a connection preface so we are good to send a window update. Http2Connection connection = connection(); if (connection.isServer()) { tryExpandConnectionFlowControlWindow(connection); } } private void tryExpandConnectionFlowControlWindow(Http2Connection connection) throws Http2Exception { if (initialFlowControlWindowSize != null) { // The window size in the settings explicitly excludes the connection window. So we manually manipulate the // connection window to accommodate more concurrent data per connection. Http2Stream connectionStream = connection.connectionStream(); Http2LocalFlowController localFlowController = connection.local().flowController(); final int delta = initialFlowControlWindowSize - localFlowController.initialWindowSize(connectionStream); // Only increase the connection window, don't decrease it. if (delta > 0) { // Double the delta just so a single stream can't exhaust the connection window. localFlowController.incrementWindowSize(connectionStream, Math.max(delta << 1, delta)); flush(ctx); } } } void handlerAdded0(@SuppressWarnings("unsed") ChannelHandlerContext ctx) throws Exception { // sub-class can override this for extra steps that needs to be done when the handler is added. } /** * Handles the cleartext HTTP upgrade event. If an upgrade occurred, sends a simple response via * HTTP/2 on stream 1 (the stream specifically reserved for cleartext HTTP upgrade). */ @Override public final void userEventTriggered(final ChannelHandlerContext ctx, final Object evt) throws Exception { if (evt == Http2ConnectionPrefaceAndSettingsFrameWrittenEvent.INSTANCE) { // The user event implies that we are on the client. tryExpandConnectionFlowControlWindow(connection()); // We schedule this on the EventExecutor to allow to have any extra handlers added to the pipeline // before we pass the event to the next handler. This is needed as the event may be called from within // handlerAdded(...) which will be run before other handlers will be added to the pipeline. ctx.executor().execute(new Runnable() { @Override public void run() { ctx.fireUserEventTriggered(evt); } }); } else if (evt instanceof UpgradeEvent) { UpgradeEvent upgrade = (UpgradeEvent) evt; try { onUpgradeEvent(ctx, upgrade.retain()); Http2Stream stream = connection().stream(HTTP_UPGRADE_STREAM_ID); if (stream.getProperty(streamKey) == null) { // TODO: improve handler/stream lifecycle so that stream isn't active before handler added. // The stream was already made active, but ctx may have been null so it wasn't initialized. // https://github.com/netty/netty/issues/4942 onStreamActive0(stream); } upgrade.upgradeRequest().headers().setInt( HttpConversionUtil.ExtensionHeaderNames.STREAM_ID.text(), HTTP_UPGRADE_STREAM_ID); stream.setProperty(upgradeKey, true); InboundHttpToHttp2Adapter.handle( ctx, connection(), decoder().frameListener(), upgrade.upgradeRequest().retain()); } finally { upgrade.release(); } } else { ctx.fireUserEventTriggered(evt); } } /** * Processes all {@link Http2Frame}s. {@link Http2StreamFrame}s may only originate in child * streams. */ @Override public void write(ChannelHandlerContext ctx, Object msg, ChannelPromise promise) { if (msg instanceof Http2DataFrame) { Http2DataFrame dataFrame = (Http2DataFrame) msg; encoder().writeData(ctx, dataFrame.stream().id(), dataFrame.content(), dataFrame.padding(), dataFrame.isEndStream(), promise); } else if (msg instanceof Http2HeadersFrame) { writeHeadersFrame(ctx, (Http2HeadersFrame) msg, promise); } else if (msg instanceof Http2WindowUpdateFrame) { Http2WindowUpdateFrame frame = (Http2WindowUpdateFrame) msg; Http2FrameStream frameStream = frame.stream(); // It is legit to send a WINDOW_UPDATE frame for the connection stream. The parent channel doesn't attempt // to set the Http2FrameStream so we assume if it is null the WINDOW_UPDATE is for the connection stream. try { if (frameStream == null) { increaseInitialConnectionWindow(frame.windowSizeIncrement()); } else { consumeBytes(frameStream.id(), frame.windowSizeIncrement()); } promise.setSuccess(); } catch (Throwable t) { promise.setFailure(t); } } else if (msg instanceof Http2ResetFrame) { Http2ResetFrame rstFrame = (Http2ResetFrame) msg; int id = rstFrame.stream().id(); // Only ever send a reset frame if stream may have existed before as otherwise we may send a RST on a // stream in an invalid state and cause a connection error. if (connection().streamMayHaveExisted(id)) { encoder().writeRstStream(ctx, rstFrame.stream().id(), rstFrame.errorCode(), promise); } else { ReferenceCountUtil.release(rstFrame); promise.setFailure(Http2Exception.streamError( rstFrame.stream().id(), Http2Error.PROTOCOL_ERROR, "Stream never existed")); } } else if (msg instanceof Http2PingFrame) { Http2PingFrame frame = (Http2PingFrame) msg; encoder().writePing(ctx, frame.ack(), frame.content(), promise); } else if (msg instanceof Http2SettingsFrame) { encoder().writeSettings(ctx, ((Http2SettingsFrame) msg).settings(), promise); } else if (msg instanceof Http2SettingsAckFrame) { // In the event of manual SETTINGS ACK is is assumed the encoder will apply the earliest received but not // yet ACKed settings. encoder().writeSettingsAck(ctx, promise); } else if (msg instanceof Http2GoAwayFrame) { writeGoAwayFrame(ctx, (Http2GoAwayFrame) msg, promise); } else if (msg instanceof Http2UnknownFrame) { Http2UnknownFrame unknownFrame = (Http2UnknownFrame) msg; encoder().writeFrame(ctx, unknownFrame.frameType(), unknownFrame.stream().id(), unknownFrame.flags(), unknownFrame.content(), promise); } else if (!(msg instanceof Http2Frame)) { ctx.write(msg, promise); } else { ReferenceCountUtil.release(msg); throw new UnsupportedMessageTypeException(msg); } } private void increaseInitialConnectionWindow(int deltaBytes) throws Http2Exception { // The LocalFlowController is responsible for detecting over/under flow. connection().local().flowController().incrementWindowSize(connection().connectionStream(), deltaBytes); } final boolean consumeBytes(int streamId, int bytes) throws Http2Exception { Http2Stream stream = connection().stream(streamId); // Upgraded requests are ineligible for stream control. We add the null check // in case the stream has been deregistered. if (stream != null && streamId == Http2CodecUtil.HTTP_UPGRADE_STREAM_ID) { Boolean upgraded = stream.getProperty(upgradeKey); if (Boolean.TRUE.equals(upgraded)) { return false; } } return connection().local().flowController().consumeBytes(stream, bytes); } private void writeGoAwayFrame(ChannelHandlerContext ctx, Http2GoAwayFrame frame, ChannelPromise promise) { if (frame.lastStreamId() > -1) { frame.release(); throw new IllegalArgumentException("Last stream id must not be set on GOAWAY frame"); } int lastStreamCreated = connection().remote().lastStreamCreated(); long lastStreamId = lastStreamCreated + ((long) frame.extraStreamIds()) * 2; // Check if the computation overflowed. if (lastStreamId > Integer.MAX_VALUE) { lastStreamId = Integer.MAX_VALUE; } goAway(ctx, (int) lastStreamId, frame.errorCode(), frame.content(), promise); } private void writeHeadersFrame( final ChannelHandlerContext ctx, Http2HeadersFrame headersFrame, final ChannelPromise promise) { if (isStreamIdValid(headersFrame.stream().id())) { encoder().writeHeaders(ctx, headersFrame.stream().id(), headersFrame.headers(), headersFrame.padding(), headersFrame.isEndStream(), promise); } else { final DefaultHttp2FrameStream stream = (DefaultHttp2FrameStream) headersFrame.stream(); final Http2Connection connection = connection(); final int streamId = connection.local().incrementAndGetNextStreamId(); if (streamId < 0) { promise.setFailure(new Http2NoMoreStreamIdsException()); // Simulate a GOAWAY being received due to stream exhaustion on this connection. We use the maximum // valid stream ID for the current peer. onHttp2Frame(ctx, new DefaultHttp2GoAwayFrame(connection.isServer() ? Integer.MAX_VALUE : Integer.MAX_VALUE - 1, NO_ERROR.code(), writeAscii(ctx.alloc(), "Stream IDs exhausted on local stream creation"))); return; } stream.id = streamId; // Use a Map to store all pending streams as we may have multiple. This is needed as if we would store the // stream in a field directly we may override the stored field before onStreamAdded(...) was called // and so not correctly set the property for the buffered stream. // // See https://github.com/netty/netty/issues/8692 Object old = frameStreamToInitializeMap.put(streamId, stream); // We should not re-use ids. assert old == null; encoder().writeHeaders(ctx, streamId, headersFrame.headers(), headersFrame.padding(), headersFrame.isEndStream(), promise); if (!promise.isDone()) { numBufferedStreams++; // Clean up the stream being initialized if writing the headers fails and also // decrement the number of buffered streams. promise.addListener(new ChannelFutureListener() { @Override public void