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HttpDestination.java
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HttpDestination.java
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//
// ========================================================================
// Copyright (c) 1995-2022 Mort Bay Consulting Pty Ltd and others.
//
// This program and the accompanying materials are made available under the
// terms of the Eclipse Public License v. 2.0 which is available at
// https://www.eclipse.org/legal/epl-2.0, or the Apache License, Version 2.0
// which is available at https://www.apache.org/licenses/LICENSE-2.0.
//
// SPDX-License-Identifier: EPL-2.0 OR Apache-2.0
// ========================================================================
//
package org.eclipse.jetty.client;
import java.io.Closeable;
import java.io.IOException;
import java.nio.channels.AsynchronousCloseException;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import java.util.Queue;
import java.util.concurrent.RejectedExecutionException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import org.eclipse.jetty.client.api.Connection;
import org.eclipse.jetty.client.api.Destination;
import org.eclipse.jetty.client.api.Request;
import org.eclipse.jetty.client.api.Response;
import org.eclipse.jetty.http.HttpField;
import org.eclipse.jetty.http.HttpHeader;
import org.eclipse.jetty.io.ClientConnectionFactory;
import org.eclipse.jetty.io.CyclicTimeouts;
import org.eclipse.jetty.util.BlockingArrayQueue;
import org.eclipse.jetty.util.Callback;
import org.eclipse.jetty.util.HostPort;
import org.eclipse.jetty.util.Promise;
import org.eclipse.jetty.util.annotation.ManagedAttribute;
import org.eclipse.jetty.util.annotation.ManagedObject;
import org.eclipse.jetty.util.component.ContainerLifeCycle;
import org.eclipse.jetty.util.component.Dumpable;
import org.eclipse.jetty.util.component.DumpableCollection;
import org.eclipse.jetty.util.component.LifeCycle;
import org.eclipse.jetty.util.ssl.SslContextFactory;
import org.eclipse.jetty.util.thread.AutoLock;
import org.eclipse.jetty.util.thread.Scheduler;
import org.eclipse.jetty.util.thread.Sweeper;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
@ManagedObject
public abstract class HttpDestination extends ContainerLifeCycle implements Destination, Closeable, Callback, Dumpable, Sweeper.Sweepable
{
private static final Logger LOG = LoggerFactory.getLogger(HttpDestination.class);
private final HttpClient client;
private final Origin origin;
private final Queue<HttpExchange> exchanges;
private final RequestNotifier requestNotifier;
private final ResponseNotifier responseNotifier;
private final ProxyConfiguration.Proxy proxy;
private final ClientConnectionFactory connectionFactory;
private final HttpField hostField;
private final RequestTimeouts requestTimeouts;
private final AutoLock staleLock = new AutoLock();
private ConnectionPool connectionPool;
private boolean stale;
private long activeNanos;
public HttpDestination(HttpClient client, Origin origin, boolean intrinsicallySecure)
{
this.client = client;
this.origin = origin;
this.exchanges = newExchangeQueue(client);
this.requestNotifier = new RequestNotifier(client);
this.responseNotifier = new ResponseNotifier();
this.requestTimeouts = new RequestTimeouts(client.getScheduler());
String host = HostPort.normalizeHost(getHost());
if (!client.isDefaultPort(getScheme(), getPort()))
host += ":" + getPort();
hostField = new HttpField(HttpHeader.HOST, host);
ProxyConfiguration proxyConfig = client.getProxyConfiguration();
proxy = proxyConfig.match(origin);
ClientConnectionFactory connectionFactory = client.getTransport();
if (proxy != null)
{
connectionFactory = proxy.newClientConnectionFactory(connectionFactory);
if (!intrinsicallySecure && proxy.isSecure())
connectionFactory = newSslClientConnectionFactory(proxy.getSslContextFactory(), connectionFactory);
}
else
{
if (!intrinsicallySecure && isSecure())
connectionFactory = newSslClientConnectionFactory(null, connectionFactory);
