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/*
* ====================================================================
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF 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.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of the Apache Software Foundation. For more
* information on the Apache Software Foundation, please see
* .
*
*/
package org.apache.http.nio.protocol;
import java.io.Closeable;
import java.io.IOException;
import java.util.List;
import java.util.concurrent.Future;
import org.apache.http.ConnectionClosedException;
import org.apache.http.ConnectionReuseStrategy;
import org.apache.http.ExceptionLogger;
import org.apache.http.HttpHost;
import org.apache.http.annotation.Immutable;
import org.apache.http.concurrent.BasicFuture;
import org.apache.http.concurrent.FutureCallback;
import org.apache.http.impl.DefaultConnectionReuseStrategy;
import org.apache.http.nio.NHttpClientConnection;
import org.apache.http.params.HttpParams;
import org.apache.http.pool.ConnPool;
import org.apache.http.pool.PoolEntry;
import org.apache.http.protocol.BasicHttpContext;
import org.apache.http.protocol.HttpContext;
import org.apache.http.protocol.HttpProcessor;
import org.apache.http.util.Args;
/**
* {@code HttpAsyncRequester} is a utility class that can be used
* in conjunction with {@link HttpAsyncRequestExecutor} to initiate execution
* of asynchronous HTTP requests.
*
* @see HttpAsyncRequestExecutor
*
* @since 4.2
*/
@SuppressWarnings("deprecation")
@Immutable
public class HttpAsyncRequester {
private final HttpProcessor httpprocessor;
private final ConnectionReuseStrategy connReuseStrategy;
private final ExceptionLogger exceptionLogger;
/**
* @deprecated (4.3) use {@link HttpAsyncRequester#HttpAsyncRequester(HttpProcessor,
* ConnectionReuseStrategy)}
*/
@Deprecated
public HttpAsyncRequester(
final HttpProcessor httpprocessor,
final ConnectionReuseStrategy reuseStrategy,
final HttpParams params) {
this(httpprocessor, reuseStrategy);
}
/**
* Creates new instance of {@code HttpAsyncRequester}.
* @param httpprocessor HTTP protocol processor.
* @param connReuseStrategy Connection re-use strategy. If {@code null}
* {@link DefaultConnectionReuseStrategy#INSTANCE} will be used.
* @param exceptionLogger Exception logger. If {@code null}
* {@link ExceptionLogger#NO_OP} will be used. Please note that the exception
* logger will be only used to log I/O exception thrown while closing
* {@link java.io.Closeable} objects (such as {@link org.apache.http.HttpConnection}).
*
* @since 4.4
*/
public HttpAsyncRequester(
final HttpProcessor httpprocessor,
final ConnectionReuseStrategy connReuseStrategy,
final ExceptionLogger exceptionLogger) {
super();
this.httpprocessor = Args.notNull(httpprocessor, "HTTP processor");
this.connReuseStrategy = connReuseStrategy != null ? connReuseStrategy :
DefaultConnectionReuseStrategy.INSTANCE;
this.exceptionLogger = exceptionLogger != null ? exceptionLogger : ExceptionLogger.NO_OP;
}
/**
* Creates new instance of HttpAsyncRequester.
*
* @since 4.3
*/
public HttpAsyncRequester(
final HttpProcessor httpprocessor,
final ConnectionReuseStrategy connReuseStrategy) {
this(httpprocessor, connReuseStrategy, (ExceptionLogger) null);
}
/**
* Creates new instance of HttpAsyncRequester.
*
* @since 4.3
*/
public HttpAsyncRequester(final HttpProcessor httpprocessor) {
this(httpprocessor, null);
}
/**
* Initiates asynchronous HTTP request execution.
*
* @param the result type of request execution.
* @param requestProducer request producer.
* @param responseConsumer response consumer.
* @param conn underlying HTTP connection.
* @param context HTTP context
* @param callback future callback.
* @return future representing pending completion of the operation.
