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/*
 * Copyright 2014 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 io.netty.handler.codec.http2;

import io.netty.buffer.ByteBuf;
import io.netty.channel.ChannelFuture;
import io.netty.channel.ChannelPromise;
import io.netty.handler.codec.http2.Http2Stream.State;
import io.netty.util.collection.IntObjectHashMap;
import io.netty.util.collection.IntObjectMap;
import io.netty.util.collection.IntObjectMap.PrimitiveEntry;
import io.netty.util.concurrent.Future;
import io.netty.util.concurrent.Promise;
import io.netty.util.concurrent.PromiseNotifier;
import io.netty.util.internal.EmptyArrays;
import io.netty.util.internal.logging.InternalLogger;
import io.netty.util.internal.logging.InternalLoggerFactory;

import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Iterator;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Queue;
import java.util.Set;

import static io.netty.handler.codec.http2.Http2CodecUtil.CONNECTION_STREAM_ID;
import static io.netty.handler.codec.http2.Http2CodecUtil.DEFAULT_MAX_RESERVED_STREAMS;
import static io.netty.handler.codec.http2.Http2Error.INTERNAL_ERROR;
import static io.netty.handler.codec.http2.Http2Error.PROTOCOL_ERROR;
import static io.netty.handler.codec.http2.Http2Error.REFUSED_STREAM;
import static io.netty.handler.codec.http2.Http2Exception.closedStreamError;
import static io.netty.handler.codec.http2.Http2Exception.connectionError;
import static io.netty.handler.codec.http2.Http2Exception.streamError;
import static io.netty.handler.codec.http2.Http2Stream.State.CLOSED;
import static io.netty.handler.codec.http2.Http2Stream.State.HALF_CLOSED_LOCAL;
import static io.netty.handler.codec.http2.Http2Stream.State.HALF_CLOSED_REMOTE;
import static io.netty.handler.codec.http2.Http2Stream.State.IDLE;
import static io.netty.handler.codec.http2.Http2Stream.State.OPEN;
import static io.netty.handler.codec.http2.Http2Stream.State.RESERVED_LOCAL;
import static io.netty.handler.codec.http2.Http2Stream.State.RESERVED_REMOTE;
import static io.netty.util.internal.ObjectUtil.checkNotNull;
import static io.netty.util.internal.ObjectUtil.checkPositiveOrZero;
import static java.lang.Integer.MAX_VALUE;

/**
 * Simple implementation of {@link Http2Connection}.
 */
public class DefaultHttp2Connection implements Http2Connection {
    private static final InternalLogger logger = InternalLoggerFactory.getInstance(DefaultHttp2Connection.class);
    // Fields accessed by inner classes
    final IntObjectMap streamMap = new IntObjectHashMap();
    final PropertyKeyRegistry propertyKeyRegistry = new PropertyKeyRegistry();
    final ConnectionStream connectionStream = new ConnectionStream();
    final DefaultEndpoint localEndpoint;
    final DefaultEndpoint remoteEndpoint;

    /**
     * We chose a {@link List} over a {@link Set} to avoid allocating an {@link Iterator} objects when iterating over
     * the listeners.
