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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
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package org.apache.catalina.session;

import java.io.IOException;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;

import org.apache.catalina.Lifecycle;
import org.apache.catalina.LifecycleException;
import org.apache.catalina.LifecycleState;
import org.apache.catalina.Session;
import org.apache.catalina.Store;
import org.apache.catalina.StoreManager;
import org.apache.juli.logging.Log;
import org.apache.juli.logging.LogFactory;

/**
 * Extends the {@link ManagerBase} class to implement most of the functionality required by a Manager which supports any
 * kind of persistence, even if only for restarts.
 * 

* IMPLEMENTATION NOTE: Correct behavior of session storing and reloading depends upon external calls to the * {@link Lifecycle#start()} and {@link Lifecycle#stop()} methods of this class at the correct times. * * @author Craig R. McClanahan */ public abstract class PersistentManagerBase extends ManagerBase implements StoreManager { private final Log log = LogFactory.getLog(PersistentManagerBase.class); // must not be static // ----------------------------------------------------- Instance Variables /** * The descriptive name of this Manager implementation (for logging). */ private static final String name = "PersistentManagerBase"; /** * Key of the note of a session in which the timestamp of last backup is stored. */ private static final String PERSISTED_LAST_ACCESSED_TIME = "org.apache.catalina.session.PersistentManagerBase.persistedLastAccessedTime"; /** * Store object which will manage the Session store. */ protected Store store = null; /** * Whether to save and reload sessions when the Manager unload and load methods are * called. */ protected boolean saveOnRestart = true; /** * How long a session must be idle before it should be backed up. {@code -1} means sessions won't be backed up. */ protected int maxIdleBackup = -1; /** * The minimum time in seconds a session must be idle before it is eligible to be swapped to disk to keep the active * session count below maxActiveSessions. Setting to {@code -1} means sessions will not be swapped out to keep the * active session count down. */ protected int minIdleSwap = -1; /** * The maximum time in seconds a session may be idle before it is eligible to be swapped to disk due to inactivity. * Setting this to {@code -1} means sessions should not be swapped out just because of inactivity. */ protected int maxIdleSwap = -1; /** * Sessions currently being swapped in and the associated locks */ private final Map sessionSwapInLocks = new HashMap<>(); /* * Session that is currently getting swapped in to prevent loading it more than once concurrently */ private final ThreadLocal sessionToSwapIn = new ThreadLocal<>(); // ------------------------------------------------------------- Properties /** * Indicates how many seconds old a session can get, after its last use in a request, before it should be backed up * to the store. {@code -1} means sessions are not backed up. * * @return the timeout after which sessions are ripe for back up */ public int getMaxIdleBackup() { return maxIdleBackup; } /** * Sets the option to back sessions up to the Store after they are used in a request. Sessions remain available in * memory after being backed up, so they are not passivated as they are when swapped out. The value set indicates * how old a session may get (since its last use) before it must be backed up: {@code -1} means sessions are not * backed up. *

* Note that this is not a hard limit: sessions are checked against this age limit periodically according to * {@code processExpiresFrequency}. This value should be considered to indicate when a session is ripe for backing * up. *

