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The core jetty server artifact.
//
// ========================================================================
// 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.server.session;
import java.util.HashSet;
import java.util.Set;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
import org.eclipse.jetty.util.FuturePromise;
import org.eclipse.jetty.util.annotation.ManagedAttribute;
import org.eclipse.jetty.util.annotation.ManagedObject;
import org.eclipse.jetty.util.component.ContainerLifeCycle;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* AbstractSessionDataStore
*/
@ManagedObject
public abstract class AbstractSessionDataStore extends ContainerLifeCycle implements SessionDataStore
{
private static final Logger LOG = LoggerFactory.getLogger(AbstractSessionDataStore.class);
public static final int DEFAULT_GRACE_PERIOD_SEC = 60 * 60; //default of 1hr
public static final int DEFAULT_SAVE_PERIOD_SEC = 0;
protected SessionContext _context; //context associated with this session data store
protected int _gracePeriodSec = DEFAULT_GRACE_PERIOD_SEC;
protected long _lastExpiryCheckTime = 0; //last time in ms that getExpired was called
protected long _lastOrphanSweepTime = 0; //last time in ms that we deleted orphaned sessions
protected int _savePeriodSec = DEFAULT_SAVE_PERIOD_SEC; //time in sec between saves
/**
* Check if a session for the given id exists.
*
* @param id the session id to check
* @return true if the session exists in the persistent store, false otherwise
*/
public abstract boolean doExists(String id) throws Exception;
/**
* Store the session data persistently.
*
* @param id identity of session to store
* @param data info of the session
* @param lastSaveTime time of previous save or 0 if never saved
* @throws Exception if unable to store data
*/
public abstract void doStore(String id, SessionData data, long lastSaveTime) throws Exception;
/**
* Load the session from persistent store.
*
* @param id the id of the session to load
* @return the re-inflated session
* @throws Exception if unable to load the session
*/
public abstract SessionData doLoad(String id) throws Exception;
/**
* Implemented by subclasses to resolve which sessions in this context
* that are being managed by this node that should be expired.
*
* @param candidates the ids of sessions the SessionCache thinks has expired
* @param time the time at which to check for expiry
* @return the reconciled set of session ids that have been checked in the store
*/
public abstract Set doCheckExpired(Set candidates, long time);
/**
* Implemented by subclasses to find sessions for this context in the store
* that expired at or before the time limit and thus not being actively
* managed by any node. This method is only called periodically (the period
* is configurable) to avoid putting too much load on the store.
*
* @param before the upper limit of expiry times to check. Sessions expired
* at or before this timestamp will match.
*
* @return the empty set if there are no sessions expired as at the time, or
* otherwise a set of session ids.
*/
public abstract Set doGetExpired(long before);
/**
* Implemented by subclasses to delete sessions for other contexts that
* expired at or before the timeLimit. These are 'orphaned' sessions that
* are no longer being actively managed by any node. These are explicitly
* sessions that do NOT belong to this context (other mechanisms such as
* doGetExpired take care of those). As they don't belong to this context,
* they cannot be loaded by us.
*
* This is called only periodically to avoid placing excessive load on the
* store.
*
* @param time the upper limit of the expiry time to check in msec
*/
public abstract void doCleanOrphans(long time);
@Override
public void initialize(SessionContext context) throws Exception
{
if (isStarted())
throw new IllegalStateException("Context set after SessionDataStore started");
_context = context;
}
/**
* Remove all sessions for any context that expired at or before the given time.
* @param timeLimit the time before which the sessions must have expired.