*/
public Future execute(
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final NHttpClientConnection conn,
final HttpContext context,
final FutureCallback callback) {
Args.notNull(requestProducer, "HTTP request producer");
Args.notNull(responseConsumer, "HTTP response consumer");
Args.notNull(conn, "HTTP connection");
Args.notNull(context, "HTTP context");
final BasicAsyncClientExchangeHandler handler = new BasicAsyncClientExchangeHandler(
requestProducer, responseConsumer, callback, context, conn,
this.httpprocessor, this.connReuseStrategy);
initExecution(handler, conn);
return handler.getFuture();
}
private void initExecution(
final HttpAsyncClientExchangeHandler handler, final NHttpClientConnection conn) {
final HttpContext context = conn.getContext();
synchronized (context) {
context.setAttribute(HttpAsyncRequestExecutor.HTTP_HANDLER, handler);
if (!conn.isOpen()) {
handler.failed(new ConnectionClosedException("Connection closed"));
} else {
conn.requestOutput();
}
}
if (handler.isDone()) {
try {
handler.close();
} catch (final IOException ex) {
log(ex);
}
}
}
/**
* Initiates asynchronous HTTP request execution.
*
* @param the result type of request execution.
* @param requestProducer request producer.
* @param responseConsumer response consumer.
* @param conn underlying HTTP connection.
* @param context HTTP context
* @return future representing pending completion of the operation.
*/
public Future execute(
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final NHttpClientConnection conn,
final HttpContext context) {
return execute(requestProducer, responseConsumer, conn, context, null);
}
/**
* Initiates asynchronous HTTP request execution.
*
* @param the result type of request execution.
* @param requestProducer request producer.
* @param responseConsumer response consumer.
* @param conn underlying HTTP connection.
* @return future representing pending completion of the operation.
*/
public Future execute(
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final NHttpClientConnection conn) {
return execute(requestProducer, responseConsumer, conn, new BasicHttpContext());
}
/**
* Initiates asynchronous HTTP request execution.
*
* @param the result type of request execution.
* @param the connection pool entry type.
* @param requestProducer request producer.
* @param responseConsumer response consumer.
* @param connPool pool of persistent reusable connections.
* @param context HTTP context
* @param callback future callback.
* @return future representing pending completion of the operation.
*/
public > Future execute(
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final ConnPool connPool,
final HttpContext context,
final FutureCallback callback) {
Args.notNull(requestProducer, "HTTP request producer");
Args.notNull(responseConsumer, "HTTP response consumer");
Args.notNull(connPool, "HTTP connection pool");
Args.notNull(context, "HTTP context");
final BasicFuture future = new BasicFuture(callback);
final HttpHost target = requestProducer.getTarget();
connPool.lease(target, null, new ConnRequestCallback(
future, requestProducer, responseConsumer, connPool, context));
return future;
}
/**
* Initiates asynchronous pipelined HTTP request execution.
*
* @param the result type of request execution.
* @param the connection pool entry type.
* @param target target host.
* @param requestProducers list of request producers.
* @param responseConsumers list of response consumers.
* @param connPool pool of persistent reusable connections.
* @param context HTTP context
* @param callback future callback.
* @return future representing pending completion of the operation.
*
* @since 4.4
*/
public > Future> executePipelined(
final HttpHost target,
final List requestProducers,
final List> responseConsumers,
final ConnPool connPool,
final HttpContext context,
final FutureCallback> callback) {
Args.notNull(target, "HTTP target");
Args.notEmpty(requestProducers, "Request producer list");
Args.notEmpty(responseConsumers, "Response consumer list");
Args.notNull(connPool, "HTTP connection pool");
Args.notNull(context, "HTTP context");
final BasicFuture> future = new BasicFuture>(callback);
connPool.lease(target, null, new ConnPipelinedRequestCallback(
future, requestProducers, responseConsumers, connPool, context));
return future;
}
/**
* Initiates asynchronous HTTP request execution. This method automatically releases
* the given pool entry once request execution is completed (successfully or unsuccessfully).
*
* @param the result type of request execution.
* @param the connection pool entry type.
* @param requestProducer request producer.
* @param responseConsumer response consumer.
