java/org/apache/tomcat/jni/Pool.java - tomcat80 - Git at Google

 /*
  *  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.tomcat.jni;

 import java.nio.ByteBuffer;

 /** Pool
  *
  * @author Mladen Turk
  */
 public class Pool {

     /**
      * Create a new pool.
      * @param parent The parent pool.  If this is 0, the new pool is a root
      * pool.  If it is non-zero, the new pool will inherit all
      * of its parent pool's attributes, except the apr_pool_t will
      * be a sub-pool.
      * @return The pool we have just created.
     */
     public static native long create(long parent);

     /**
      * Clear all memory in the pool and run all the cleanups. This also destroys all
      * subpools.
      * @param pool The pool to clear
      * This does not actually free the memory, it just allows the pool
      *         to re-use this memory for the next allocation.
      */
     public static native void clear(long pool);

     /**
      * Destroy the pool. This takes similar action as apr_pool_clear() and then
      * frees all the memory.
      * This will actually free the memory
      * @param pool The pool to destroy
      */
     public static native void destroy(long pool);

     /**
      * Get the parent pool of the specified pool.
      * @param pool The pool for retrieving the parent pool.
      * @return The parent of the given pool.
      */
     public static native long parentGet(long pool);

     /**
      * Determine if pool a is an ancestor of pool b
      * @param a The pool to search
      * @param b The pool to search for
      * @return True if a is an ancestor of b, NULL is considered an ancestor
      * of all pools.
      */
     public static native boolean isAncestor(long a, long b);


     /*
      * Cleanup
      *
      * Cleanups are performed in the reverse order they were registered.  That is:
      * Last In, First Out.  A cleanup function can safely allocate memory from
      * the pool that is being cleaned up. It can also safely register additional
      * cleanups which will be run LIFO, directly after the current cleanup
      * terminates.  Cleanups have to take caution in calling functions that
      * create subpools. Subpools, created during cleanup will NOT automatically
      * be cleaned up.  In other words, cleanups are to clean up after themselves.
      */

     /**
      * Register a function to be called when a pool is cleared or destroyed
      * @param pool The pool register the cleanup with
      * @param o The object to call when the pool is cleared
      *                      or destroyed
      * @return The cleanup handler.
      */
     public static native long cleanupRegister(long pool, Object o);

     /**
      * Remove a previously registered cleanup function
      * @param pool The pool remove the cleanup from
      * @param data The cleanup handler to remove from cleanup
      */
     public static native void cleanupKill(long pool, long data);

     /**
      * Register a process to be killed when a pool dies.
      * @param a The pool to use to define the processes lifetime
      * @param proc The process to register
      * @param how How to kill the process, one of:
      * <PRE>
      * APR_KILL_NEVER         -- process is never sent any signals
      * APR_KILL_ALWAYS        -- process is sent SIGKILL on apr_pool_t cleanup
      * APR_KILL_AFTER_TIMEOUT -- SIGTERM, wait 3 seconds, SIGKILL
      * APR_JUST_WAIT          -- wait forever for the process to complete
      * APR_KILL_ONLY_ONCE     -- send SIGTERM and then wait
      * </PRE>
      */
     public static native void noteSubprocess(long a, long proc, int how);

     /**
      * Allocate a block of memory from a pool
      * @param p The pool to allocate from
      * @param size The amount of memory to allocate
      * @return The ByteBuffer with allocated memory
      */
     public static native ByteBuffer alloc(long p, int size);

     /**
      * Allocate a block of memory from a pool and set all of the memory to 0
      * @param p The pool to allocate from
      * @param size The amount of memory to allocate
      * @return The ByteBuffer with allocated memory
      */
     public static native ByteBuffer calloc(long p, int size);

     /*
      * User data management
      */

     /**
      * Set the data associated with the current pool
      * @param data The user data associated with the pool.
      * @param key The key to use for association
      * @param pool The current pool
      * <br><b>Warning :</b>
      * The data to be attached to the pool should have a life span
      * at least as long as the pool it is being attached to.
      * Object attached to the pool will be globally referenced
      * until the pool is cleared or dataSet is called with the null data.
      * @return APR Status code.
      */
      public static native int dataSet(long pool, String key, Object data);

     /**
      * Return the data associated with the current pool.
      * @param key The key for the data to retrieve
      * @param pool The current pool.
      */
      public static native Object dataGet(long pool, String key);

     /**
      * Run all of the child_cleanups, so that any unnecessary files are
      * closed because we are about to exec a new program
      */
     public static native void cleanupForExec();

