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//
// ========================================================================
// Copyright (c) 1995 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.util.component;

import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.EventListener;
import java.util.HashSet;
import java.util.List;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.CopyOnWriteArrayList;

import org.eclipse.jetty.util.MultiException;
import org.eclipse.jetty.util.annotation.ManagedObject;
import org.eclipse.jetty.util.annotation.ManagedOperation;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * A ContainerLifeCycle is an {@link LifeCycle} implementation for a collection of contained beans.
 * 

* Beans can be added to the ContainerLifeCycle either as managed beans or as unmanaged beans. * A managed bean is started, stopped and destroyed with the aggregate. * An unmanaged bean is associated with the aggregate for the purposes of {@link #dump()}, but its * lifecycle must be managed externally. *

* When a {@link LifeCycle} bean is added without a managed state being specified the state is * determined heuristically: *

    *
  • If the added bean is running, it will be added as an unmanaged bean.
  • *
  • If the added bean is !running and the container is !running, it will be added as an AUTO bean (see below).
  • *
  • If the added bean is !running and the container is starting, it will be added as a managed bean * and will be started (this handles the frequent case of new beans added during calls to doStart).
  • *
  • If the added bean is !running and the container is started, it will be added as an unmanaged bean.
  • *
* When the container is started, then all contained managed beans will also be started. * Any contained AUTO beans will be check for their status and if already started will be switched unmanaged beans, * else they will be started and switched to managed beans. * Beans added after a container is started are not started and their state needs to be explicitly managed. *

* When stopping the container, a contained bean will be stopped by this aggregate only if it * is started by this aggregate. *

* The methods {@link #addBean(Object, boolean)}, {@link #manage(Object)} and {@link #unmanage(Object)} can be used to * explicitly control the life cycle relationship. *

* If adding a bean that is shared between multiple {@link ContainerLifeCycle} instances, then it should be started * before being added, so it is unmanaged, or the API must be used to explicitly set it as unmanaged. *

* All {@link EventListener}s added via {@link #addEventListener(EventListener)} are also added as beans and all beans * added via an {@link #addBean(Object)} method that are also {@link EventListener}s are added as listeners via a * call to {@link #addEventListener(EventListener)}. *

* This class also provides utility methods to dump deep structures of objects. * In the dump, the following symbols are used to indicate the type of contained object: *