* @param poolEntry leased pool entry. It will be automatically released
* back to the pool when execution is completed.
* @param connPool pool of persistent reusable connections.
* @param context HTTP context
* @param callback future callback.
* @return future representing pending completion of the operation.
*
* @since 4.3
*/
public > Future execute(
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final E poolEntry,
final ConnPool connPool,
final HttpContext context,
final FutureCallback callback) {
Args.notNull(requestProducer, "HTTP request producer");
Args.notNull(responseConsumer, "HTTP response consumer");
Args.notNull(connPool, "HTTP connection pool");
Args.notNull(poolEntry, "Pool entry");
Args.notNull(context, "HTTP context");
final BasicFuture future = new BasicFuture(callback);
final NHttpClientConnection conn = poolEntry.getConnection();
final BasicAsyncClientExchangeHandler handler = new BasicAsyncClientExchangeHandler(
requestProducer, responseConsumer,
new RequestExecutionCallback(future, poolEntry, connPool),
context, conn,
this.httpprocessor, this.connReuseStrategy);
initExecution(handler, conn);
return future;
}
/**
* Initiates asynchronous pipelined HTTP request execution. This method automatically releases
* the given pool entry once request execution is completed (successfully or unsuccessfully).
*
* @param the result type of request execution.
* @param the connection pool entry type.
* @param requestProducers list of request producers.
* @param responseConsumers list of response consumers.
* @param poolEntry leased pool entry. It will be automatically released
* back to the pool when execution is completed.
* @param connPool pool of persistent reusable connections.
* @param context HTTP context
* @param callback future callback.
* @return future representing pending completion of the operation.
*
* @since 4.4
*/
public > Future> executePipelined(
final List requestProducers,
final List> responseConsumers,
final E poolEntry,
final ConnPool connPool,
final HttpContext context,
final FutureCallback> callback) {
Args.notEmpty(requestProducers, "Request producer list");
Args.notEmpty(responseConsumers, "Response consumer list");
Args.notNull(connPool, "HTTP connection pool");
Args.notNull(poolEntry, "Pool entry");
Args.notNull(context, "HTTP context");
final BasicFuture> future = new BasicFuture>(callback);
final NHttpClientConnection conn = poolEntry.getConnection();
final PipeliningClientExchangeHandler handler = new PipeliningClientExchangeHandler(
requestProducers, responseConsumers,
new RequestExecutionCallback, E>(future, poolEntry, connPool),
context, conn,
this.httpprocessor, this.connReuseStrategy);
initExecution(handler, conn);
return future;
}
/**
* Initiates asynchronous HTTP request execution.
*
* @param the result type of request execution.
* @param the connection pool entry type.
* @param requestProducer request producer.
* @param responseConsumer response consumer.
* @param connPool pool of persistent reusable connections.
* @param context HTTP context
* @return future representing pending completion of the operation.
*/
public > Future execute(
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final ConnPool connPool,
final HttpContext context) {
return execute(requestProducer, responseConsumer, connPool, context, null);
}
/**
* Initiates asynchronous HTTP request execution.
*
* @param the result type of request execution.
* @param the connection pool entry type.
* @param requestProducer request producer.
* @param responseConsumer response consumer.
* @param connPool pool of persistent reusable connections.
* @return future representing pending completion of the operation.