}
Object tag = origin.getTag();
if (tag instanceof ClientConnectionFactory.Decorator)
connectionFactory = ((ClientConnectionFactory.Decorator)tag).apply(connectionFactory);
this.connectionFactory = connectionFactory;
}
public void accept(Connection connection)
{
connectionPool.accept(connection);
}
public boolean stale()
{
try (AutoLock l = staleLock.lock())
{
boolean stale = this.stale;
if (!stale)
this.activeNanos = System.nanoTime();
if (LOG.isDebugEnabled())
LOG.debug("Stale check done with result {} on {}", stale, this);
return stale;
}
}
@Override
public boolean sweep()
{
if (LOG.isDebugEnabled())
LOG.debug("Sweep check in progress on {}", this);
boolean remove = false;
try (AutoLock l = staleLock.lock())
{
boolean stale = exchanges.isEmpty() && connectionPool.isEmpty();
if (!stale)
{
this.activeNanos = System.nanoTime();
}
else if (isStaleDelayExpired())
{
this.stale = true;
remove = true;
}
}
if (remove)
{
getHttpClient().removeDestination(this);
LifeCycle.stop(this);
}
if (LOG.isDebugEnabled())
LOG.debug("Sweep check done with result {} on {}", remove, this);
return remove;
}
private boolean isStaleDelayExpired()
{
assert staleLock.isHeldByCurrentThread();
long destinationIdleTimeout = TimeUnit.MILLISECONDS.toNanos(getHttpClient().getDestinationIdleTimeout());
return System.nanoTime() - activeNanos >= destinationIdleTimeout;
}
@Override
protected void doStart() throws Exception
{
this.connectionPool = newConnectionPool(client);
addBean(connectionPool, true);
super.doStart();
Sweeper connectionPoolSweeper = client.getBean(Sweeper.class);
if (connectionPoolSweeper != null && connectionPool instanceof Sweeper.Sweepable)
connectionPoolSweeper.offer((Sweeper.Sweepable)connectionPool);
Sweeper destinationSweeper = getHttpClient().getDestinationSweeper();
if (destinationSweeper != null)
destinationSweeper.offer(this);
}
@Override
protected void doStop() throws Exception
{
Sweeper destinationSweeper = getHttpClient().getDestinationSweeper();
if (destinationSweeper != null)
destinationSweeper.remove(this);
Sweeper connectionPoolSweeper = client.getBean(Sweeper.class);
if (connectionPoolSweeper != null && connectionPool instanceof Sweeper.Sweepable)
connectionPoolSweeper.remove((Sweeper.Sweepable)connectionPool);
super.doStop();
removeBean(connectionPool);
}
protected ConnectionPool newConnectionPool(HttpClient client)
{
return client.getTransport().getConnectionPoolFactory().newConnectionPool(this);
}
protected Queue<HttpExchange> newExchangeQueue(HttpClient client)
{
int maxCapacity = client.getMaxRequestsQueuedPerDestination();
if (maxCapacity > 32)
return new BlockingArrayQueue<>(32, 32, maxCapacity);
return new BlockingArrayQueue<>(maxCapacity);
}
protected ClientConnectionFactory newSslClientConnectionFactory(SslContextFactory.Client sslContextFactory, ClientConnectionFactory connectionFactory)
{
return client.newSslClientConnectionFactory(sslContextFactory, connectionFactory);
}
public boolean isSecure()
{
return HttpClient.isSchemeSecure(getScheme());
}
public HttpClient getHttpClient()
{
return client;
}
public Origin getOrigin()
{
return origin;
}
public Queue<HttpExchange> getHttpExchanges()
{
return exchanges;
}
public RequestNotifier getRequestNotifier()
{
return requestNotifier;
}
public ResponseNotifier getResponseNotifier()
{
return responseNotifier;
}
public ProxyConfiguration.Proxy getProxy()
{
return proxy;
}
public ClientConnectionFactory getClientConnectionFactory()
{
return connectionFactory;
}
@Override
@ManagedAttribute(value = "The destination scheme", readonly = true)
public String getScheme()
{
return getOrigin().getScheme();
}
@Override
@ManagedAttribute(value = "The destination host", readonly = true)
public String getHost()
{
// InetSocketAddress.getHostString() transforms the host string
// in case of IPv6 addresses, so we return the original host string
return getOrigin().getAddress().getHost();
}
@Override
@ManagedAttribute(value = "The destination port", readonly = true)
public int getPort()
{
return getOrigin().getAddress().getPort();
