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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
 * .
 *
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package com.pdd.pop.ext.apache.http.impl.conn;

import java.io.Closeable;
import java.io.IOException;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.CancellationException;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicBoolean;

import com.pdd.pop.ext.apache.commons.logging.Log;
import com.pdd.pop.ext.apache.commons.logging.LogFactory;
import com.pdd.pop.ext.apache.http.HttpClientConnection;
import com.pdd.pop.ext.apache.http.HttpHost;
import com.pdd.pop.ext.apache.http.annotation.Contract;
import com.pdd.pop.ext.apache.http.annotation.ThreadingBehavior;
import com.pdd.pop.ext.apache.http.config.ConnectionConfig;
import com.pdd.pop.ext.apache.http.config.Lookup;
import com.pdd.pop.ext.apache.http.config.Registry;
import com.pdd.pop.ext.apache.http.config.RegistryBuilder;
import com.pdd.pop.ext.apache.http.config.SocketConfig;
import com.pdd.pop.ext.apache.http.conn.ConnectionPoolTimeoutException;
import com.pdd.pop.ext.apache.http.conn.ConnectionRequest;
import com.pdd.pop.ext.apache.http.conn.DnsResolver;
import com.pdd.pop.ext.apache.http.conn.HttpClientConnectionManager;
import com.pdd.pop.ext.apache.http.conn.HttpClientConnectionOperator;
import com.pdd.pop.ext.apache.http.conn.HttpConnectionFactory;
import com.pdd.pop.ext.apache.http.conn.ManagedHttpClientConnection;
import com.pdd.pop.ext.apache.http.conn.SchemePortResolver;
import com.pdd.pop.ext.apache.http.conn.routing.HttpRoute;
import com.pdd.pop.ext.apache.http.conn.socket.ConnectionSocketFactory;
import com.pdd.pop.ext.apache.http.conn.socket.PlainConnectionSocketFactory;
import com.pdd.pop.ext.apache.http.conn.ssl.SSLConnectionSocketFactory;
import com.pdd.pop.ext.apache.http.pool.ConnFactory;
import com.pdd.pop.ext.apache.http.pool.ConnPoolControl;
import com.pdd.pop.ext.apache.http.pool.PoolEntryCallback;
import com.pdd.pop.ext.apache.http.pool.PoolStats;
import com.pdd.pop.ext.apache.http.protocol.HttpContext;
import com.pdd.pop.ext.apache.http.util.Args;
import com.pdd.pop.ext.apache.http.util.Asserts;

/**
 * {@code ClientConnectionPoolManager} maintains a pool of
 * {@link HttpClientConnection}s and is able to service connection requests
 * from multiple execution threads. Connections are pooled on a per route
 * basis. A request for a route which already the manager has persistent
 * connections for available in the pool will be services by leasing
 * a connection from the pool rather than creating a brand new connection.
 * 

* {@code ClientConnectionPoolManager} maintains a maximum limit of connection * on a per route basis and in total. Per default this implementation will * create no more than than 2 concurrent connections per given route * and no more 20 connections in total. For many real-world applications * these limits may prove too constraining, especially if they use HTTP * as a transport protocol for their services. Connection limits, however, * can be adjusted using {@link ConnPoolControl} methods. *

*

* Total time to live (TTL) set at construction time defines maximum life span * of persistent connections regardless of their expiration setting. No persistent * connection will be re-used past its TTL value. *

*

* The handling of stale connections was changed in version 4.4. * Previously, the code would check every connection by default before re-using it. * The code now only checks the connection if the elapsed time since * the last use of the connection exceeds the timeout that has been set. * The default timeout is set to 2000ms *