*/
public > Future execute(
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final ConnPool connPool) {
return execute(requestProducer, responseConsumer, connPool, new BasicHttpContext());
}
class ConnRequestCallback> implements FutureCallback {
private final BasicFuture requestFuture;
private final HttpAsyncRequestProducer requestProducer;
private final HttpAsyncResponseConsumer responseConsumer;
private final ConnPool connPool;
private final HttpContext context;
ConnRequestCallback(
final BasicFuture requestFuture,
final HttpAsyncRequestProducer requestProducer,
final HttpAsyncResponseConsumer responseConsumer,
final ConnPool connPool,
final HttpContext context) {
super();
this.requestFuture = requestFuture;
this.requestProducer = requestProducer;
this.responseConsumer = responseConsumer;
this.connPool = connPool;
this.context = context;
}
@Override
public void completed(final E result) {
if (this.requestFuture.isDone()) {
this.connPool.release(result, true);
return;
}
final NHttpClientConnection conn = result.getConnection();
final BasicAsyncClientExchangeHandler handler = new BasicAsyncClientExchangeHandler(
this.requestProducer, this.responseConsumer,
new RequestExecutionCallback(this.requestFuture, result, this.connPool),
this.context, conn, httpprocessor, connReuseStrategy);
initExecution(handler, conn);
}
@Override
public void failed(final Exception ex) {
try {
try {
this.responseConsumer.failed(ex);
} finally {
releaseResources();
}
} finally {
this.requestFuture.failed(ex);
}
}
@Override
public void cancelled() {
try {
try {
this.responseConsumer.cancel();
} finally {
releaseResources();
}
} finally {
this.requestFuture.cancel(true);
}
}
public void releaseResources() {
close(requestProducer);
close(responseConsumer);
}
}
class ConnPipelinedRequestCallback> implements FutureCallback {
private final BasicFuture> requestFuture;
private final List requestProducers;
private final List> responseConsumers;
private final ConnPool connPool;
private final HttpContext context;
ConnPipelinedRequestCallback(
final BasicFuture> requestFuture,
final List requestProducers,
final List> responseConsumers,
final ConnPool connPool,
final HttpContext context) {
super();
this.requestFuture = requestFuture;
this.requestProducers = requestProducers;
this.responseConsumers = responseConsumers;
this.connPool = connPool;
this.context = context;
}
@Override
public void completed(final E result) {
if (this.requestFuture.isDone()) {
this.connPool.release(result, true);
return;
}
final NHttpClientConnection conn = result.getConnection();
final PipeliningClientExchangeHandler handler = new PipeliningClientExchangeHandler(
this.requestProducers, this.responseConsumers,
new RequestExecutionCallback, E>(this.requestFuture, result, this.connPool),
this.context, conn, httpprocessor, connReuseStrategy);
initExecution(handler, conn);
}
@Override
public void failed(final Exception ex) {
try {
try {
for (HttpAsyncResponseConsumer responseConsumer: this.responseConsumers) {
responseConsumer.failed(ex);
}
} finally {
releaseResources();
}
} finally {
this.requestFuture.failed(ex);
}
}
@Override
public void cancelled() {
try {
try {
for (HttpAsyncResponseConsumer responseConsumer: this.responseConsumers) {
responseConsumer.cancel();
}
} finally {
releaseResources();
}
} finally {
this.requestFuture.cancel(true);
}
}
public void releaseResources() {
for (HttpAsyncRequestProducer requestProducer: this.requestProducers) {
close(requestProducer);
}
for (HttpAsyncResponseConsumer responseConsumer: this.responseConsumers) {
close(responseConsumer);
}
}
}
class RequestExecutionCallback>
implements FutureCallback {
private final BasicFuture future;
private final E poolEntry;
private final ConnPool connPool;
RequestExecutionCallback(
final BasicFuture future,
final E poolEntry,
final ConnPool connPool) {
super();
this.future = future;
this.poolEntry = poolEntry;
this.connPool = connPool;
}
@Override
public void completed(final T result) {
try {
this.connPool.release(this.poolEntry, true);
} finally {
this.future.completed(result);
}
}
@Override
public void failed(final Exception ex) {
try {
this.connPool.release(this.poolEntry, false);
} finally {
this.future.failed(ex);
}
}
@Override
public void cancelled() {
try {
this.connPool.release(this.poolEntry, false);
} finally {
this.future.cancel(true);
}
}
}
/**
* This method can be used to log I/O exception thrown while closing
* {@link java.io.Closeable} objects (such as
* {@link org.apache.http.HttpConnection}}).
*
* @param ex I/O exception thrown by {@link java.io.Closeable#close()}
*/
protected void log(final Exception ex) {
this.exceptionLogger.log(ex);
}
private void close(final Closeable closeable) {
try {
closeable.close();
} catch (IOException ex) {
log(ex);
}
}
}
