/*
    * 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.
   */
  package org.apache.shiro.session;
  
  import java.io.Serializable;
  import java.util.Collection;
  import java.util.Date;
  
  /**
   * A {@code Session} is a stateful data context associated with a single Subject (user, daemon process,
   * etc) who interacts with a software system over a period of time.
   * <p/>
   * A {@code Session} is intended to be managed by the business tier and accessible via other
   * tiers without being tied to any given client technology.  This is a <em>great</em> benefit to Java
   * systems, since until now, the only viable session mechanisms were the
   * {@code javax.servlet.http.HttpSession} or Stateful Session EJB's, which many times
   * unnecessarily coupled applications to web or ejb technologies.
   *
   * @since 0.1
   */
  public interface Session {
  
      /**
       * Returns the unique identifier assigned by the system upon session creation.
       * <p/>
       * All return values from this method are expected to have proper {@code toString()},
       * {@code equals()}, and {@code hashCode()} implementations. Good candidates for such
       * an identifier are {@link java.util.UUID UUID}s, {@link java.lang.Integer Integer}s, and
       * {@link java.lang.String String}s.
       *
       * @return The unique identifier assigned to the session upon creation.
       */
      Serializable getId();
  
      /**
       * Returns the time the session was started; that is, the time the system created the instance.
       *
       * @return The time the system created the session.
       */
      Date getStartTimestamp();
  
      /**
       * Returns the last time the application received a request or method invocation from the user associated
       * with this session.  Application calls to this method do not affect this access time.
       *
       * @return The time the user last interacted with the system.
       * @see #touch()
       */
      Date getLastAccessTime();
  
      /**
       * Returns the time in milliseconds that the session session may remain idle before expiring.
       * <ul>
       * <li>A negative return value means the session will never expire.</li>
       * <li>A non-negative return value (0 or greater) means the session expiration will occur if idle for that
       * length of time.</li>
       * </ul>
       * <b>*Note:</b> if you are used to the {@code HttpSession}'s {@code getMaxInactiveInterval()} method, the scale on
       * this method is different: Shiro Sessions use millisecond values for timeout whereas
       * {@code HttpSession.getMaxInactiveInterval} uses seconds.  Always use millisecond values with Shiro sessions.
       *
       * @return the time in milliseconds the session may remain idle before expiring.
       * @throws InvalidSessionException if the session has been stopped or expired prior to calling this method.
       * @since 0.2
       */
      long getTimeout() throws InvalidSessionException;
  
      /**
       * Sets the time in milliseconds that the session may remain idle before expiring.
       * <ul>
       * <li>A negative value means the session will never expire.</li>
       * <li>A non-negative value (0 or greater) means the session expiration will occur if idle for that
       * length of time.</li>
       * </ul>
       * <p/>
       * <b>*Note:</b> if you are used to the {@code HttpSession}'s {@code getMaxInactiveInterval()} method, the scale on
       * this method is different: Shiro Sessions use millisecond values for timeout whereas
       * {@code HttpSession.getMaxInactiveInterval} uses seconds.  Always use millisecond values with Shiro sessions.
       *
       * @param maxIdleTimeInMillis the time in milliseconds that the session may remain idle before expiring.
       * @throws InvalidSessionException if the session has been stopped or expired prior to calling this method.
       * @since 0.2
       */
     void setTimeout(long maxIdleTimeInMillis) throws InvalidSessionException;
 
     /**
      * Returns the host name or IP string of the host that originated this session, or {@code null}
      * if the host is unknown.
      *
      * @return the host name or IP string of the host that originated this session, or {@code null}
      *         if the host address is unknown.
      */
     String getHost();
 