* * @since 4.3 */ @Contract(threading = ThreadingBehavior.SAFE_CONDITIONAL) public class PoolingHttpClientConnectionManager implements HttpClientConnectionManager, ConnPoolControl, Closeable { private final Log log = LogFactory.getLog(getClass()); private final ConfigData configData; private final CPool pool; private final HttpClientConnectionOperator connectionOperator; private final AtomicBoolean isShutDown; private static Registry getDefaultRegistry() { return RegistryBuilder.create() .register("http", PlainConnectionSocketFactory.getSocketFactory()) .register("https", SSLConnectionSocketFactory.getSocketFactory()) .build(); } public PoolingHttpClientConnectionManager() { this(getDefaultRegistry()); } public PoolingHttpClientConnectionManager(final long timeToLive, final TimeUnit timeUnit) { this(getDefaultRegistry(), null, null ,null, timeToLive, timeUnit); } public PoolingHttpClientConnectionManager( final Registry socketFactoryRegistry) { this(socketFactoryRegistry, null, null); } public PoolingHttpClientConnectionManager( final Registry socketFactoryRegistry, final DnsResolver dnsResolver) { this(socketFactoryRegistry, null, dnsResolver); } public PoolingHttpClientConnectionManager( final Registry socketFactoryRegistry, final HttpConnectionFactory connFactory) { this(socketFactoryRegistry, connFactory, null); } public PoolingHttpClientConnectionManager( final HttpConnectionFactory connFactory) { this(getDefaultRegistry(), connFactory, null); } public PoolingHttpClientConnectionManager( final Registry socketFactoryRegistry, final HttpConnectionFactory connFactory, final DnsResolver dnsResolver) { this(socketFactoryRegistry, connFactory, null, dnsResolver, -1, TimeUnit.MILLISECONDS); } public PoolingHttpClientConnectionManager( final Registry socketFactoryRegistry, final HttpConnectionFactory connFactory, final SchemePortResolver schemePortResolver, final DnsResolver dnsResolver, final long timeToLive, final TimeUnit timeUnit) { this( new DefaultHttpClientConnectionOperator(socketFactoryRegistry, schemePortResolver, dnsResolver), connFactory, timeToLive, timeUnit ); } /** * @since 4.4 */ public PoolingHttpClientConnectionManager( final HttpClientConnectionOperator httpClientConnectionOperator, final HttpConnectionFactory connFactory, final long timeToLive, final TimeUnit timeUnit) { super(); this.configData = new ConfigData(); this.pool = new CPool(new InternalConnectionFactory( this.configData, connFactory), 2, 20, timeToLive, timeUnit); this.pool.setValidateAfterInactivity(2000); this.connectionOperator = Args.notNull(httpClientConnectionOperator, "HttpClientConnectionOperator"); this.isShutDown = new AtomicBoolean(false); } /** * Visible for test. */ PoolingHttpClientConnectionManager( final CPool pool, final Lookup socketFactoryRegistry, final SchemePortResolver schemePortResolver, final DnsResolver dnsResolver) { super(); this.configData = new ConfigData(); this.pool = pool; this.connectionOperator = new DefaultHttpClientConnectionOperator( socketFactoryRegistry, schemePortResolver, dnsResolver); this.isShutDown = new AtomicBoolean(false); } @Override protected void finalize() throws Throwable { try { shutdown(); } finally { super.finalize(); } } @Override public void close() { shutdown(); } private String format(final HttpRoute route, final Object state) { final StringBuilder buf = new StringBuilder(); buf.append("[route: ").append(route).append("]"); if (state != null) { buf.append("[state: ").append(state).append("]"); } return buf.toString(); } private String formatStats(final HttpRoute route) { final StringBuilder buf = new StringBuilder(); final PoolStats totals = this.pool.getTotalStats(); final PoolStats stats = this.pool.getStats(route); buf.append("[total kept alive: ").append(totals.getAvailable()).append("; "); buf.append("route allocated: ").append(stats.getLeased() + stats.getAvailable()); buf.append(" of ").append(stats.getMax()).append("; "); buf.append("total allocated: ").append(totals.getLeased() + totals.getAvailable()); buf.append(" of ").append(totals.getMax()).append("]"); return buf.toString(); } private String format(final CPoolEntry entry) { final StringBuilder buf = new StringBuilder(); buf.append("[id: ").append(entry.getId()).append("]"); buf.append("[route: ").append(entry.getRoute()).append("]"); final Object state = entry.getState(); if (state != null) { buf.append("[state: ").append(state).append("]"); } return buf.toString(); } private SocketConfig resolveSocketConfig(final HttpHost host) { SocketConfig socketConfig = this.configData.getSocketConfig(host); if (socketConfig == null) { socketConfig = this.configData.getDefaultSocketConfig(); } if (socketConfig == null) { socketConfig = SocketConfig.DEFAULT; } return socketConfig; } @Override public ConnectionRequest requestConnection( final HttpRoute route, final Object state) { Args.notNull(route, "HTTP route"); if (this.log.isDebugEnabled()) { this.log.debug("Connection