* So it is possible that a session may be idle for {@code maxIdleBackup + * processExpiresFrequency * engine.backgroundProcessorDelay} seconds, plus the time it takes to handle other * session expiration, swapping, etc. tasks. * * @param backup The number of seconds after their last accessed time when they should be written to the Store. */ public void setMaxIdleBackup(int backup) { if (backup == this.maxIdleBackup) { return; } int oldBackup = this.maxIdleBackup; this.maxIdleBackup = backup; support.firePropertyChange("maxIdleBackup", Integer.valueOf(oldBackup), Integer.valueOf(this.maxIdleBackup)); } /** * @return The maximum time in seconds a session may be idle before it is eligible to be swapped to disk due to * inactivity. A value of {@code -1} means sessions should not be swapped out just because of * inactivity. */ public int getMaxIdleSwap() { return maxIdleSwap; } /** * Sets the maximum time in seconds a session may be idle before it is eligible to be swapped to disk due to * inactivity. Setting this to {@code -1} means sessions should not be swapped out just because of inactivity. * * @param max time in seconds to wait for possible swap out */ public void setMaxIdleSwap(int max) { if (max == this.maxIdleSwap) { return; } int oldMaxIdleSwap = this.maxIdleSwap; this.maxIdleSwap = max; support.firePropertyChange("maxIdleSwap", Integer.valueOf(oldMaxIdleSwap), Integer.valueOf(this.maxIdleSwap)); } /** * @return The minimum time in seconds a session must be idle before it is eligible to be swapped to disk to keep * the active session count below maxActiveSessions. A value of {@code -1} means sessions will not be * swapped out to keep the active session count down. */ public int getMinIdleSwap() { return minIdleSwap; } /** * Sets the minimum time in seconds a session must be idle before it is eligible to be swapped to disk to keep the * active session count below maxActiveSessions. Setting to {@code -1} means sessions will not be swapped out to * keep the active session count down. * * @param min time in seconds before a possible swap out */ public void setMinIdleSwap(int min) { if (this.minIdleSwap == min) { return; } int oldMinIdleSwap = this.minIdleSwap; this.minIdleSwap = min; support.firePropertyChange("minIdleSwap", Integer.valueOf(oldMinIdleSwap), Integer.valueOf(this.minIdleSwap)); } /** * Check, whether a session is loaded in memory * * @param id The session id for the session to be searched for * * @return {@code true}, if the session id is loaded in memory otherwise {@code false} is returned */ public boolean isLoaded(String id) { try { if (super.findSession(id) != null) { return true; } } catch (IOException e) { log.error(sm.getString("persistentManager.isLoadedError", id), e); } return false; } @Override public String getName() { return name; } /** * Set the Store object which will manage persistent Session storage for this Manager. * * @param store the associated Store */ public void setStore(Store store) { this.store = store; store.setManager(this); } @Override public Store getStore() { return this.store; } /** * Indicates whether sessions are saved when the Manager is shut down properly. This requires the {@link #unload()} * method to be called. * * @return {@code true}, when sessions should be saved on restart, {code false} otherwise */ public boolean getSaveOnRestart() { return saveOnRestart; } /** * Set the option to save sessions to the Store when the Manager is shut down, then loaded when the Manager starts * again. If set to false, any sessions found in the Store may still be picked up when the Manager is started again. * * @param saveOnRestart {@code true} if sessions should be saved on restart, {@code false} if they should be * ignored. */ public void setSaveOnRestart(boolean saveOnRestart) { if (saveOnRestart == this.saveOnRestart) { return; } boolean oldSaveOnRestart = this.saveOnRestart; this.saveOnRestart = saveOnRestart; support.firePropertyChange("saveOnRestart", Boolean.valueOf(oldSaveOnRestart), Boolean.valueOf(this.saveOnRestart)); } // --------------------------------------------------------- Public Methods /** * Clear all sessions from the Store. */ public void clearStore() { if (store == null) { return; } try { store.clear(); } catch (IOException e) { log.error(sm.getString("persistentManager.storeClearError"), e); } } /** * {@inheritDoc} *

