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/*
* Copyright 2002-2019 the original author or authors.
*
* Licensed 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 org.springframework.http.server.reactive;
import java.util.function.Function;
import org.reactivestreams.Publisher;
import org.reactivestreams.Subscriber;
import org.reactivestreams.Subscription;
import reactor.core.CoreSubscriber;
import reactor.core.Scannable;
import reactor.core.publisher.Flux;
import reactor.core.publisher.Mono;
import reactor.core.publisher.Operators;
import reactor.util.context.Context;
import org.springframework.core.io.buffer.DataBuffer;
import org.springframework.core.io.buffer.DataBufferUtils;
import org.springframework.lang.Nullable;
import org.springframework.util.Assert;
/**
* Given a write function that accepts a source {@code Publisher} to write
* with and returns {@code Publisher} for the result, this operator helps
* to defer the invocation of the write function, until we know if the source
* publisher will begin publishing without an error. If the first emission is
* an error, the write function is bypassed, and the error is sent directly
* through the result publisher. Otherwise the write function is invoked.
*
* @author Rossen Stoyanchev
* @author Stephane Maldini
* @since 5.0
* @param the type of element signaled
*/
public class ChannelSendOperator extends Mono implements Scannable {
private final Function, Publisher> writeFunction;
private final Flux source;
public ChannelSendOperator(Publisher source, Function, Publisher> writeFunction) {
this.source = Flux.from(source);
this.writeFunction = writeFunction;
}
@Override
@Nullable
@SuppressWarnings("rawtypes")
public Object scanUnsafe(Attr key) {
if (key == Attr.PREFETCH) {
return Integer.MAX_VALUE;
}
if (key == Attr.PARENT) {
return this.source;
}
return null;
}
@Override
public void subscribe(CoreSubscriber actual) {
this.source.subscribe(new WriteBarrier(actual));
}
private enum State {
/** No emissions from the upstream source yet. */
NEW,
/**
* At least one signal of any kind has been received; we're ready to
* call the write function and proceed with actual writing.
*/
FIRST_SIGNAL_RECEIVED,
/**
* The write subscriber has subscribed and requested; we're going to
* emit the cached signals.
*/
EMITTING_CACHED_SIGNALS,
/**
* The write subscriber has subscribed, and cached signals have been
* emitted to it; we're ready to switch to a simple pass-through mode
* for all remaining signals.
**/
READY_TO_WRITE
}
/**
* A barrier inserted between the write source and the write subscriber
* (i.e. the HTTP server adapter) that pre-fetches and waits for the first
* signal before deciding whether to hook in to the write subscriber.
*
* Acts as:
*
* - Subscriber to the write source.
*
- Subscription to the write subscriber.
*
- Publisher to the write subscriber.
*
*
* Also uses {@link WriteCompletionBarrier} to communicate completion
* and detect cancel signals from the completion subscriber.
*/
private class WriteBarrier implements CoreSubscriber, Subscription, Publisher {
/* Bridges signals to and from the completionSubscriber */
private final WriteCompletionBarrier writeCompletionBarrier;
/* Upstream write source subscription */
@Nullable
private Subscription subscription;
/** Cached data item before readyToWrite. */
@Nullable
private T item;
/** Cached error signal before readyToWrite. */
@Nullable
private Throwable error;
/** Cached onComplete signal before readyToWrite. */
private boolean completed = false;
/** Recursive demand while emitting cached signals. */
private long demandBeforeReadyToWrite;
/** Current state. */
private State state = State.NEW;
/** The actual writeSubscriber from the HTTP server adapter. */
@Nullable
private Subscriber writeSubscriber;
WriteBarrier(CoreSubscriber completionSubscriber) {
this.writeCompletionBarrier = new WriteCompletionBarrier(completionSubscriber, this);
}
// Subscriber methods (we're the subscriber to the write source)..
