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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up with different versions on classes on the class path).

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/*
 * JBoss, Home of Professional Open Source.
 * Copyright 2014 Red Hat, Inc., and individual contributors
 * as indicated by the @author tags.
 *
 * 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
 *
 *     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.
 */

package io.undertow.server.handlers.proxy;

import io.undertow.UndertowLogger;
import io.undertow.client.ClientConnection;
import io.undertow.client.UndertowClient;
import io.undertow.server.HttpServerExchange;
import io.undertow.server.ServerConnection;
import io.undertow.server.handlers.Cookie;
import io.undertow.util.AttachmentKey;
import io.undertow.util.AttachmentList;
import io.undertow.util.CopyOnWriteMap;
import org.xnio.OptionMap;
import org.xnio.ssl.XnioSsl;

import java.net.InetSocketAddress;
import java.net.URI;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.CopyOnWriteArraySet;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicInteger;

import static io.undertow.server.handlers.proxy.ProxyConnectionPool.AvailabilityType.*;
import static io.undertow.server.handlers.proxy.RouteIteratorFactory.*;
import java.util.ArrayList;
import java.util.List;
import static org.xnio.IoUtils.safeClose;

/**
 * Initial implementation of a load balancing proxy client. This initial implementation is rather simplistic, and
 * will likely change.
 *
 * @author Stuart Douglas
 * @author Richard Opalka
 */
public class LoadBalancingProxyClient implements ProxyClient {

    /**
     * The attachment key that is used to attach the proxy connection to the exchange.
     * 