     * 

* Initial size of 4 because the default configuration currently has 3 listeners * (local/remote flow controller and {@link StreamByteDistributor}) and we leave room for 1 extra. * We could be more aggressive but the ArrayList resize will double the size if we are too small. */ final List listeners = new ArrayList(4); final ActiveStreams activeStreams; Promise closePromise; /** * Creates a new connection with the given settings. * @param server whether or not this end-point is the server-side of the HTTP/2 connection. */ public DefaultHttp2Connection(boolean server) { this(server, DEFAULT_MAX_RESERVED_STREAMS); } /** * Creates a new connection with the given settings. * @param server whether or not this end-point is the server-side of the HTTP/2 connection. * @param maxReservedStreams The maximum amount of streams which can exist in the reserved state for each endpoint. */ public DefaultHttp2Connection(boolean server, int maxReservedStreams) { activeStreams = new ActiveStreams(listeners); // Reserved streams are excluded from the SETTINGS_MAX_CONCURRENT_STREAMS limit according to [1] and the RFC // doesn't define a way to communicate the limit on reserved streams. We rely upon the peer to send RST_STREAM // in response to any locally enforced limits being exceeded [2]. // [1] https://tools.ietf.org/html/rfc7540#section-5.1.2 // [2] https://tools.ietf.org/html/rfc7540#section-8.2.2 localEndpoint = new DefaultEndpoint(server, server ? MAX_VALUE : maxReservedStreams); remoteEndpoint = new DefaultEndpoint(!server, maxReservedStreams); // Add the connection stream to the map. streamMap.put(connectionStream.id(), connectionStream); } /** * Determine if {@link #close(Promise)} has been called and no more streams are allowed to be created. */ final boolean isClosed() { return closePromise != null; } @Override public Future close(final Promise promise) { checkNotNull(promise, "promise"); // Since we allow this method to be called multiple times, we must make sure that all the promises are notified // when all streams are removed and the close operation completes. if (closePromise != null) { if (closePromise == promise) { // Do nothing } else if (promise instanceof ChannelPromise && ((ChannelFuture) closePromise).isVoid()) { closePromise = promise; } else { PromiseNotifier.cascade(closePromise, promise); } } else { closePromise = promise; } if (isStreamMapEmpty()) { promise.trySuccess(null); return promise; } Iterator> itr = streamMap.entries().iterator(); // We must take care while iterating the streamMap as to not modify while iterating in case there are other code // paths iterating over the active streams. if (activeStreams.allowModifications()) { activeStreams.incrementPendingIterations(); try { while (itr.hasNext()) { DefaultStream stream = (DefaultStream) itr.next().value(); if (stream.id() != CONNECTION_STREAM_ID) { // If modifications of the activeStream map is allowed, then a stream close operation will also // modify the streamMap. Pass the iterator in so that remove will be called to prevent // concurrent modification exceptions. stream.close(itr); } } } finally { activeStreams.decrementPendingIterations(); } } else { while (itr.hasNext()) { Http2Stream stream = itr.next().value(); if (stream.id() != CONNECTION_STREAM_ID) { // We are not allowed to make modifications, so the close calls will be executed after this // iteration completes. stream.close(); } } } return closePromise; } @Override public void addListener(Listener listener) { listeners.add(listener); } @Override public void removeListener(Listener listener) { listeners.remove(listener); } @Override public boolean isServer() { return localEndpoint.isServer(); } @Override public Http2Stream connectionStream() { return connectionStream; } @Override public Http2Stream stream(int streamId) { return streamMap.get(streamId); } @Override public boolean streamMayHaveExisted(int streamId) { return remoteEndpoint.mayHaveCreatedStream(streamId) || localEndpoint.mayHaveCreatedStream(streamId); } @Override public int numActiveStreams() { return activeStreams.size(); } @Override public Http2Stream forEachActiveStream(Http2StreamVisitor visitor) throws Http2Exception { return activeStreams.forEachActiveStream(visitor); } @Override public Endpoint local() { return localEndpoint; } @Override public Endpoint remote() { return remoteEndpoint; } @Override public boolean goAwayReceived() { return localEndpoint.lastStreamKnownByPeer >= 0; } @Override public void goAwayReceived(final