request: " + format(route, state) + formatStats(route)); } final Future future = this.pool.lease(route, state, null); return new ConnectionRequest() { @Override public boolean cancel() { return future.cancel(true); } @Override public HttpClientConnection get( final long timeout, final TimeUnit timeUnit) throws InterruptedException, ExecutionException, ConnectionPoolTimeoutException { final HttpClientConnection conn = leaseConnection(future, timeout, timeUnit); if (conn.isOpen()) { final HttpHost host; if (route.getProxyHost() != null) { host = route.getProxyHost(); } else { host = route.getTargetHost(); } final SocketConfig socketConfig = resolveSocketConfig(host); conn.setSocketTimeout(socketConfig.getSoTimeout()); } return conn; } }; } protected HttpClientConnection leaseConnection( final Future future, final long timeout, final TimeUnit timeUnit) throws InterruptedException, ExecutionException, ConnectionPoolTimeoutException { final CPoolEntry entry; try { entry = future.get(timeout, timeUnit); if (entry == null || future.isCancelled()) { throw new ExecutionException(new CancellationException("Operation cancelled")); } Asserts.check(entry.getConnection() != null, "Pool entry with no connection"); if (this.log.isDebugEnabled()) { this.log.debug("Connection leased: " + format(entry) + formatStats(entry.getRoute())); } return CPoolProxy.newProxy(entry); } catch (final TimeoutException ex) { throw new ConnectionPoolTimeoutException("Timeout waiting for connection from pool"); } } @Override public void releaseConnection( final HttpClientConnection managedConn, final Object state, final long keepalive, final TimeUnit timeUnit) { Args.notNull(managedConn, "Managed connection"); synchronized (managedConn) { final CPoolEntry entry = CPoolProxy.detach(managedConn); if (entry == null) { return; } final ManagedHttpClientConnection conn = entry.getConnection(); try { if (conn.isOpen()) { final TimeUnit effectiveUnit = timeUnit != null ? timeUnit : TimeUnit.MILLISECONDS; entry.setState(state); entry.updateExpiry(keepalive, effectiveUnit); if (this.log.isDebugEnabled()) { final String s; if (keepalive > 0) { s = "for " + (double) effectiveUnit.toMillis(keepalive) / 1000 + " seconds"; } else { s = "indefinitely"; } this.log.debug("Connection " + format(entry) + " can be kept alive " + s); } conn.setSocketTimeout(0); } } finally { this.pool.release(entry, conn.isOpen() && entry.isRouteComplete()); if (this.log.isDebugEnabled()) { this.log.debug("Connection released: " + format(entry) + formatStats(entry.getRoute())); } } } } @Override public void connect( final HttpClientConnection managedConn, final HttpRoute route, final int connectTimeout, final HttpContext context) throws IOException { Args.notNull(managedConn, "Managed Connection"); Args.notNull(route, "HTTP route"); final ManagedHttpClientConnection conn; synchronized (managedConn) { final CPoolEntry entry = CPoolProxy.getPoolEntry(managedConn); conn = entry.getConnection(); } final HttpHost host; if (route.getProxyHost() != null) { host = route.getProxyHost(); } else { host = route.getTargetHost(); } this.connectionOperator.connect( conn, host, route.getLocalSocketAddress(), connectTimeout, resolveSocketConfig(host), context); } @Override public void upgrade( final HttpClientConnection managedConn, final HttpRoute route, final HttpContext context) throws IOException { Args.notNull(managedConn, "Managed Connection"); Args.notNull(route, "HTTP route"); final ManagedHttpClientConnection conn; synchronized (managedConn) { final CPoolEntry entry = CPoolProxy.getPoolEntry(managedConn); conn = entry.getConnection(); } this.connectionOperator.upgrade(conn, route.getTargetHost(), context); } @Override public void routeComplete( final HttpClientConnection managedConn, final HttpRoute route, final HttpContext context) throws IOException { Args.notNull(managedConn, "Managed Connection"); Args.notNull(route, "HTTP route"); synchronized (managedConn) { final CPoolEntry entry = CPoolProxy.getPoolEntry(managedConn); entry.markRouteComplete(); } } @Override public void shutdown() { if (this.isShutDown.compareAndSet(false, true)) { this.log.debug("Connection manager is shutting down"); try { this.pool.shutdown(); } catch (final IOException ex) { this.log.debug("I/O exception shutting down connection manager", ex); } this.log.debug("Connection manager shut down"); } } @Override public void closeIdleConnections(final long idleTimeout, final TimeUnit timeUnit) { if (this.log.isDebugEnabled()) { this.log.debug("Closing connections idle longer than " + idleTimeout + " " + timeUnit); } this.pool.closeIdle(idleTimeout, timeUnit); } @Override public void closeExpiredConnections() { this.log.debug("Closing expired connections"); this.pool.closeExpired(); } protected void enumAvailable(final PoolEntryCallback callback) { this.pool.enumAvailable(callback); } protected void enumLeased(final PoolEntryCallback