 * SomeContainerLifeCycleInstance
 *   +- contained POJO instance
 *   += contained MANAGED object, started and stopped with this instance
 *   +~ referenced UNMANAGED object, with separate lifecycle
 *   +? referenced AUTO object that could become MANAGED or UNMANAGED.
 * 
*/ @ManagedObject("Implementation of Container and LifeCycle") public class ContainerLifeCycle extends AbstractLifeCycle implements Container, Destroyable, Dumpable.DumpableContainer { private static final Logger LOG = LoggerFactory.getLogger(ContainerLifeCycle.class); private final List _beans = new CopyOnWriteArrayList<>(); private final List _listeners = new CopyOnWriteArrayList<>(); private boolean _doStarted; private boolean _destroyed; /** * Starts the managed lifecycle beans in the order they were added. */ @Override protected void doStart() throws Exception { if (_destroyed) throw new IllegalStateException("Destroyed container cannot be restarted"); // indicate that we are started, so that addBean will start other beans added. _doStarted = true; // start our managed and auto beans try { for (Bean b : _beans) { if (!isStarting()) break; if (b._bean instanceof LifeCycle) { LifeCycle l = (LifeCycle)b._bean; switch (b._managed) { case MANAGED: if (l.isStopped() || l.isFailed()) start(l); break; case AUTO: if (l.isStopped()) { manage(b); start(l); } else { unmanage(b); } break; default: break; } } } } catch (Throwable th) { // on failure, stop any managed components that have been started List reverse = new ArrayList<>(_beans); Collections.reverse(reverse); for (Bean b : reverse) { if (b._bean instanceof LifeCycle && b._managed == Managed.MANAGED) { LifeCycle l = (LifeCycle)b._bean; if (l.isRunning()) { try { stop(l); } catch (Throwable th2) { if (th2 != th) th.addSuppressed(th2); } } } } throw th; } } /** * Starts the given lifecycle. * * @param l the lifecycle to start * @throws Exception if unable to start lifecycle */ protected void start(LifeCycle l) throws Exception { l.start(); } /** * Stops the given lifecycle. * * @param l the lifecycle to stop * @throws Exception if unable to stop the lifecycle */ protected void stop(LifeCycle l) throws Exception { l.stop(); } /** * Stops the managed lifecycle beans in the reverse order they were added. */ @Override protected void doStop() throws Exception { _doStarted = false; super.doStop(); List reverse = new ArrayList<>(_beans); Collections.reverse(reverse); MultiException mex = new MultiException(); for (Bean b : reverse) { if (!isStopping()) break; if (b._managed == Managed.MANAGED && b._bean instanceof LifeCycle) { LifeCycle l = (LifeCycle)b._bean; try { stop(l); } catch (Throwable th) { mex.add(th); } } } mex.ifExceptionThrow(); } /** * Destroys the managed Destroyable beans in the reverse order they were added. */ @Override public void destroy() { _destroyed = true; List reverse = new ArrayList<>(_beans); Collections.reverse(reverse); for (Bean b : reverse) { if (b._bean instanceof Destroyable && (b._managed == Managed.MANAGED || b._managed == Managed.POJO)) { Destroyable d = (Destroyable)b._bean; try { d.destroy(); } catch (Throwable th) { LOG.warn("Unable to destroy", th); } } } _beans.clear(); } /** * @param bean the bean to test * @return whether this aggregate contains the bean */ public boolean contains(Object bean) { for (Bean b : _beans) { if (b._bean == bean) return true; } return false; } /** * @param bean the bean to test * @return whether this aggregate contains and manages the bean */ @Override public boolean isManaged(Object bean) { for (Bean b : _beans) { if (b._bean == bean) return b.isManaged(); } return false; } /** * @param bean the bean to test * @return whether this aggregate contains the bean in auto state */ public boolean isAuto(Object bean) { for (Bean b : _beans) { if (b._bean == bean) return b._managed == Managed.AUTO; } return false; } /** * @param bean the bean to test * @return whether this aggregate contains the bean in auto state */ public boolean isUnmanaged(Object bean) { for (Bean b : _beans) { if (b._bean == bean) return b._managed == Managed.UNMANAGED; } return false; } /** * Adds the given bean, detecting whether to manage it or not. * If the bean is a {@link LifeCycle}, then it will be managed if it is not * already started and not managed if it is already started. * The {@link #addBean(Object, boolean)} * method should be used if this is not correct, or the {@link #manage(Object)} and {@link #unmanage(Object)} * methods may be used after an add to change the status. * * @param o the bean object to add * @return true if the bean was added, false if it was already present */ @Override public boolean addBean(Object o) { if (o instanceof LifeCycle) { LifeCycle l = (LifeCycle)o; return addBean(o, l.isRunning() ? Managed.UNMANAGED : Managed.AUTO); } return addBean(o, Managed.POJO); } /** * Adds the given bean, explicitly managing it or not. * * @param o The bean object to add * @param managed whether to managed the lifecycle of the bean * @return true if the bean was added, false if it was already present */ @Override public boolean addBean(Object o, boolean managed) { if (o instanceof LifeCycle) return addBean(o, managed ? Managed.MANAGED : Managed.UNMANAGED); return addBean(o, managed ? Managed.POJO : Managed.UNMANAGED); } private boolean addBean(Object o, Managed managed) { if (o == null || contains(o)) return false; Bean newBean = new Bean(o); // Add the bean _beans.add(newBean); // Tell any existing listeners about the new bean for (Container.Listener l : _listeners) l.beanAdded(this, o); // if the bean is an EventListener, then add it. Because we have already added it as a bean above, then // addBean will not be called back. if (o instanceof EventListener) addEventListener((EventListener)o); try { switch (managed) { case UNMANAGED: unmanage(newBean); break; case MANAGED: manage(newBean); if (isStarting() && _doStarted) { LifeCycle l = (LifeCycle)o; if (!l.isRunning()) start(l); } break; case AUTO: if (o instanceof LifeCycle) { LifeCycle l = (LifeCycle)o; if (isStarting()) { if (l.isRunning()) unmanage(newBean); else if (_doStarted) { manage(newBean); start(l); } else newBean._managed = Managed.AUTO; } else if (isStarted()) unmanage(newBean); else newBean._managed = Managed.AUTO; } else newBean._managed = Managed.POJO; break; case POJO: newBean._managed = Managed.POJO; break; default: throw new IllegalStateException(managed.toString()); } } catch (RuntimeException | Error e) { throw e; } catch (Exception e) { throw new RuntimeException(e); } if (LOG.isDebugEnabled()) LOG.debug("{} added {}", this, newBean); return true; } /** * Adds a managed lifecycle. *