int lastKnownStream, long errorCode, ByteBuf debugData) throws Http2Exception { if (localEndpoint.lastStreamKnownByPeer() >= 0 && localEndpoint.lastStreamKnownByPeer() < lastKnownStream) { throw connectionError(PROTOCOL_ERROR, "lastStreamId MUST NOT increase. Current value: %d new value: %d", localEndpoint.lastStreamKnownByPeer(), lastKnownStream); } localEndpoint.lastStreamKnownByPeer(lastKnownStream); for (int i = 0; i < listeners.size(); ++i) { try { listeners.get(i).onGoAwayReceived(lastKnownStream, errorCode, debugData); } catch (Throwable cause) { logger.error("Caught Throwable from listener onGoAwayReceived.", cause); } } closeStreamsGreaterThanLastKnownStreamId(lastKnownStream, localEndpoint); } @Override public boolean goAwaySent() { return remoteEndpoint.lastStreamKnownByPeer >= 0; } @Override public boolean goAwaySent(final int lastKnownStream, long errorCode, ByteBuf debugData) throws Http2Exception { if (remoteEndpoint.lastStreamKnownByPeer() >= 0) { // Protect against re-entrancy. Could happen if writing the frame fails, and error handling // treating this is a connection handler and doing a graceful shutdown... if (lastKnownStream == remoteEndpoint.lastStreamKnownByPeer()) { return false; } if (lastKnownStream > remoteEndpoint.lastStreamKnownByPeer()) { throw connectionError(PROTOCOL_ERROR, "Last stream identifier must not increase between " + "sending multiple GOAWAY frames (was '%d', is '%d').", remoteEndpoint.lastStreamKnownByPeer(), lastKnownStream); } } remoteEndpoint.lastStreamKnownByPeer(lastKnownStream); for (int i = 0; i < listeners.size(); ++i) { try { listeners.get(i).onGoAwaySent(lastKnownStream, errorCode, debugData); } catch (Throwable cause) { logger.error("Caught Throwable from listener onGoAwaySent.", cause); } } closeStreamsGreaterThanLastKnownStreamId(lastKnownStream, remoteEndpoint); return true; } private void closeStreamsGreaterThanLastKnownStreamId(final int lastKnownStream, final DefaultEndpoint endpoint) throws Http2Exception { forEachActiveStream(new Http2StreamVisitor() { @Override public boolean visit(Http2Stream stream) { if (stream.id() > lastKnownStream && endpoint.isValidStreamId(stream.id())) { stream.close(); } return true; } }); } /** * Determine if {@link #streamMap} only contains the connection stream. */ private boolean isStreamMapEmpty() { return streamMap.size() == 1; } /** * Remove a stream from the {@link #streamMap}. * @param stream the stream to remove. * @param itr an iterator that may be pointing to the stream during iteration and {@link Iterator#remove()} will be * used if non-{@code null}. */ void removeStream(DefaultStream stream, Iterator itr) { final boolean removed; if (itr == null) { removed = streamMap.remove(stream.id()) != null; } else { itr.remove(); removed = true; } if (removed) { for (int i = 0; i < listeners.size(); i++) { try { listeners.get(i).onStreamRemoved(stream); } catch (Throwable cause) { logger.error("Caught Throwable from listener onStreamRemoved.", cause); } } if (closePromise != null && isStreamMapEmpty()) { closePromise.trySuccess(null); } } } static State activeState(int streamId, State initialState, boolean isLocal, boolean halfClosed) throws Http2Exception { switch (initialState) { case IDLE: return halfClosed ? isLocal ? HALF_CLOSED_LOCAL : HALF_CLOSED_REMOTE : OPEN; case RESERVED_LOCAL: return HALF_CLOSED_REMOTE; case RESERVED_REMOTE: return HALF_CLOSED_LOCAL; default: throw streamError(streamId, PROTOCOL_ERROR, "Attempting to open a stream in an invalid state: " + initialState); } } void notifyHalfClosed(Http2Stream stream) { for (int i = 0; i < listeners.size(); i++) { try { listeners.get(i).onStreamHalfClosed(stream); } catch (Throwable cause) { logger.error("Caught Throwable from listener onStreamHalfClosed.", cause); } } } void notifyClosed(Http2Stream stream) { for (int i = 0; i < listeners.size(); i++) { try { listeners.get(i).onStreamClosed(stream); } catch (Throwable cause) { logger.error("Caught Throwable from listener onStreamClosed.", cause); } } } @Override public PropertyKey newKey() { return propertyKeyRegistry.newKey(); } /** * Verifies that the key is valid and returns it as the internal {@link DefaultPropertyKey} type. * * @throws NullPointerException if the key is {@code null}. * @throws ClassCastException if the key is not of type {@link DefaultPropertyKey}. * @throws IllegalArgumentException if the key was not created by this connection. */ final DefaultPropertyKey verifyKey(PropertyKey key) { return