callback) { this.pool.enumLeased(callback); } @Override public int getMaxTotal() { return this.pool.getMaxTotal(); } @Override public void setMaxTotal(final int max) { this.pool.setMaxTotal(max); } @Override public int getDefaultMaxPerRoute() { return this.pool.getDefaultMaxPerRoute(); } @Override public void setDefaultMaxPerRoute(final int max) { this.pool.setDefaultMaxPerRoute(max); } @Override public int getMaxPerRoute(final HttpRoute route) { return this.pool.getMaxPerRoute(route); } @Override public void setMaxPerRoute(final HttpRoute route, final int max) { this.pool.setMaxPerRoute(route, max); } @Override public PoolStats getTotalStats() { return this.pool.getTotalStats(); } @Override public PoolStats getStats(final HttpRoute route) { return this.pool.getStats(route); } /** * @since 4.4 */ public Set getRoutes() { return this.pool.getRoutes(); } public SocketConfig getDefaultSocketConfig() { return this.configData.getDefaultSocketConfig(); } public void setDefaultSocketConfig(final SocketConfig defaultSocketConfig) { this.configData.setDefaultSocketConfig(defaultSocketConfig); } public ConnectionConfig getDefaultConnectionConfig() { return this.configData.getDefaultConnectionConfig(); } public void setDefaultConnectionConfig(final ConnectionConfig defaultConnectionConfig) { this.configData.setDefaultConnectionConfig(defaultConnectionConfig); } public SocketConfig getSocketConfig(final HttpHost host) { return this.configData.getSocketConfig(host); } public void setSocketConfig(final HttpHost host, final SocketConfig socketConfig) { this.configData.setSocketConfig(host, socketConfig); } public ConnectionConfig getConnectionConfig(final HttpHost host) { return this.configData.getConnectionConfig(host); } public void setConnectionConfig(final HttpHost host, final ConnectionConfig connectionConfig) { this.configData.setConnectionConfig(host, connectionConfig); } /** * @see #setValidateAfterInactivity(int) * * @since 4.4 */ public int getValidateAfterInactivity() { return pool.getValidateAfterInactivity(); } /** * Defines period of inactivity in milliseconds after which persistent connections must * be re-validated prior to being {@link #leaseConnection(java.util.concurrent.Future, * long, java.util.concurrent.TimeUnit) leased} to the consumer. Non-positive value passed * to this method disables connection validation. This check helps detect connections * that have become stale (half-closed) while kept inactive in the pool. * * @see #leaseConnection(java.util.concurrent.Future, long, java.util.concurrent.TimeUnit) * * @since 4.4 */ public void setValidateAfterInactivity(final int ms) { pool.setValidateAfterInactivity(ms); } static class ConfigData { private final Map socketConfigMap; private final Map connectionConfigMap; private volatile SocketConfig defaultSocketConfig; private volatile ConnectionConfig defaultConnectionConfig; ConfigData() { super(); this.socketConfigMap = new ConcurrentHashMap(); this.connectionConfigMap = new ConcurrentHashMap(); } public SocketConfig getDefaultSocketConfig() { return this.defaultSocketConfig; } public void setDefaultSocketConfig(final SocketConfig defaultSocketConfig) { this.defaultSocketConfig = defaultSocketConfig; } public ConnectionConfig getDefaultConnectionConfig() { return this.defaultConnectionConfig; } public void setDefaultConnectionConfig(final ConnectionConfig defaultConnectionConfig) { this.defaultConnectionConfig = defaultConnectionConfig; } public SocketConfig getSocketConfig(final HttpHost host) { return this.socketConfigMap.get(host); } public void setSocketConfig(final HttpHost host, final SocketConfig socketConfig) { this.socketConfigMap.put(host, socketConfig); } public ConnectionConfig getConnectionConfig(final HttpHost host) { return this.connectionConfigMap.get(host); } public void setConnectionConfig(final HttpHost host, final ConnectionConfig connectionConfig) { this.connectionConfigMap.put(host, connectionConfig); } } static class InternalConnectionFactory implements ConnFactory { private final ConfigData configData; private final HttpConnectionFactory connFactory; InternalConnectionFactory( final ConfigData configData, final HttpConnectionFactory connFactory) { super(); this.configData = configData != null ? configData : new ConfigData(); this.connFactory = connFactory != null ? connFactory : ManagedHttpClientConnectionFactory.INSTANCE; } @Override public ManagedHttpClientConnection create(final HttpRoute route) throws IOException { ConnectionConfig config = null; if (route.getProxyHost() != null) { config = this.configData.getConnectionConfig(route.getProxyHost()); } if (config == null) { config = this.configData.getConnectionConfig(route.getTargetHost()); } if (config == null) { config = this.configData.getDefaultConnectionConfig(); } if (config == null) { config = ConnectionConfig.DEFAULT; } return this.connFactory.create(route, config); } } }




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