     /**
      * Explicitly updates the {@link #getLastAccessTime() lastAccessTime} of this session to the current time when
      * this method is invoked.  This method can be used to ensure a session does not time out.
      * <p/>
      * Most programmers won't use this method directly and will instead rely on the last access time to be updated
      * automatically as a result of an incoming web request or remote procedure call/method invocation.
      * <p/>
      * However, this method is particularly useful when supporting rich-client applications such as
      * Java Web Start appp, Java or Flash applets, etc.  Although rare, it is possible in a rich-client
      * environment that a user continuously interacts with the client-side application without a
      * server-side method call ever being invoked.  If this happens over a long enough period of
      * time, the user's server-side session could time-out.  Again, such cases are rare since most
      * rich-clients frequently require server-side method invocations.
      * <p/>
      * In this example though, the user's session might still be considered valid because
      * the user is actively &quot;using&quot; the application, just not communicating with the
      * server. But because no server-side method calls are invoked, there is no way for the server
      * to know if the user is sitting idle or not, so it must assume so to maintain session
      * integrity.  This {@code touch()} method could be invoked by the rich-client application code during those
      * times to ensure that the next time a server-side method is invoked, the invocation will not
      * throw an {@link ExpiredSessionException ExpiredSessionException}.  In short terms, it could be used periodically
      * to ensure a session does not time out.
      * <p/>
      * How often this rich-client &quot;maintenance&quot; might occur is entirely dependent upon
      * the application and would be based on variables such as session timeout configuration,
      * usage characteristics of the client application, network utilization and application server
      * performance.
      *
      * @throws InvalidSessionException if this session has stopped or expired prior to calling this method.
      */
     void touch() throws InvalidSessionException;
 
     /**
      * Explicitly stops (invalidates) this session and releases all associated resources.
      * <p/>
      * If this session has already been authenticated (i.e. the {@code Subject} that
      * owns this session has logged-in), calling this method explicitly might have undesired side effects:
      * <p/>
      * It is common for a {@code Subject} implementation to retain authentication state in the
      * {@code Session}.  If the session
      * is explicitly stopped by application code by calling this method directly, it could clear out any
      * authentication state that might exist, thereby effectively &quot;unauthenticating&quot; the {@code Subject}.
      * <p/>
      * As such, you might consider {@link org.apache.shiro.subject.Subject#logout logging-out} the 'owning'
      * {@code Subject} instead of manually calling this method, as a log out is expected to stop the
      * corresponding session automatically, and also allows framework code to execute additional cleanup logic.
      *
      * @throws InvalidSessionException if this session has stopped or expired prior to calling this method.
      */
     void stop() throws InvalidSessionException;
 
     /**
      * Returns the keys of all the attributes stored under this session.  If there are no
      * attributes, this returns an empty collection.
      *
      * @return the keys of all attributes stored under this session, or an empty collection if
      *         there are no session attributes.
      * @throws InvalidSessionException if this session has stopped or expired prior to calling this method.
      * @since 0.2
      */
     Collection<Object> getAttributeKeys() throws InvalidSessionException;
 
     /**
      * Returns the object bound to this session identified by the specified key.  If there is no
      * object bound under the key, {@code null} is returned.
      *
      * @param key the unique name of the object bound to this session
      * @return the object bound under the specified {@code key} name or {@code null} if there is
      *         no object bound under that name.
      * @throws InvalidSessionException if this session has stopped or expired prior to calling
      *                                 this method.
      */
     Object getAttribute(Object key) throws InvalidSessionException;
 
     /**
      * Binds the specified {@code value} to this session, uniquely identified by the specifed
      * {@code key} name.  If there is already an object bound under the {@code key} name, that
      * existing object will be replaced by the new {@code value}.
      * <p/>
      * If the {@code value} parameter is null, it has the same effect as if
      * {@link #removeAttribute(Object) removeAttribute} was called.
      *
      * @param key   the name under which the {@code value} object will be bound in this session
      * @param value the object to bind in this session.
      * @throws InvalidSessionException if this session has stopped or expired prior to calling
      *                                 this method.
      */
     void setAttribute(Object key, Object value) throws InvalidSessionException;
 
     /**
      * Removes (unbinds) the object bound to this session under the specified {@code key} name.
      *
      * @param key the name uniquely identifying the object to remove
      * @return the object removed or {@code null} if there was no object bound under the name
      *         {@code key}.
      * @throws InvalidSessionException if this session has stopped or expired prior to calling
      *                                 this method.
      */
     Object removeAttribute(Object key) throws InvalidSessionException;
 }