checkNotNull((DefaultPropertyKey) key, "key").verifyConnection(this); } /** * Simple stream implementation. Streams can be compared to each other by priority. */ private class DefaultStream implements Http2Stream { private static final byte META_STATE_SENT_RST = 1; private static final byte META_STATE_SENT_HEADERS = 1 << 1; private static final byte META_STATE_SENT_TRAILERS = 1 << 2; private static final byte META_STATE_SENT_PUSHPROMISE = 1 << 3; private static final byte META_STATE_RECV_HEADERS = 1 << 4; private static final byte META_STATE_RECV_TRAILERS = 1 << 5; private final int id; private final long identity; private final PropertyMap properties = new PropertyMap(); private State state; private byte metaState; DefaultStream(long identity, int id, State state) { this.identity = identity; this.id = id; this.state = state; } @Override public final int id() { return id; } @Override public final State state() { return state; } @Override public boolean isResetSent() { return (metaState & META_STATE_SENT_RST) != 0; } @Override public Http2Stream resetSent() { metaState |= META_STATE_SENT_RST; return this; } @Override public Http2Stream headersSent(boolean isInformational) { if (!isInformational) { metaState |= isHeadersSent() ? META_STATE_SENT_TRAILERS : META_STATE_SENT_HEADERS; } return this; } @Override public boolean isHeadersSent() { return (metaState & META_STATE_SENT_HEADERS) != 0; } @Override public boolean isTrailersSent() { return (metaState & META_STATE_SENT_TRAILERS) != 0; } @Override public Http2Stream headersReceived(boolean isInformational) { if (!isInformational) { metaState |= isHeadersReceived() ? META_STATE_RECV_TRAILERS : META_STATE_RECV_HEADERS; } return this; } @Override public boolean isHeadersReceived() { return (metaState & META_STATE_RECV_HEADERS) != 0; } @Override public boolean isTrailersReceived() { return (metaState & META_STATE_RECV_TRAILERS) != 0; } @Override public Http2Stream pushPromiseSent() { metaState |= META_STATE_SENT_PUSHPROMISE; return this; } @Override public boolean isPushPromiseSent() { return (metaState & META_STATE_SENT_PUSHPROMISE) != 0; } @Override public final V setProperty(PropertyKey key, V value) { return properties.add(verifyKey(key), value); } @Override public final V getProperty(PropertyKey key) { return properties.get(verifyKey(key)); } @Override public final V removeProperty(PropertyKey key) { return properties.remove(verifyKey(key)); } @Override public Http2Stream open(boolean halfClosed) throws Http2Exception { state = activeState(id, state, isLocal(), halfClosed); final DefaultEndpoint endpoint = createdBy(); if (!endpoint.canOpenStream()) { throw connectionError(PROTOCOL_ERROR, "Maximum active streams violated for this endpoint: " + endpoint.maxActiveStreams()); } activate(); return this; } void activate() { // If the stream is opened in a half-closed state, the headers must have either // been sent if this is a local stream, or received if it is a remote stream. if (state == HALF_CLOSED_LOCAL) { headersSent(/*isInformational*/ false); } else if (state == HALF_CLOSED_REMOTE) { headersReceived(/*isInformational*/ false); } activeStreams.activate(this); } Http2Stream close(Iterator itr) { if (state == CLOSED) { return this; } state = CLOSED; --createdBy().numStreams; activeStreams.deactivate(this, itr); return this; } @Override public Http2Stream close() { return close(null); } @Override public Http2Stream closeLocalSide() { switch (state) { case OPEN: state = HALF_CLOSED_LOCAL; notifyHalfClosed(this); break; case HALF_CLOSED_LOCAL: break; default: close(); break; } return this; } @Override public Http2Stream closeRemoteSide() { switch (state) { case OPEN: state = HALF_CLOSED_REMOTE; notifyHalfClosed(this); break; case HALF_CLOSED_REMOTE: break; default: close(); break; } return this; } DefaultEndpoint createdBy() { return localEndpoint.isValidStreamId(id) ? localEndpoint : remoteEndpoint; } final boolean isLocal() { return localEndpoint.isValidStreamId(id); } /** * Provides the lazy initialization for the {@link DefaultStream} data map. */ private class PropertyMap { Object[] values = EmptyArrays.EMPTY_OBJECTS; V add(DefaultPropertyKey key, V value) { resizeIfNecessary(key.index); @SuppressWarnings("unchecked") V prevValue = (V) values[key.index]; values[key.index] = value; return prevValue; } @SuppressWarnings("unchecked") V get(DefaultPropertyKey key) { if (key.index >= values.length) { return null; } return (V) values[key.index]; } @SuppressWarnings("unchecked") V