}
@ManagedAttribute(value = "The number of queued requests", readonly = true)
public int getQueuedRequestCount()
{
return exchanges.size();
}
public Origin.Address getConnectAddress()
{
return proxy == null ? getOrigin().getAddress() : proxy.getAddress();
}
public HttpField getHostField()
{
return hostField;
}
@ManagedAttribute(value = "The connection pool", readonly = true)
public ConnectionPool getConnectionPool()
{
return connectionPool;
}
@Override
public void succeeded()
{
send(false);
}
@Override
public void failed(Throwable x)
{
abort(x);
}
public void send(Request request, Response.CompleteListener listener)
{
((HttpRequest)request).sendAsync(this, listener);
}
protected void send(HttpRequest request, List<Response.ResponseListener> listeners)
{
send(new HttpExchange(this, request, listeners));
}
public void send(HttpExchange exchange)
{
HttpRequest request = exchange.getRequest();
if (client.isRunning())
{
if (enqueue(exchanges, exchange))
{
requestTimeouts.schedule(exchange);
if (!client.isRunning() && exchanges.remove(exchange))
{
request.abort(new RejectedExecutionException(client + " is stopping"));
}
else
{
if (LOG.isDebugEnabled())
LOG.debug("Queued {} for {}", request, this);
requestNotifier.notifyQueued(request);
send();
}
}
else
{
if (LOG.isDebugEnabled())
LOG.debug("Max queue size {} exceeded by {} for {}", client.getMaxRequestsQueuedPerDestination(), request, this);
request.abort(new RejectedExecutionException("Max requests queued per destination " + client.getMaxRequestsQueuedPerDestination() + " exceeded for " + this));
}
}
else
{
request.abort(new RejectedExecutionException(client + " is stopped"));
}
}
protected boolean enqueue(Queue<HttpExchange> queue, HttpExchange exchange)
{
return queue.offer(exchange);
}
public void send()
{
send(true);
}
private void send(boolean create)
{
if (!getHttpExchanges().isEmpty())
process(create);
}
private void process(boolean create)
{
// The loop is necessary in case of a new multiplexed connection,
// when a single thread notified of the connection opening must
// process all queued exchanges.
// It is also necessary when thread T1 cannot acquire a connection
// (for example, it has been stolen by thread T2 and the pool has
// enough pending reservations). T1 returns without doing anything
// and therefore it is T2 that must send both queued requests.
while (true)
{
Connection connection = connectionPool.acquire(create);
if (connection == null)
break;
boolean proceed = process(connection);
if (proceed)
create = false;
else
break;
}
}
private boolean process(Connection connection)
{
HttpClient client = getHttpClient();
HttpExchange exchange = getHttpExchanges().poll();
if (LOG.isDebugEnabled())
LOG.debug("Processing exchange {} on {} of {}", exchange, connection, this);
if (exchange == null)
{
if (!connectionPool.release(connection))
connection.close();
if (!client.isRunning())
{
if (LOG.isDebugEnabled())
LOG.debug("{} is stopping", client);
connection.close();
}
return false;
}
else
{
Request request = exchange.getRequest();
Throwable cause = request.getAbortCause();
if (cause != null)
{
if (LOG.isDebugEnabled())
LOG.debug("Aborted before processing {}: {}", exchange, cause);
// Won't use this connection, release it back.
boolean released = connectionPool.release(connection);
if (!released)
connection.close();
// It may happen that the request is aborted before the exchange
// is created. Aborting the exchange a second time will result in
// a no-operation, so we just abort here to cover that edge case.
exchange.abort(cause);
return getQueuedRequestCount() > 0;
}
SendFailure failure = send((IConnection)connection, exchange);
if (failure == null)
{
// Aggressively send other queued requests
// in case connections are multiplexed.
return getQueuedRequestCount() > 0;
}
if (LOG.isDebugEnabled())
LOG.debug("Send failed {} for {}", failure, exchange);
if (failure.retry)
{
// Resend this exchange, likely on another connection,
// and return false to avoid to re-enter this method.