* Direct call to processExpires and processPersistenceChecks */ @Override public void processExpires() { long timeNow = System.currentTimeMillis(); Session sessions[] = findSessions(); int expireHere = 0; if (log.isTraceEnabled()) { log.trace("Start expire sessions " + getName() + " at " + timeNow + " sessioncount " + sessions.length); } for (Session session : sessions) { if (!session.isValid()) { expiredSessions.incrementAndGet(); expireHere++; } } processPersistenceChecks(); if (getStore() instanceof StoreBase) { ((StoreBase) getStore()).processExpires(); } long timeEnd = System.currentTimeMillis(); if (log.isTraceEnabled()) { log.trace("End expire sessions " + getName() + " processingTime " + (timeEnd - timeNow) + " expired sessions: " + expireHere); } processingTime += (timeEnd - timeNow); } /** * Called by the background thread after active sessions have been checked for expiration, to allow sessions to be * swapped out, backed up, etc. */ public void processPersistenceChecks() { processMaxIdleSwaps(); processMaxActiveSwaps(); processMaxIdleBackups(); } /** * {@inheritDoc} *

* This method checks the persistence store if persistence is enabled, otherwise just uses the functionality from * ManagerBase. */ @Override public Session findSession(String id) throws IOException { Session session = super.findSession(id); // OK, at this point, we're not sure if another thread is trying to // remove the session or not so the only way around this is to lock it // (or attempt to) and then try to get it by this session id again. If // the other code ran swapOut, then we should get a null back during // this run, and if not, we lock it out so we can access the session // safely. if (session != null) { synchronized (session) { session = super.findSession(session.getIdInternal()); if (session != null) { // To keep any external calling code from messing up the // concurrency. session.access(); session.endAccess(); } } } if (session != null) { return session; } // See if the Session is in the Store session = swapIn(id); return session; } @Override public void removeSuper(Session session) { super.remove(session, false); } /** * Load all sessions found in the persistence mechanism, assuming they are marked as valid and have not passed their * expiration limit. If persistence is not supported, this method returns without doing anything. *

* Note that by default, this method is not called by the MiddleManager class. In order to use it, a subclass must * specifically call it, for example in the start() and/or processPersistenceChecks() methods. */ @Override public void load() { // Initialize our internal data structures sessions.clear(); if (store == null) { return; } String[] ids = null; try { ids = store.keys(); } catch (IOException e) { log.error(sm.getString("persistentManager.storeLoadKeysError"), e); return; } int n = ids.length; if (n == 0) { return; } if (log.isDebugEnabled()) { log.debug(sm.getString("persistentManager.loading", String.valueOf(n))); } for (String id : ids) { try { swapIn(id); } catch (IOException e) { log.error(sm.getString("persistentManager.storeLoadError"), e); } } } /** * {@inheritDoc} *

* Remove this Session from the Store. */ @Override public void remove(Session session, boolean update) { super.remove(session, update); if (store != null) { removeSession(session.getIdInternal()); } } /** * Remove this Session from the active Sessions for this Manager, and from the Store. * * @param id Session's id to be removed */ protected void removeSession(String id) { try { store.remove(id); } catch (IOException e) { log.error(sm.getString("persistentManager.removeError"), e); } } /** * Save all currently active sessions in the appropriate persistence mechanism, if any. If persistence is not * supported, this method returns without doing anything. *