operationComplete(ChannelFuture channelFuture) { numBufferedStreams--; handleHeaderFuture(channelFuture, streamId); } }); } else { handleHeaderFuture(promise, streamId); } } } private void handleHeaderFuture(ChannelFuture channelFuture, int streamId) { if (!channelFuture.isSuccess()) { frameStreamToInitializeMap.remove(streamId); } } private void onStreamActive0(Http2Stream stream) { if (stream.id() != Http2CodecUtil.HTTP_UPGRADE_STREAM_ID && connection().local().isValidStreamId(stream.id())) { return; } DefaultHttp2FrameStream stream2 = newStream().setStreamAndProperty(streamKey, stream); onHttp2StreamStateChanged(ctx, stream2); } private final class ConnectionListener extends Http2ConnectionAdapter { @Override public void onStreamAdded(Http2Stream stream) { DefaultHttp2FrameStream frameStream = frameStreamToInitializeMap.remove(stream.id()); if (frameStream != null) { frameStream.setStreamAndProperty(streamKey, stream); } } @Override public void onStreamActive(Http2Stream stream) { onStreamActive0(stream); } @Override public void onStreamClosed(Http2Stream stream) { onHttp2StreamStateChanged0(stream); } @Override public void onStreamHalfClosed(Http2Stream stream) { onHttp2StreamStateChanged0(stream); } private void onHttp2StreamStateChanged0(Http2Stream stream) { DefaultHttp2FrameStream stream2 = stream.getProperty(streamKey); if (stream2 != null) { onHttp2StreamStateChanged(ctx, stream2); } } } @Override protected void onConnectionError( ChannelHandlerContext ctx, boolean outbound, Throwable cause, Http2Exception http2Ex) { if (!outbound) { // allow the user to handle it first in the pipeline, and then automatically clean up. // If this is not desired behavior the user can override this method. // // We only forward non outbound errors as outbound errors will already be reflected by failing the promise. ctx.fireExceptionCaught(cause); } super.onConnectionError(ctx, outbound, cause, http2Ex); } /** * Exceptions for unknown streams, that is streams that have no {@link Http2FrameStream} object attached * are simply logged and replied to by sending a RST_STREAM frame. */ @Override protected final void onStreamError(ChannelHandlerContext ctx, boolean outbound, Throwable cause, Http2Exception.StreamException streamException) { int streamId = streamException.streamId(); Http2Stream connectionStream = connection().stream(streamId); if (connectionStream == null) { onHttp2UnknownStreamError(ctx, cause, streamException); // Write a RST_STREAM super.onStreamError(ctx, outbound, cause, streamException); return; } Http2FrameStream stream = connectionStream.getProperty(streamKey); if (stream == null) { LOG.warn("Stream exception thrown without stream object attached.", cause); // Write a RST_STREAM super.onStreamError(ctx, outbound, cause, streamException); return; } if (!outbound) { // We only forward non outbound errors as outbound errors will already be reflected by failing the promise. onHttp2FrameStreamException(ctx, new Http2FrameStreamException(stream, streamException.error(), cause)); } } private void onHttp2UnknownStreamError(@SuppressWarnings("unused") ChannelHandlerContext ctx, Throwable cause, Http2Exception.StreamException streamException) { // It is normal to hit a race condition where we still receive frames for a stream that this // peer has deemed closed, such as if this peer sends a RST(CANCEL) to discard the request. // Since this is likely to be normal we log at DEBUG level. InternalLogLevel level = streamException.error() == Http2Error.STREAM_CLOSED ? InternalLogLevel.DEBUG : InternalLogLevel.WARN; LOG.log(level, "Stream exception thrown for unknown stream {}.", streamException.streamId(), cause); } @Override protected final boolean isGracefulShutdownComplete() { return super.isGracefulShutdownComplete() && numBufferedStreams == 0; } private final class FrameListener implements Http2FrameListener { @Override public void onUnknownFrame( ChannelHandlerContext ctx, byte frameType, int streamId, Http2Flags flags, ByteBuf payload) { onHttp2Frame(ctx, new DefaultHttp2UnknownFrame(frameType, flags, payload) .stream(requireStream(streamId)).retain()); } @Override public void onSettingsRead(ChannelHandlerContext ctx, Http2Settings settings) { onHttp2Frame(ctx, new DefaultHttp2SettingsFrame(settings)); } @Override public void onPingRead(ChannelHandlerContext ctx, long data) { onHttp2Frame(ctx, new DefaultHttp2PingFrame(data, false)); } @Override public