This is a convenience method that uses addBean(lifecycle,true) * and then ensures that the added bean is started iff this container * is running. Exception from nested calls to start are caught and * wrapped as RuntimeExceptions * * @param lifecycle the managed lifecycle to add */ public void addManaged(LifeCycle lifecycle) { addBean(lifecycle, true); try { if (isRunning() && !lifecycle.isRunning()) start(lifecycle); } catch (RuntimeException | Error e) { throw e; } catch (Exception e) { throw new RuntimeException(e); } } @Override public boolean addEventListener(EventListener listener) { // Has it already been added as a listener? if (super.addEventListener(listener)) { // If it is not yet a bean, if (!contains(listener)) // add it as a bean, we will be called back to add it as an event listener, but it will have // already been added, so we will not enter this branch. addBean(listener); if (listener instanceof Container.Listener) { Container.Listener cl = (Container.Listener)listener; _listeners.add(cl); // tell it about existing beans for (Bean b : _beans) { cl.beanAdded(this, b._bean); // handle inheritance if (listener instanceof InheritedListener && b.isManaged() && b._bean instanceof Container) { if (b._bean instanceof ContainerLifeCycle) Container.addBean(b._bean, listener, false); else Container.addBean(b._bean, listener); } } } return true; } return false; } @Override public boolean removeEventListener(EventListener listener) { if (super.removeEventListener(listener)) { removeBean(listener); if (listener instanceof Container.Listener && _listeners.remove(listener)) { Container.Listener cl = (Container.Listener)listener; // remove existing beans for (Bean b : _beans) { cl.beanRemoved(this, b._bean); if (listener instanceof InheritedListener && b.isManaged()) Container.removeBean(b._bean, listener); } } return true; } return false; } /** * Manages a bean already contained by this aggregate, so that it is started/stopped/destroyed with this * aggregate. * * @param bean The bean to manage (must already have been added). */ @Override public void manage(Object bean) { for (Bean b : _beans) { if (b._bean == bean) { manage(b); return; } } throw new IllegalArgumentException("Unknown bean " + bean); } private void manage(Bean bean) { if (bean._managed != Managed.MANAGED) { bean._managed = Managed.MANAGED; if (bean._bean instanceof Container) { for (Container.Listener l : _listeners) { if (l instanceof InheritedListener) { if (bean._bean instanceof ContainerLifeCycle) Container.addBean(bean._bean, l, false); else Container.addBean(bean._bean, l); } } } } } /** * Unmanages a bean already contained by this aggregate, so that it is not started/stopped/destroyed with this * aggregate. * * @param bean The bean to unmanage (must already have been added). */ @Override public void unmanage(Object bean) { for (Bean b : _beans) { if (b._bean == bean) { unmanage(b); return; } } throw new IllegalArgumentException("Unknown bean " + bean); } private void unmanage(Bean bean) { if (bean._managed != Managed.UNMANAGED) { if (bean._managed == Managed.MANAGED && bean._bean instanceof Container) { for (Container.Listener l : _listeners) { if (l instanceof InheritedListener) Container.removeBean(bean._bean, l); } } bean._managed = Managed.UNMANAGED; } } public void setBeans(Collection beans) { for (Object bean : beans) { addBean(bean); } } @Override public Collection getBeans() { return getBeans(Object.class); } @Override public Collection getBeans(Class clazz) { ArrayList beans = null; for (Bean b : _beans) { if (clazz.isInstance(b._bean)) { if (beans == null) beans = new ArrayList<>(); beans.add(clazz.cast(b._bean)); } } return beans == null ? Collections.emptyList() : beans; } @Override public T getBean(Class clazz) { for (Bean b : _beans) { if (clazz.isInstance(b._bean)) return clazz.cast(b._bean); } return null; } private Bean getBean(Object o) { for (Bean b : _beans) { if (b._bean == o) return b; } return null; } /** * Removes all bean */ public void removeBeans() { ArrayList beans = new ArrayList<>(_beans); for (Bean b : beans) { remove(b); } } @Override public boolean removeBean(Object o) { Bean b = getBean(o); return b != null && remove(b); } private boolean remove(Bean bean) { if (_beans.remove(bean)) { final boolean wasManaged = bean.isManaged(); unmanage(bean); for (Container.Listener l : _listeners) { l.beanRemoved(this, bean._bean); } // Remove event listeners, checking list here to avoid calling extended removeEventListener if already removed. if (bean._bean instanceof EventListener && getEventListeners().contains(bean._bean)) removeEventListener((EventListener)bean._bean); // stop managed beans if (wasManaged && bean._bean instanceof LifeCycle) { try { stop((LifeCycle)bean._bean); } catch (RuntimeException | Error e) { throw e; } catch (Exception e) { throw new RuntimeException(e); } } return true; } return false; } /** * Dumps to {@link System#err}. * * @see #dump() */ @ManagedOperation("Dump the object to stderr") public void dumpStdErr() { try { dump(System.err, ""); System.err.println(Dumpable.KEY); } catch (IOException e) { LOG.warn("Unable to dump", e); } } @Override @ManagedOperation("Dump the object to a string") public String dump() { return Dumpable.dump(this); } @Override public void dump(Appendable out, String indent) throws IOException { dumpObjects(out, indent); } /** * Dump this object to an Appendable with no indent. * * @param out The appendable to dump to. * @throws IOException May be thrown by the Appendable */ public void dump(Appendable out) throws IOException { dump(out, ""); } /** * Dump this object, it's contained beans and additional items to an Appendable * * @param out The appendable to dump to * @param indent The indent to apply after any new lines * @param items Additional items to be dumped as contained. * @throws IOException May be thrown by the Appendable */ protected void dumpObjects(Appendable out, String indent, Object... items) throws IOException { Dumpable.dumpObjects(out, indent, this, items); } enum Managed { POJO, MANAGED, UNMANAGED, AUTO } private static class Bean { private final Object _bean; private volatile Managed _managed = Managed.POJO; private Bean(Object b) { if (b == null) throw new NullPointerException(); _bean = b; } public boolean isManaged() { return _managed == Managed.MANAGED; } public boolean isManageable() { switch (_managed) { case MANAGED: return true; case AUTO: return _bean instanceof LifeCycle && ((LifeCycle)_bean).isStopped(); default: return false; } } @Override public String toString() { return String.format("{%s,%s}", _bean, _managed); } } public void updateBean(Object oldBean, final Object newBean) { if (newBean != oldBean) { if (oldBean != null) removeBean(oldBean); if (newBean != null) addBean(newBean); } } public void updateBean(Object oldBean, final Object newBean, boolean managed) { if (newBean != oldBean) { if (oldBean != null) removeBean(oldBean); if (newBean != null) addBean(newBean, managed); } } public void updateBeans(Object[] oldBeans, final Object[] newBeans) { updateBeans( oldBeans == null ? Collections.emptyList() : Arrays.asList(oldBeans), newBeans == null ? Collections.emptyList() : Arrays.asList(newBeans)); } public void updateBeans(final Collection oldBeans, final Collection newBeans) { Objects.requireNonNull(oldBeans); Objects.requireNonNull(newBeans); // remove oldChildren not in newChildren for (Object o : oldBeans) { if (!newBeans.contains(o)) removeBean(o); } // add new beans not in old for (Object n : newBeans) { if (!oldBeans.contains(n)) addBean(n); } } @Override public Collection getContainedBeans(Class clazz) { Set beans = new HashSet<>(); getContainedBeans(clazz, beans); return beans; } protected void getContainedBeans(Class clazz, Collection beans) { beans.addAll(getBeans(clazz)); for (Container c : getBeans(Container.class)) { Bean bean = getBean(c); if (bean != null && bean.isManageable()) { if (c instanceof ContainerLifeCycle) ((ContainerLifeCycle)c).getContainedBeans(clazz, beans); else beans.addAll(c.getContainedBeans(clazz)); } } } }