 }
	/*
	* 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.tomcat.jni;

	import java.nio.ByteBuffer;

	/** Pool
	*
	* @author Mladen Turk
	*/
	public class Pool {

	/**
	* Create a new pool.
	* @param parent The parent pool. If this is 0, the new pool is a root
	* pool. If it is non-zero, the new pool will inherit all
	* of its parent pool's attributes, except the apr_pool_t will
	* be a sub-pool.
	* @return The pool we have just created.
	*/
	public static native long create(long parent);

	/**
	* Clear all memory in the pool and run all the cleanups. This also destroys all
	* subpools.
	* @param pool The pool to clear
	* This does not actually free the memory, it just allows the pool
	* to re-use this memory for the next allocation.
	*/
	public static native void clear(long pool);

	/**
	* Destroy the pool. This takes similar action as apr_pool_clear() and then
	* frees all the memory.
	* This will actually free the memory
	* @param pool The pool to destroy
	*/
	public static native void destroy(long pool);

	/**
	* Get the parent pool of the specified pool.
	* @param pool The pool for retrieving the parent pool.
	* @return The parent of the given pool.
	*/
	public static native long parentGet(long pool);

	/**
	* Determine if pool a is an ancestor of pool b
	* @param a The pool to search
	* @param b The pool to search for
	* @return True if a is an ancestor of b, NULL is considered an ancestor
	* of all pools.
	*/
	public static native boolean isAncestor(long a, long b);


	/*
	* Cleanup
	*
	* Cleanups are performed in the reverse order they were registered. That is:
	* Last In, First Out. A cleanup function can safely allocate memory from
	* the pool that is being cleaned up. It can also safely register additional
	* cleanups which will be run LIFO, directly after the current cleanup
	* terminates. Cleanups have to take caution in calling functions that
	* create subpools. Subpools, created during cleanup will NOT automatically
	* be cleaned up. In other words, cleanups are to clean up after themselves.
	*/

	/**
	* Register a function to be called when a pool is cleared or destroyed
	* @param pool The pool register the cleanup with
	* @param o The object to call when the pool is cleared
	* or destroyed
	* @return The cleanup handler.
	*/
	public static native long cleanupRegister(long pool, Object o);

	/**
	* Remove a previously registered cleanup function
	* @param pool The pool remove the cleanup from
	* @param data The cleanup handler to remove from cleanup
	*/
	public static native void cleanupKill(long pool, long data);

	/**
	* Register a process to be killed when a pool dies.
	* @param a The pool to use to define the processes lifetime
	* @param proc The process to register
	* @param how How to kill the process, one of:
	* <PRE>
	* APR_KILL_NEVER -- process is never sent any signals
	* APR_KILL_ALWAYS -- process is sent SIGKILL on apr_pool_t cleanup
	* APR_KILL_AFTER_TIMEOUT -- SIGTERM, wait 3 seconds, SIGKILL
	* APR_JUST_WAIT -- wait forever for the process to complete
	* APR_KILL_ONLY_ONCE -- send SIGTERM and then wait
	* </PRE>
	*/
	public static native void noteSubprocess(long a, long proc, int how);

	/**
	* Allocate a block of memory from a pool
	* @param p The pool to allocate from
	* @param size The amount of memory to allocate
	* @return The ByteBuffer with allocated memory
	*/
	public static native ByteBuffer alloc(long p, int size);

	/**
	* Allocate a block of memory from a pool and set all of the memory to 0
	* @param p The pool to allocate from
	* @param size The amount of memory to allocate
	* @return The ByteBuffer with allocated memory
	*/
	public static native ByteBuffer calloc(long p, int size);

	/*
	* User data management
	*/

	/**
	* Set the data associated with the current pool
	* @param data The user data associated with the pool.
	* @param key The key to use for association
	* @param pool The current pool
	* <br><b>Warning :</b>
	* The data to be attached to the pool should have a life span
	* at least as long as the pool it is being attached to.
	* Object attached to the pool will be globally referenced
	* until the pool is cleared or dataSet is called with the null data.
	* @return APR Status code.
	*/
	public static native int dataSet(long pool, String key, Object data);

	/**
	* Return the data associated with the current pool.
	* @param key The key for the data to retrieve
	* @param pool The current pool.
	*/
	public static native Object dataGet(long pool, String key);

	/**
	* Run all of the child_cleanups, so that any unnecessary files are
	* closed because we are about to exec a new program
	*/
	public static native void cleanupForExec();

	}