* This cannot be static as otherwise a connection from a different client could be re-used. */ private final AttachmentKey exclusiveConnectionKey = AttachmentKey.create(ExclusiveConnectionHolder.class); private static final AttachmentKey> ATTEMPTED_HOSTS = AttachmentKey.createList(Host.class); /** * Time in seconds between retries for problem servers */ private volatile int problemServerRetry = 10; private final Set sessionCookieNames = new CopyOnWriteArraySet<>(); /** * The number of connections to create per thread */ private volatile int connectionsPerThread = 10; private volatile int maxQueueSize = 0; private volatile int softMaxConnectionsPerThread = 5; private volatile int ttl = -1; /** * The hosts list. */ private volatile Host[] hosts = {}; private final HostSelector hostSelector; private final UndertowClient client; private final Map routes = new CopyOnWriteMap<>(); private RouteIteratorFactory routeIteratorFactory = new RouteIteratorFactory(RouteParsingStrategy.SINGLE, ParsingCompatibility.MOD_JK); private final ExclusivityChecker exclusivityChecker; private static final ProxyTarget PROXY_TARGET = new ProxyTarget() { }; @Override public List getAllTargets() { List arr = new ArrayList(); for (Host host : hosts) { HostProxyTarget proxyTarget = new HostProxyTarget() { Host host; public void setHost(Host host) { this.host = host; } public String toString(){ return host.getUri().toString(); } }; proxyTarget.setHost(host); arr.add(proxyTarget); } return arr; } public LoadBalancingProxyClient() { this(UndertowClient.getInstance()); } public LoadBalancingProxyClient(UndertowClient client) { this(client, null, null); } public LoadBalancingProxyClient(ExclusivityChecker client) { this(UndertowClient.getInstance(), client, null); } public LoadBalancingProxyClient(UndertowClient client, ExclusivityChecker exclusivityChecker) { this(client, exclusivityChecker, null); } public LoadBalancingProxyClient(UndertowClient client, ExclusivityChecker exclusivityChecker, HostSelector hostSelector) { this.client = client; this.exclusivityChecker = exclusivityChecker; sessionCookieNames.add("JSESSIONID"); if(hostSelector == null) { this.hostSelector = new RoundRobinHostSelector(); } else { this.hostSelector = hostSelector; } } public LoadBalancingProxyClient addSessionCookieName(final String sessionCookieName) { sessionCookieNames.add(sessionCookieName); return this; } public LoadBalancingProxyClient removeSessionCookieName(final String sessionCookieName) { sessionCookieNames.remove(sessionCookieName); return this; } public LoadBalancingProxyClient setProblemServerRetry(int problemServerRetry) { this.problemServerRetry = problemServerRetry; return this; } public int getProblemServerRetry() { return problemServerRetry; } public int getConnectionsPerThread() { return connectionsPerThread; } public LoadBalancingProxyClient setConnectionsPerThread(int connectionsPerThread) { this.connectionsPerThread = connectionsPerThread; return this; } public int getMaxQueueSize() { return maxQueueSize; } public LoadBalancingProxyClient setMaxQueueSize(int maxQueueSize) { this.maxQueueSize = maxQueueSize; return this; } public LoadBalancingProxyClient setTtl(int ttl) { this.ttl = ttl; return this; } public LoadBalancingProxyClient setSoftMaxConnectionsPerThread(int softMaxConnectionsPerThread) { this.softMaxConnectionsPerThread = softMaxConnectionsPerThread; return this; } public LoadBalancingProxyClient setRouteParsingStrategy(RouteParsingStrategy routeParsingStrategy) { this.routeIteratorFactory = new RouteIteratorFactory(routeParsingStrategy, ParsingCompatibility.MOD_JK, null); return this; } /** * Configures ranked route delimiter, enabling ranked routing parsing strategy. */ public LoadBalancingProxyClient setRankedRoutingDelimiter(String rankedRoutingDelimiter) { this.routeIteratorFactory = new RouteIteratorFactory(RouteParsingStrategy.RANKED, ParsingCompatibility.MOD_JK, rankedRoutingDelimiter); return this; } public synchronized LoadBalancingProxyClient addHost(final URI host) { return addHost(host, null, null); } public synchronized LoadBalancingProxyClient addHost(final URI host, XnioSsl ssl) { return addHost(host, null, ssl); } public synchronized LoadBalancingProxyClient addHost(final URI host, String jvmRoute) { return addHost(host, jvmRoute, null); } public synchronized LoadBalancingProxyClient addHost(final URI host, String jvmRoute, XnioSsl ssl) { Host h = new Host(jvmRoute, null, host, ssl, OptionMap.EMPTY); Host[] existing = hosts; Host[] newHosts = new Host[existing.length + 1]; System.arraycopy(existing, 0, newHosts, 0, existing.length); newHosts[existing.length] = h; this.hosts = newHosts; if (jvmRoute != null) { this.routes.put(jvmRoute, h); } return this; } public synchronized LoadBalancingProxyClient addHost(final URI host, String jvmRoute, XnioSsl ssl, OptionMap options) { return addHost(null, host, jvmRoute, ssl, options); } public synchronized LoadBalancingProxyClient addHost(final InetSocketAddress bindAddress, final URI host, String jvmRoute, XnioSsl ssl, OptionMap options) { Host h = new Host(jvmRoute, bindAddress, host, ssl, options); Host[] existing = hosts; Host[] newHosts = new Host[existing.length + 1]; System.arraycopy(existing, 0, newHosts, 0, existing.length); newHosts[existing.length] = h; this.hosts = newHosts; if (jvmRoute != null) { this.routes.put(jvmRoute, h); } return this; } public synchronized LoadBalancingProxyClient removeHost(final URI uri) { int found = -1; Host[] existing = hosts; Host removedHost = null; for (int i = 0; i < existing.length; ++i) { if (existing[i].uri.equals(uri)) { found = i; removedHost = existing[i]; break; } } if (found == -1) { return this; } Host[] newHosts = new Host[existing.length - 1]; System.arraycopy(existing, 0, newHosts, 0, found); System.arraycopy(existing, found + 1, newHosts, found, existing.length - found - 1); this.hosts = newHosts; removedHost.connectionPool.close(); if (removedHost.jvmRoute != null) { routes.remove(removedHost.jvmRoute); } return this; } @Override public ProxyTarget findTarget(HttpServerExchange exchange) { return PROXY_TARGET; } @Override public void getConnection(ProxyTarget target, HttpServerExchange exchange, final ProxyCallback callback, long timeout, TimeUnit timeUnit) { final ExclusiveConnectionHolder holder = exchange.getConnection().getAttachment(exclusiveConnectionKey); if (holder != null && holder.connection.getConnection().isOpen()) { // Something has already caused an exclusive connection to be allocated so keep using it. callback.completed(exchange, holder.connection); return; } final Host host = selectHost(exchange); if (host == null) { callback.couldNotResolveBackend(exchange); } else { exchange.addToAttachmentList(ATTEMPTED_HOSTS, host); if (holder != null || (exclusivityChecker != null && exclusivityChecker.isExclusivityRequired(exchange))) { // If we have a holder, even if the connection was closed we now exclusivity was already requested so our client // may be assuming it still exists. host.connectionPool.connect(target, exchange, new ProxyCallback() { @Override public void completed(HttpServerExchange exchange, ProxyConnection result) { if (holder != null) { holder.connection = result; } else { final ExclusiveConnectionHolder newHolder = new ExclusiveConnectionHolder(); newHolder.connection = result; ServerConnection connection = exchange.getConnection(); connection.putAttachment(exclusiveConnectionKey, newHolder); connection.addCloseListener(new ServerConnection.CloseListener() { @Override public void closed(ServerConnection connection) { ClientConnection clientConnection = newHolder.connection.getConnection(); if (clientConnection.isOpen()) { safeClose(clientConnection); } } }); } callback.completed(exchange, result); } @Override public void queuedRequestFailed(HttpServerExchange exchange) { callback.queuedRequestFailed(exchange); } @Override public void failed(HttpServerExchange exchange) { UndertowLogger.PROXY_REQUEST_LOGGER.proxyFailedToConnectToBackend(exchange.getRequestURI(), host.uri); callback.failed(exchange); } @Override public void couldNotResolveBackend(HttpServerExchange exchange) { callback.couldNotResolveBackend(exchange); } }, timeout, timeUnit, true); } else { host.connectionPool.connect(target, exchange, callback, timeout, timeUnit, false); } } } protected Host selectHost(HttpServerExchange exchange) { AttachmentList attempted = exchange.getAttachment(ATTEMPTED_HOSTS); Host[] hosts = this.hosts; if (hosts.length == 0) { return null; } Iterator parsedRoutes = parseRoutes(exchange); while (parsedRoutes.hasNext()) { // Attempt to find the first existing host which was not yet attempted Host host = this.routes.get(parsedRoutes.next().toString()); if (host != null) { if(attempted == null || !attempted.contains(host)) { return host; } } } int host = hostSelector.selectHost(hosts); final int startHost = host; //if the all hosts have problems we come back to this one Host full = null; Host problem = null; do { Host selected = hosts[host]; if(attempted == null || !attempted.contains(selected)) { ProxyConnectionPool.AvailabilityType available = selected.connectionPool.available(); if (available == AVAILABLE) { return selected; } else if (available == FULL && full == null) { full = selected; } else if ((available == PROBLEM || available == FULL_QUEUE) && problem == null) { problem = selected; } } host = (host + 1) % hosts.length; } while (host != startHost); if (full != null) { return full; } if (problem != null) { return problem; } //no available hosts return null; } protected Iterator parseRoutes(HttpServerExchange exchange) { for (String cookieName : sessionCookieNames) { for (Cookie cookie : exchange.requestCookies()) { if (cookieName.equals(cookie.getName())) { return routeIteratorFactory.iterator(cookie.getValue()); } } } return routeIteratorFactory.iterator(null); } /** * Should only be used for tests * * DO NOT CALL THIS METHOD WHEN REQUESTS ARE IN PROGRESS * * It is not thread safe so internal state can get messed up. */ public void closeCurrentConnections() { for(Host host : hosts) { host.closeCurrentConnections(); } } public final class Host extends ConnectionPoolErrorHandler.SimpleConnectionPoolErrorHandler implements ConnectionPoolManager { final ProxyConnectionPool connectionPool; final String jvmRoute; final URI uri; final XnioSsl ssl; private Host(String jvmRoute, InetSocketAddress bindAddress, URI uri, XnioSsl ssl, OptionMap options) { this.connectionPool = new ProxyConnectionPool(this, bindAddress, uri, ssl, client, options); this.jvmRoute = jvmRoute; this.uri = uri; this.ssl = ssl; } @Override public int getProblemServerRetry() { return problemServerRetry; } @Override public int getMaxConnections() { return connectionsPerThread; } @Override public int getMaxCachedConnections() { return connectionsPerThread; } @Override public int getSMaxConnections() { return softMaxConnectionsPerThread; } @Override public long getTtl() { return ttl; } @Override public int getMaxQueueSize() { return maxQueueSize; } public URI getUri() { return uri; } void closeCurrentConnections() { connectionPool.closeCurrentConnections(); } } private static class ExclusiveConnectionHolder { private ProxyConnection connection; } public interface HostSelector { int selectHost(Host[] availableHosts); } static class RoundRobinHostSelector implements HostSelector { private final AtomicInteger currentHost = new AtomicInteger(0); @Override public int selectHost(Host[] availableHosts) { return currentHost.incrementAndGet() % availableHosts.length; } } }





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