@Override
public final void onSubscribe(Subscription s) {
if (Operators.validate(this.subscription, s)) {
this.subscription = s;
this.writeCompletionBarrier.connect();
s.request(1);
}
}
@Override
public final void onNext(T item) {
if (this.state == State.READY_TO_WRITE) {
requiredWriteSubscriber().onNext(item);
return;
}
//FIXME revisit in case of reentrant sync deadlock
synchronized (this) {
if (this.state == State.READY_TO_WRITE) {
requiredWriteSubscriber().onNext(item);
}
else if (this.state == State.NEW) {
this.item = item;
this.state = State.FIRST_SIGNAL_RECEIVED;
Publisher result;
try {
result = writeFunction.apply(this);
}
catch (Throwable ex) {
this.writeCompletionBarrier.onError(ex);
return;
}
result.subscribe(this.writeCompletionBarrier);
}
else {
if (this.subscription != null) {
this.subscription.cancel();
}
this.writeCompletionBarrier.onError(new IllegalStateException("Unexpected item."));
}
}
}
private Subscriber requiredWriteSubscriber() {
Assert.state(this.writeSubscriber != null, "No write subscriber");
return this.writeSubscriber;
}
@Override
public final void onError(Throwable ex) {
if (this.state == State.READY_TO_WRITE) {
requiredWriteSubscriber().onError(ex);
return;
}
synchronized (this) {
if (this.state == State.READY_TO_WRITE) {
requiredWriteSubscriber().onError(ex);
}
else if (this.state == State.NEW) {
this.state = State.FIRST_SIGNAL_RECEIVED;
this.writeCompletionBarrier.onError(ex);
}
else {
this.error = ex;
}
}
}
@Override
public final void onComplete() {
if (this.state == State.READY_TO_WRITE) {
requiredWriteSubscriber().onComplete();
return;
}
synchronized (this) {
if (this.state == State.READY_TO_WRITE) {
requiredWriteSubscriber().onComplete();
}
else if (this.state == State.NEW) {
this.completed = true;
this.state = State.FIRST_SIGNAL_RECEIVED;
Publisher result;
try {
result = writeFunction.apply(this);
}
catch (Throwable ex) {
this.writeCompletionBarrier.onError(ex);
return;
}
result.subscribe(this.writeCompletionBarrier);
}
else {
this.completed = true;
}
}
}
@Override
public Context currentContext() {
return this.writeCompletionBarrier.currentContext();
}
// Subscription methods (we're the Subscription to the writeSubscriber)..
@Override
public void request(long n) {
Subscription s = this.subscription;
if (s == null) {
return;
}
if (this.state == State.READY_TO_WRITE) {
s.request(n);
return;
}
synchronized (this) {
if (this.writeSubscriber != null) {
if (this.state == State.EMITTING_CACHED_SIGNALS) {
this.demandBeforeReadyToWrite = n;
return;
}
try {
this.state = State.EMITTING_CACHED_SIGNALS;
if (emitCachedSignals()) {
return;
}
n = n + this.demandBeforeReadyToWrite - 1;
if (n == 0) {
return;
}
}
finally {
this.state = State.READY_TO_WRITE;
}
}
}
s.request(n);
}
private boolean emitCachedSignals() {
if (this.error != null) {
try {
requiredWriteSubscriber().onError(this.error);
}
finally {
releaseCachedItem();
}
return true;
}
T item = this.item;
this.item = null;
if (item != null) {
requiredWriteSubscriber().onNext(item);
}
if (this.completed) {
requiredWriteSubscriber().onComplete();
return true;
}
return false;
}
@Override
public void cancel() {
Subscription s = this.subscription;
if (s != null) {
this.subscription = null;
try {
s.cancel();
}
finally {
releaseCachedItem();
}
}
}
private void releaseCachedItem() {
synchronized (this) {
Object item = this.item;
if (item instanceof DataBuffer) {
DataBufferUtils.release((DataBuffer) item);
}
this.item = null;
}
}
// Publisher methods (we're the Publisher to the writeSubscriber)..
@Override
public void subscribe(Subscriber writeSubscriber) {
synchronized (this) {
Assert.state(this.writeSubscriber == null, "Only one write subscriber supported");
this.writeSubscriber = writeSubscriber;
if (this.error != null || this.completed) {
this.writeSubscriber.onSubscribe(Operators.emptySubscription());
emitCachedSignals();
}
else {
this.writeSubscriber.onSubscribe(this);
}
}
}
}
/**
* We need an extra barrier between the WriteBarrier itself and the actual
* completion subscriber.
*
* The completionSubscriber is subscribed initially to the WriteBarrier.
* Later after the first signal is received, we need one more subscriber
* instance (per spec can only subscribe once) to subscribe to the write
* function and switch to delegating completion signals from it.
*/
private class WriteCompletionBarrier implements CoreSubscriber, Subscription {
/* Downstream write completion subscriber */
private final CoreSubscriber completionSubscriber;
private final WriteBarrier writeBarrier;
@Nullable
private Subscription subscription;
public WriteCompletionBarrier(CoreSubscriber subscriber, WriteBarrier writeBarrier) {
this.completionSubscriber = subscriber;
this.writeBarrier = writeBarrier;
}
/**
* Connect the underlying completion subscriber to this barrier in order
* to track cancel signals and pass them on to the write barrier.
*/
public void connect() {
this.completionSubscriber.onSubscribe(this);
}
// Subscriber methods (we're the subscriber to the write function)..
@Override
public void onSubscribe(Subscription subscription) {
this.subscription = subscription;
subscription.request(Long.MAX_VALUE);
}
@Override
public void onNext(Void aVoid) {
}
@Override
public void onError(Throwable ex) {
try {
this.completionSubscriber.onError(ex);
}
finally {
this.writeBarrier.releaseCachedItem();
}
}
@Override
public void onComplete() {
this.completionSubscriber.onComplete();
}
@Override
public Context currentContext() {
return this.completionSubscriber.currentContext();
}
@Override
public void request(long n) {
// Ignore: we don't produce data
}
@Override
public void cancel() {
this.writeBarrier.cancel();
Subscription subscription = this.subscription;
if (subscription != null) {
subscription.cancel();
}
}
}
}