send(exchange);
return false;
}
request.abort(failure.failure);
return getQueuedRequestCount() > 0;
}
}
protected SendFailure send(IConnection connection, HttpExchange exchange)
{
return connection.send(exchange);
}
@Override
public void newConnection(Promise<Connection> promise)
{
createConnection(promise);
}
protected void createConnection(Promise<Connection> promise)
{
client.newConnection(this, promise);
}
public boolean remove(HttpExchange exchange)
{
return exchanges.remove(exchange);
}
@Override
public void close()
{
abort(new AsynchronousCloseException());
if (LOG.isDebugEnabled())
LOG.debug("Closed {}", this);
connectionPool.close();
requestTimeouts.destroy();
}
public void release(Connection connection)
{
if (LOG.isDebugEnabled())
LOG.debug("Released {}", connection);
HttpClient client = getHttpClient();
if (client.isRunning())
{
if (connectionPool.isActive(connection))
{
// Trigger the next request after releasing the connection.
if (connectionPool.release(connection))
{
send(false);
}
else
{
connection.close();
send(true);
}
}
else
{
if (LOG.isDebugEnabled())
LOG.debug("Released explicit {}", connection);
}
}
else
{
if (LOG.isDebugEnabled())
LOG.debug("{} is stopped", client);
connection.close();
}
}
public boolean remove(Connection connection)
{
boolean removed = connectionPool.remove(connection);
if (removed)
{
// Process queued requests that may be waiting.
// We may create a connection that is not
// needed, but it will eventually idle timeout.
send(true);
}
return removed;
}
/**
* Aborts all the {@link HttpExchange}s queued in this destination.
*
* @param cause the abort cause
*/
public void abort(Throwable cause)
{
// Copy the queue of exchanges and fail only those that are queued at this moment.
// The application may queue another request from the failure/complete listener
// and we don't want to fail it immediately as if it was queued before the failure.
// The call to Request.abort() will remove the exchange from the exchanges queue.
for (HttpExchange exchange : new ArrayList<>(exchanges))
{
exchange.getRequest().abort(cause);
}
}
@Override
public void dump(Appendable out, String indent) throws IOException
{
dumpObjects(out, indent, new DumpableCollection("exchanges", exchanges));
}
public String asString()
{
return getOrigin().asString();
}
@ManagedAttribute("For how long this destination has been idle in ms")
public long getIdle()
{
if (getHttpClient().getDestinationIdleTimeout() <= 0L)
return -1;
try (AutoLock l = staleLock.lock())
{
return TimeUnit.NANOSECONDS.toMillis(System.nanoTime() - activeNanos);
}
}
@ManagedAttribute("Whether this destinations is stale")
public boolean isStale()
{
try (AutoLock l = staleLock.lock())
{
return this.stale;
}
}
@Override
public String toString()
{
return String.format("%s[%s]@%x%s,state=%s,queue=%d,pool=%s,stale=%b,idle=%d",
HttpDestination.class.getSimpleName(),
getOrigin(),
hashCode(),
proxy == null ? "" : "(via " + proxy + ")",
getState(),
getQueuedRequestCount(),
getConnectionPool(),
isStale(),
getIdle());
}
@FunctionalInterface
public interface Multiplexed
{
void setMaxRequestsPerConnection(int maxRequestsPerConnection);
}
/**
* <p>Enforces the total timeout for for exchanges that are still in the queue.</p>
* <p>The total timeout for exchanges that are not in the destination queue
* is enforced in {@link HttpConnection}.</p>
*/
private class RequestTimeouts extends CyclicTimeouts<HttpExchange>
{
private RequestTimeouts(Scheduler scheduler)
{
super(scheduler);
}
@Override
protected Iterator<HttpExchange> iterator()
{
return exchanges.iterator();
}
@Override
protected boolean onExpired(HttpExchange exchange)
{
HttpRequest request = exchange.getRequest();
request.abort(new TimeoutException("Total timeout " + request.getConversation().getTimeout() + " ms elapsed"));
return false;
}
}
}