remove(DefaultPropertyKey key) { V prevValue = null; if (key.index < values.length) { prevValue = (V) values[key.index]; values[key.index] = null; } return prevValue; } void resizeIfNecessary(int index) { if (index >= values.length) { values = Arrays.copyOf(values, propertyKeyRegistry.size()); } } } @Override public boolean equals(final Object obj) { return super.equals(obj); } @Override public int hashCode() { long value = identity; if (value == 0) { return System.identityHashCode(this); } return (int) (value ^ (value >>> 32)); } } /** * Stream class representing the connection, itself. */ private final class ConnectionStream extends DefaultStream { ConnectionStream() { super(0, CONNECTION_STREAM_ID, IDLE); } @Override public boolean isResetSent() { return false; } @Override DefaultEndpoint createdBy() { return null; } @Override public Http2Stream resetSent() { throw new UnsupportedOperationException(); } @Override public Http2Stream open(boolean halfClosed) { throw new UnsupportedOperationException(); } @Override public Http2Stream close() { throw new UnsupportedOperationException(); } @Override public Http2Stream closeLocalSide() { throw new UnsupportedOperationException(); } @Override public Http2Stream closeRemoteSide() { throw new UnsupportedOperationException(); } @Override public Http2Stream headersSent(boolean isInformational) { throw new UnsupportedOperationException(); } @Override public boolean isHeadersSent() { throw new UnsupportedOperationException(); } @Override public Http2Stream pushPromiseSent() { throw new UnsupportedOperationException(); } @Override public boolean isPushPromiseSent() { throw new UnsupportedOperationException(); } } /** * Simple endpoint implementation. */ private final class DefaultEndpoint implements Endpoint { private final boolean server; /** * This is an always increasing sequence number used to hash {@link DefaultStream} instances. */ private long lastCreatedStreamIdentity; /** * The minimum stream ID allowed when creating the next stream. This only applies at the time the stream is * created. If the ID of the stream being created is less than this value, stream creation will fail. Upon * successful creation of a stream, this value is incremented to the next valid stream ID. */ private int nextStreamIdToCreate; /** * Used for reservation of stream IDs. Stream IDs can be reserved in advance by applications before the streams * are actually created. For example, applications may choose to buffer stream creation attempts as a way of * working around {@code SETTINGS_MAX_CONCURRENT_STREAMS}, in which case they will reserve stream IDs for each * buffered stream. */ private int nextReservationStreamId; private int lastStreamKnownByPeer = -1; private boolean pushToAllowed; private F flowController; private int maxStreams; private int maxActiveStreams; private final int maxReservedStreams; // Fields accessed by inner classes int numActiveStreams; int numStreams; DefaultEndpoint(boolean server, int maxReservedStreams) { this.lastCreatedStreamIdentity = 0; this.server = server; // Determine the starting stream ID for this endpoint. Client-initiated streams // are odd and server-initiated streams are even. Zero is reserved for the // connection. Stream 1 is reserved client-initiated stream for responding to an // upgrade from HTTP 1.1. if (server) { nextStreamIdToCreate = 2; nextReservationStreamId = 0; } else { nextStreamIdToCreate = 1; // For manually created client-side streams, 1 is reserved for HTTP upgrade, so start at 3. nextReservationStreamId = 1; } // Push is disallowed by default for servers and allowed for clients. pushToAllowed = !server; maxActiveStreams = MAX_VALUE; this.maxReservedStreams = checkPositiveOrZero(maxReservedStreams, "maxReservedStreams"); updateMaxStreams(); } @Override public int incrementAndGetNextStreamId() { return nextReservationStreamId >= 0 ? nextReservationStreamId += 2 : nextReservationStreamId; } private void incrementExpectedStreamId(int streamId) { if (streamId > nextReservationStreamId && nextReservationStreamId >= 0) { nextReservationStreamId = streamId; } nextStreamIdToCreate = streamId + 2; ++numStreams; } @Override public boolean isValidStreamId(int streamId) { return streamId > 0 && server == ((streamId & 1) == 0); } @Override public boolean mayHaveCreatedStream(int streamId) { return isValidStreamId(streamId) && streamId <= lastStreamCreated(); } @Override public boolean canOpenStream() { return numActiveStreams < maxActiveStreams; } @Override