void onPingAckRead(ChannelHandlerContext ctx, long data) { onHttp2Frame(ctx, new DefaultHttp2PingFrame(data, true)); } @Override public void onRstStreamRead(ChannelHandlerContext ctx, int streamId, long errorCode) { onHttp2Frame(ctx, new DefaultHttp2ResetFrame(errorCode).stream(requireStream(streamId))); } @Override public void onWindowUpdateRead(ChannelHandlerContext ctx, int streamId, int windowSizeIncrement) { if (streamId == 0) { // Ignore connection window updates. return; } onHttp2Frame(ctx, new DefaultHttp2WindowUpdateFrame(windowSizeIncrement).stream(requireStream(streamId))); } @Override public void onHeadersRead(ChannelHandlerContext ctx, int streamId, Http2Headers headers, int streamDependency, short weight, boolean exclusive, int padding, boolean endStream) { onHeadersRead(ctx, streamId, headers, padding, endStream); } @Override public void onHeadersRead(ChannelHandlerContext ctx, int streamId, Http2Headers headers, int padding, boolean endOfStream) { onHttp2Frame(ctx, new DefaultHttp2HeadersFrame(headers, endOfStream, padding) .stream(requireStream(streamId))); } @Override public int onDataRead(ChannelHandlerContext ctx, int streamId, ByteBuf data, int padding, boolean endOfStream) { onHttp2Frame(ctx, new DefaultHttp2DataFrame(data, endOfStream, padding) .stream(requireStream(streamId)).retain()); // We return the bytes in consumeBytes() once the stream channel consumed the bytes. return 0; } @Override public void onGoAwayRead(ChannelHandlerContext ctx, int lastStreamId, long errorCode, ByteBuf debugData) { onHttp2Frame(ctx, new DefaultHttp2GoAwayFrame(lastStreamId, errorCode, debugData).retain()); } @Override public void onPriorityRead( ChannelHandlerContext ctx, int streamId, int streamDependency, short weight, boolean exclusive) { // TODO: Maybe handle me } @Override public void onSettingsAckRead(ChannelHandlerContext ctx) { onHttp2Frame(ctx, Http2SettingsAckFrame.INSTANCE); } @Override public void onPushPromiseRead( ChannelHandlerContext ctx, int streamId, int promisedStreamId, Http2Headers headers, int padding) { // TODO: Maybe handle me } private Http2FrameStream requireStream(int streamId) { Http2FrameStream stream = connection().stream(streamId).getProperty(streamKey); if (stream == null) { throw new IllegalStateException("Stream object required for identifier: " + streamId); } return stream; } } private void onUpgradeEvent(ChannelHandlerContext ctx, UpgradeEvent evt) { ctx.fireUserEventTriggered(evt); } private void onHttp2StreamWritabilityChanged(ChannelHandlerContext ctx, DefaultHttp2FrameStream stream, @SuppressWarnings("unused") boolean writable) { ctx.fireUserEventTriggered(stream.writabilityChanged); } void onHttp2StreamStateChanged(ChannelHandlerContext ctx, DefaultHttp2FrameStream stream) { ctx.fireUserEventTriggered(stream.stateChanged); } void onHttp2Frame(ChannelHandlerContext ctx, Http2Frame frame) { ctx.fireChannelRead(frame); } void onHttp2FrameStreamException(ChannelHandlerContext ctx, Http2FrameStreamException cause) { ctx.fireExceptionCaught(cause); } private final class Http2RemoteFlowControllerListener implements Http2RemoteFlowController.Listener { @Override public void writabilityChanged(Http2Stream stream) { DefaultHttp2FrameStream frameStream = stream.getProperty(streamKey); if (frameStream == null) { return; } onHttp2StreamWritabilityChanged( ctx, frameStream, connection().remote().flowController().isWritable(stream)); } } /** * {@link Http2FrameStream} implementation. */ // TODO(buchgr): Merge Http2FrameStream and Http2Stream. static class DefaultHttp2FrameStream implements Http2FrameStream { private volatile int id = -1; volatile Http2Stream stream; final Http2FrameStreamEvent stateChanged = Http2FrameStreamEvent.stateChanged(this); final Http2FrameStreamEvent writabilityChanged = Http2FrameStreamEvent.writabilityChanged(this); Channel attachment; DefaultHttp2FrameStream setStreamAndProperty(PropertyKey streamKey, Http2Stream stream) { assert id == -1 || stream.id() == id; this.stream = stream; stream.setProperty(streamKey, this); return this; } @Override public int id() { Http2Stream stream = this.stream; return stream == null ? id : stream.id(); } @Override public State state() { Http2Stream stream = this.stream; return stream == null ? State.IDLE : stream.state(); } @Override public String toString() { return String.valueOf(id()); } } }





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