* Note that by default, this method is not called by the MiddleManager class. In order to use it, a subclass must * specifically call it, for example in the stop() and/or processPersistenceChecks() methods. */ @Override public void unload() { if (store == null) { return; } Session sessions[] = findSessions(); int n = sessions.length; if (n == 0) { return; } if (log.isDebugEnabled()) { log.debug(sm.getString("persistentManager.unloading", String.valueOf(n))); } for (Session session : sessions) { try { swapOut(session); } catch (IOException e) { // This is logged in writeSession() } } } @Override public int getActiveSessionsFull() { // In memory session count int result = getActiveSessions(); try { // Store session count result += getStore().getSize(); } catch (IOException ioe) { log.warn(sm.getString("persistentManager.storeSizeException")); } return result; } @Override public Set getSessionIdsFull() { // In memory session ID list Set sessionIds = new HashSet<>(sessions.keySet()); try { // Store session ID list sessionIds.addAll(Arrays.asList(getStore().keys())); } catch (IOException e) { log.warn(sm.getString("persistentManager.storeKeysException")); } return sessionIds; } // ------------------------------------------------------ Protected Methods /** * Look for a session in the Store and, if found, restore it in the Manager's list of active sessions if * appropriate. The session will be removed from the Store after swapping in, but will not be added to the active * session list if it is invalid or past its expiration. * * @param id The id of the session that should be swapped in * * @return restored session, or {@code null}, if none is found * * @throws IOException an IO error occurred */ protected Session swapIn(String id) throws IOException { if (store == null) { return null; } Object swapInLock = null; /* * The purpose of this sync and these locks is to make sure that a session is only loaded once. It doesn't * matter if the lock is removed and then another thread enters this method and tries to load the same session. * That thread will re-create a swapIn lock for that session, quickly find that the session is already in * sessions, use it and carry on. */ synchronized (this) { swapInLock = sessionSwapInLocks.computeIfAbsent(id, k -> new Object()); } Session session = null; synchronized (swapInLock) { // First check to see if another thread has loaded the session into // the manager session = sessions.get(id); if (session == null) { Session currentSwapInSession = sessionToSwapIn.get(); try { if (currentSwapInSession == null || !id.equals(currentSwapInSession.getId())) { session = loadSessionFromStore(id); sessionToSwapIn.set(session); if (session != null && !session.isValid()) { log.error(sm.getString("persistentManager.swapInInvalid", id)); session.expire(); removeSession(id); session = null; } if (session != null) { reactivateLoadedSession(id, session); } } } finally { sessionToSwapIn.remove(); } } } // Make sure the lock is removed synchronized (this) { sessionSwapInLocks.remove(id); } return session; } private void reactivateLoadedSession(String id, Session session) { if (log.isTraceEnabled()) { log.trace(sm.getString("persistentManager.swapIn", id)); } session.setManager(this); // make sure the listeners know about it. ((StandardSession) session).tellNew(); add(session); ((StandardSession) session).activate(); // endAccess() to ensure timeouts happen correctly. // access() to keep access count correct or it will end up // negative session.access(); session.endAccess(); } private Session loadSessionFromStore(String id) throws IOException { try { return store.load(id); } catch (ClassNotFoundException e) { String msg = sm.getString("persistentManager.deserializeError", id); log.error(msg, e); throw new IllegalStateException(msg, e); } } /** * Remove the session from the Manager's list of active sessions and write it out to the Store. If the session is * past its expiration or invalid, this method does nothing. * * @param session The Session to write out * * @throws IOException an IO error occurred */ protected void swapOut(Session session) throws IOException { if (store == null || !session.isValid()) { return; } ((StandardSession) session).passivate(); writeSession(session); super.remove(session, true); session.recycle(); } /** * Write the provided session to the Store without modifying the copy in memory or triggering passivation events. * Does nothing if the session is invalid or past its expiration. * * @param session The session that should be written * * @throws IOException an IO error occurred */ protected void writeSession(Session session) throws IOException { if (store == null || !session.isValid()) { return; } try { store.save(session); } catch (IOException e) { log.error(sm.getString("persistentManager.serializeError", session.getIdInternal(), e)); throw e; } } /** * Start this component and implement the requirements of * {@link org.apache.catalina.util.LifecycleBase#startInternal()}. * * @exception LifecycleException if this component detects a fatal error that prevents this component from being * used */ @Override protected void startInternal() throws LifecycleException { super.startInternal(); if (store == null) { log.error(sm.getString("persistentManager.noStore")); } else if (store instanceof Lifecycle) { ((Lifecycle) store).start(); } setState(LifecycleState.STARTING); } /** * Stop this component and implement the requirements of * {@link org.apache.catalina.util.LifecycleBase#stopInternal()}. * * @exception LifecycleException if this component detects a fatal error that prevents this component from being * used */ @Override protected void stopInternal() throws LifecycleException { if (log.isTraceEnabled()) { log.trace("Stopping"); } setState(LifecycleState.STOPPING); if (getStore() != null && saveOnRestart) { unload(); } else { // Expire all active sessions Session sessions[] = findSessions(); for (Session value : sessions) { StandardSession session = (StandardSession) value; if (!session.isValid()) { continue; } session.expire(); } } if (getStore() instanceof Lifecycle) { ((Lifecycle) getStore()).stop(); } // Require a new random number generator if we are restarted super.stopInternal(); } // ------------------------------------------------------ Protected Methods /** * Swap idle sessions out to Store if they are idle too long. */ protected void processMaxIdleSwaps() { if (!getState().isAvailable() || maxIdleSwap < 0) { return; } Session sessions[] = findSessions(); // Swap out all sessions idle longer than maxIdleSwap if (maxIdleSwap >= 0) { for (Session value : sessions) { StandardSession session = (StandardSession) value; synchronized (session) { if (!session.isValid()) { continue; } int timeIdle = (int) (session.getIdleTimeInternal() / 1000L); if (timeIdle >= maxIdleSwap && timeIdle >= minIdleSwap) { if (session.accessCount != null && session.accessCount.get() > 0) { // Session is currently being accessed - skip it continue; } if (log.isTraceEnabled()) { log.trace(sm.getString("persistentManager.swapMaxIdle", session.getIdInternal(), Integer.valueOf(timeIdle))); } try { swapOut(session); } catch (IOException e) { // This is logged in writeSession() } } } } } } /** * Swap idle sessions out to Store if too many are active */ protected void processMaxActiveSwaps() { if (!getState().isAvailable() || minIdleSwap < 0 || getMaxActiveSessions() < 0) { return; } Session sessions[] = findSessions(); // FIXME: Smarter algorithm (LRU) int limit = (int) (getMaxActiveSessions() * 0.9); if (limit >= sessions.length) { return; } if (log.isDebugEnabled()) { log.debug(sm.getString("persistentManager.tooManyActive", Integer.valueOf(sessions.length))); } int toswap = sessions.length - limit; for (int i = 0; i < sessions.length && toswap > 0; i++) { StandardSession session = (StandardSession) sessions[i]; synchronized (session) { int timeIdle = (int) (session.getIdleTimeInternal() / 1000L); if (timeIdle >= minIdleSwap) { if (session.accessCount != null && session.accessCount.get() > 0) { // Session is currently being accessed - skip it continue; } if (log.isTraceEnabled()) { log.trace(sm.getString("persistentManager.swapTooManyActive", session.getIdInternal(), Integer.valueOf(timeIdle))); } try { swapOut(session); } catch (IOException e) { // This is logged in writeSession() } toswap--; } } } } /** * Back up idle sessions. */ protected void processMaxIdleBackups() { if (!getState().isAvailable() || maxIdleBackup < 0) { return; } Session sessions[] = findSessions(); // Back up all sessions idle longer than maxIdleBackup if (maxIdleBackup >= 0) { for (Session value : sessions) { StandardSession session = (StandardSession) value; synchronized (session) { if (!session.isValid()) { continue; } long lastAccessedTime = session.getLastAccessedTimeInternal(); Long persistedLastAccessedTime = (Long) session.getNote(PERSISTED_LAST_ACCESSED_TIME); if (persistedLastAccessedTime != null && lastAccessedTime == persistedLastAccessedTime.longValue()) { continue; } int timeIdle = (int) (session.getIdleTimeInternal() / 1000L); if (timeIdle >= maxIdleBackup) { if (log.isTraceEnabled()) { log.trace(sm.getString("persistentManager.backupMaxIdle", session.getIdInternal(), Integer.valueOf(timeIdle))); } try { writeSession(session); } catch (IOException e) { // This is logged in writeSession() } session.setNote(PERSISTED_LAST_ACCESSED_TIME, Long.valueOf(lastAccessedTime)); } } } } } }





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