public DefaultStream createStream(int streamId, boolean halfClosed) throws Http2Exception { State state = activeState(streamId, IDLE, isLocal(), halfClosed); checkNewStreamAllowed(streamId, state); lastCreatedStreamIdentity++; // Create and initialize the stream. DefaultStream stream = new DefaultStream(lastCreatedStreamIdentity, streamId, state); incrementExpectedStreamId(streamId); addStream(stream); stream.activate(); return stream; } @Override public boolean created(Http2Stream stream) { return stream instanceof DefaultStream && ((DefaultStream) stream).createdBy() == this; } @Override public boolean isServer() { return server; } @Override public DefaultStream reservePushStream(int streamId, Http2Stream parent) throws Http2Exception { if (parent == null) { throw connectionError(PROTOCOL_ERROR, "Parent stream missing"); } if (isLocal() ? !parent.state().localSideOpen() : !parent.state().remoteSideOpen()) { throw connectionError(PROTOCOL_ERROR, "Stream %d is not open for sending push promise", parent.id()); } if (!opposite().allowPushTo()) { throw connectionError(PROTOCOL_ERROR, "Server push not allowed to opposite endpoint"); } State state = isLocal() ? RESERVED_LOCAL : RESERVED_REMOTE; checkNewStreamAllowed(streamId, state); lastCreatedStreamIdentity++; // Create and initialize the stream. DefaultStream stream = new DefaultStream(lastCreatedStreamIdentity, streamId, state); incrementExpectedStreamId(streamId); // Register the stream. addStream(stream); return stream; } private void addStream(DefaultStream stream) { // Add the stream to the map and priority tree. streamMap.put(stream.id(), stream); // Notify the listeners of the event. for (int i = 0; i < listeners.size(); i++) { try { listeners.get(i).onStreamAdded(stream); } catch (Throwable cause) { logger.error("Caught Throwable from listener onStreamAdded.", cause); } } } @Override public void allowPushTo(boolean allow) { if (allow && server) { throw new IllegalArgumentException("Servers do not allow push"); } pushToAllowed = allow; } @Override public boolean allowPushTo() { return pushToAllowed; } @Override public int numActiveStreams() { return numActiveStreams; } @Override public int maxActiveStreams() { return maxActiveStreams; } @Override public void maxActiveStreams(int maxActiveStreams) { this.maxActiveStreams = maxActiveStreams; updateMaxStreams(); } @Override public int lastStreamCreated() { // Stream ids are always incremented by 2 so just subtract it. This is even ok in the case // of nextStreamIdToCreate overflown as it will just return the correct positive number. // Use max(...) to ensure we return the correct value for the case when its a client and no stream // was created yet. return Math.max(0, nextStreamIdToCreate - 2); } @Override public int lastStreamKnownByPeer() { return lastStreamKnownByPeer; } private void lastStreamKnownByPeer(int lastKnownStream) { lastStreamKnownByPeer = lastKnownStream; } @Override public F flowController() { return flowController; } @Override public void flowController(F flowController) { this.flowController = checkNotNull(flowController, "flowController"); } @Override public Endpoint opposite() { return isLocal() ? remoteEndpoint : localEndpoint; } private void updateMaxStreams() { maxStreams = (int) Math.min(MAX_VALUE, (long) maxActiveStreams + maxReservedStreams); } private void checkNewStreamAllowed(int streamId, State state) throws Http2Exception { assert state != IDLE; if (lastStreamKnownByPeer >= 0 && streamId > lastStreamKnownByPeer) { throw streamError(streamId, REFUSED_STREAM, "Cannot create stream %d greater than Last-Stream-ID %d from GOAWAY.", streamId, lastStreamKnownByPeer); } if (!isValidStreamId(streamId)) { if (streamId < 0) { throw new Http2NoMoreStreamIdsException(); } throw connectionError(PROTOCOL_ERROR, "Request stream %d is not correct for %s connection", streamId, server ? "server" : "client"); } // This check must be after all id validated checks, but before the max streams check because it may be // recoverable to some degree for handling frames which can be sent on closed streams. if (streamId < nextStreamIdToCreate) { throw closedStreamError(PROTOCOL_ERROR, "Request stream %d is behind the next expected stream %d", streamId, nextStreamIdToCreate); } if (nextStreamIdToCreate <= 0) { // We exhausted the stream id space that we can use. Let's signal this back but also signal that // we still may want to process active streams. throw new Http2Exception(REFUSED_STREAM, "Stream IDs are exhausted