*/
public void cleanOrphans(long timeLimit)
{
if (!isStarted())
throw new IllegalStateException("Not started");
Runnable r = () ->
{
doCleanOrphans(timeLimit);
};
_context.run(r);
}
@Override
public SessionData load(String id) throws Exception
{
if (!isStarted())
throw new IllegalStateException("Not started");
final FuturePromise result = new FuturePromise<>();
Runnable r = () ->
{
try
{
result.succeeded(doLoad(id));
}
catch (Exception e)
{
result.failed(e);
}
};
_context.run(r);
return result.getOrThrow();
}
@Override
public void store(String id, SessionData data) throws Exception
{
if (!isStarted())
throw new IllegalStateException("Not started");
if (data == null)
return;
long lastSave = data.getLastSaved();
long savePeriodMs = (_savePeriodSec <= 0 ? 0 : TimeUnit.SECONDS.toMillis(_savePeriodSec));
if (LOG.isDebugEnabled())
{
LOG.debug("Store: id={}, mdirty={}, dirty={}, lsave={}, period={}, elapsed={}", id, data.isMetaDataDirty(),
data.isDirty(), data.getLastSaved(), savePeriodMs, (System.currentTimeMillis() - lastSave));
}
//save session if attribute changed, never been saved or metadata changed (eg expiry time) and save interval exceeded
if (data.isDirty() || (lastSave <= 0) ||
(data.isMetaDataDirty() && ((System.currentTimeMillis() - lastSave) >= savePeriodMs)))
{
//set the last saved time to now
data.setLastSaved(System.currentTimeMillis());
final FuturePromise result = new FuturePromise<>();
Runnable r = () ->
{
try
{
//call the specific store method, passing in previous save time
doStore(id, data, lastSave);
data.clean(); //unset all dirty flags
result.succeeded(null);
}
catch (Exception e)
{
//reset last save time if save failed
data.setLastSaved(lastSave);
result.failed(e);
}
};
_context.run(r);
result.getOrThrow();
}
}
@Override
public boolean exists(String id) throws Exception
{
FuturePromise result = new FuturePromise<>();
Runnable r = () ->
{
try
{
result.succeeded(doExists(id));
}
catch (Exception e)
{
result.failed(e);
}
};
_context.run(r);
return result.getOrThrow();
}
@Override
public Set getExpired(Set candidates)
{
if (!isStarted())
throw new IllegalStateException("Not started");
long now = System.currentTimeMillis();
final Set expired = new HashSet<>();
// 1. always verify the set of candidates we've been given
//by the sessioncache
Runnable r = () ->
{
Set expiredCandidates = doCheckExpired(candidates, now);
if (expiredCandidates != null)
expired.addAll(expiredCandidates);
};
_context.run(r);
// 2. check the backing store to find other sessions
// in THIS context that expired long ago (ie cannot be actively managed
//by any node)
try
{
long t = 0;
// if we have never checked for old expired sessions, then only find
// those that are very old so we don't find sessions that other nodes
// that are also starting up find
if (_lastExpiryCheckTime <= 0)
t = now - TimeUnit.SECONDS.toMillis(_gracePeriodSec * 3);
else
{
// only do the check once every gracePeriod to avoid expensive searches,
// and find sessions that expired at least one gracePeriod ago
if (now > (_lastExpiryCheckTime + TimeUnit.SECONDS.toMillis(_gracePeriodSec)))
t = now - TimeUnit.SECONDS.toMillis(_gracePeriodSec);
}
if (t > 0)
{
if (LOG.isDebugEnabled())
LOG.debug("Searching for sessions expired before {} for context {}", t, _context.getCanonicalContextPath());
final long expiryTime = t;
r = () ->
{
Set tmp = doGetExpired(expiryTime);
if (tmp != null)
expired.addAll(tmp);
};
_context.run(r);
}
}
finally
{
_lastExpiryCheckTime = now;
}
// 3. Periodically but infrequently comb the backing store to delete sessions for
// OTHER contexts that expired a very long time ago (ie not being actively
// managed by any node). As these sessions are not for our context, we
// can't load them, so they must just be forcibly deleted.
try
{
if (now > (_lastOrphanSweepTime + TimeUnit.SECONDS.toMillis(10 * _gracePeriodSec)))
{
if (LOG.isDebugEnabled())
LOG.debug("Cleaning orphans at {}, last sweep at {}", now, _lastOrphanSweepTime);
cleanOrphans(now - TimeUnit.SECONDS.toMillis(10 * _gracePeriodSec));
}
}
finally
{
_lastOrphanSweepTime = now;
}
return expired;
}
@Override
public SessionData newSessionData(String id, long created, long accessed, long lastAccessed, long maxInactiveMs)
{
return new SessionData(id, _context.getCanonicalContextPath(), _context.getVhost(), created, accessed, lastAccessed, maxInactiveMs);
}
protected void checkStarted() throws IllegalStateException
{
if (isStarted())
throw new IllegalStateException("Already started");
}
@Override
protected void doStart() throws Exception
{
if (_context == null)
throw new IllegalStateException("No SessionContext");
super.doStart();
}
@ManagedAttribute(value = "interval in secs to prevent too eager session scavenging", readonly = true)
public int getGracePeriodSec()
{
return _gracePeriodSec;
}
public void setGracePeriodSec(int sec)
{
_gracePeriodSec = sec;
}
/**
* @return the savePeriodSec
*/
@ManagedAttribute(value = "min secs between saves", readonly = true)
public int getSavePeriodSec()
{
return _savePeriodSec;
}
/**
* The minimum time in seconds between save operations.
* Saves normally occur every time the last request
* exits as session. If nothing changes on the session
* except for the access time and the persistence technology
* is slow, this can cause delays.
*
* By default the value is 0, which means we save
* after the last request exists. A non zero value
* means that we will skip doing the save if the
* session isn't dirty if the elapsed time since
* the session was last saved does not exceed this
* value.
*
* @param savePeriodSec the savePeriodSec to set
*/
public void setSavePeriodSec(int savePeriodSec)
{
_savePeriodSec = savePeriodSec;
}
@Override
public String toString()
{
return String.format("%s@%x[passivating=%b,graceSec=%d]", this.getClass().getName(), this.hashCode(), isPassivating(), getGracePeriodSec());
}
}