for this endpoint.", Http2Exception.ShutdownHint.GRACEFUL_SHUTDOWN); } boolean isReserved = state == RESERVED_LOCAL || state == RESERVED_REMOTE; if (!isReserved && !canOpenStream() || isReserved && numStreams >= maxStreams) { throw streamError(streamId, REFUSED_STREAM, "Maximum active streams violated for this endpoint: " + (isReserved ? maxStreams : maxActiveStreams)); } if (isClosed()) { throw connectionError(INTERNAL_ERROR, "Attempted to create stream id %d after connection was closed", streamId); } } private boolean isLocal() { return this == localEndpoint; } } /** * Allows events which would modify the collection of active streams to be queued while iterating via {@link * #forEachActiveStream(Http2StreamVisitor)}. */ interface Event { /** * Trigger the original intention of this event. Expect to modify the active streams list. *

* If a {@link RuntimeException} object is thrown it will be logged and not propagated. * Throwing from this method is not supported and is considered a programming error. */ void process(); } /** * Manages the list of currently active streams. Queues any {@link Event}s that would modify the list of * active streams in order to prevent modification while iterating. */ private final class ActiveStreams { private final List listeners; private final Queue pendingEvents = new ArrayDeque(4); private final Set streams = new LinkedHashSet(); private int pendingIterations; ActiveStreams(List listeners) { this.listeners = listeners; } public int size() { return streams.size(); } public void activate(final DefaultStream stream) { if (allowModifications()) { addToActiveStreams(stream); } else { pendingEvents.add(new Event() { @Override public void process() { addToActiveStreams(stream); } }); } } public void deactivate(final DefaultStream stream, final Iterator itr) { if (allowModifications() || itr != null) { removeFromActiveStreams(stream, itr); } else { pendingEvents.add(new Event() { @Override public void process() { removeFromActiveStreams(stream, itr); } }); } } public Http2Stream forEachActiveStream(Http2StreamVisitor visitor) throws Http2Exception { incrementPendingIterations(); try { for (Http2Stream stream : streams) { if (!visitor.visit(stream)) { return stream; } } return null; } finally { decrementPendingIterations(); } } void addToActiveStreams(DefaultStream stream) { if (streams.add(stream)) { // Update the number of active streams initiated by the endpoint. stream.createdBy().numActiveStreams++; for (int i = 0; i < listeners.size(); i++) { try { listeners.get(i).onStreamActive(stream); } catch (Throwable cause) { logger.error("Caught Throwable from listener onStreamActive.", cause); } } } } void removeFromActiveStreams(DefaultStream stream, Iterator itr) { if (streams.remove(stream)) { // Update the number of active streams initiated by the endpoint. stream.createdBy().numActiveStreams--; notifyClosed(stream); } removeStream(stream, itr); } boolean allowModifications() { return pendingIterations == 0; } void incrementPendingIterations() { ++pendingIterations; } void decrementPendingIterations() { --pendingIterations; if (allowModifications()) { for (;;) { Event event = pendingEvents.poll(); if (event == null) { break; } try { event.process(); } catch (Throwable cause) { logger.error("Caught Throwable while processing pending ActiveStreams$Event.", cause); } } } } } /** * Implementation of {@link PropertyKey} that specifies the index position of the property. */ final class DefaultPropertyKey implements PropertyKey { final int index; DefaultPropertyKey(int index) { this.index = index; } DefaultPropertyKey verifyConnection(Http2Connection connection) { if (connection != DefaultHttp2Connection.this) { throw new IllegalArgumentException("Using a key that was not created by this connection"); } return this; } } /** * A registry of all stream property keys known by this connection. */ private final class PropertyKeyRegistry { /** * Initial size of 4 because the default configuration currently has 3 listeners * (local/remote flow controller and {@link StreamByteDistributor}) and we leave room for 1 extra. * We could be more aggressive but the ArrayList resize will double the size if we are too small. */ final List keys = new ArrayList(4); /** * Registers a new property key. */ DefaultPropertyKey newKey() { DefaultPropertyKey key = new DefaultPropertyKey(keys.size()); keys.add(key); return key; } int size() { return keys.size(); } } }





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