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Java example source code file (JvmMemMgrPoolRelTableMetaImpl.java)
The JvmMemMgrPoolRelTableMetaImpl.java Java example source code/* * Copyright (c) 2003, 2012, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package sun.management.snmp.jvminstr; // java imports // import com.sun.jmx.mbeanserver.Util; import java.io.Serializable; import java.util.List; import java.util.Iterator; import java.util.Map; import java.util.HashMap; import java.util.TreeMap; import java.util.Collections; // jmx imports // import javax.management.MBeanServer; import javax.management.ObjectName; import com.sun.jmx.snmp.SnmpOid; import com.sun.jmx.snmp.SnmpStatusException; // jdmk imports // import com.sun.jmx.snmp.agent.SnmpMib; import com.sun.jmx.snmp.agent.SnmpStandardObjectServer; import com.sun.jmx.snmp.agent.SnmpMibTable; import java.lang.management.MemoryManagerMXBean; import java.lang.management.MemoryPoolMXBean; import sun.management.snmp.jvmmib.JvmMemMgrPoolRelTableMeta; import sun.management.snmp.util.SnmpTableCache; import sun.management.snmp.util.SnmpCachedData; import sun.management.snmp.util.SnmpTableHandler; import sun.management.snmp.util.MibLogger; import sun.management.snmp.util.JvmContextFactory; /** * The class is used for implementing the "JvmMemMgrPoolRelTable" group. */ public class JvmMemMgrPoolRelTableMetaImpl extends JvmMemMgrPoolRelTableMeta implements Serializable { static final long serialVersionUID = 1896509775012355443L; /** * A concrete implementation of {@link SnmpTableCache}, for the * jvmMemMgrPoolRelTable. **/ private static class JvmMemMgrPoolRelTableCache extends SnmpTableCache { static final long serialVersionUID = 6059937161990659184L; final private JvmMemMgrPoolRelTableMetaImpl meta; /** * Create a weak cache for the jvmMemMgrPoolRelTable. * @param validity validity of the cached data, in ms. **/ JvmMemMgrPoolRelTableCache(JvmMemMgrPoolRelTableMetaImpl meta, long validity) { this.validity = validity; this.meta = meta; } /** * Call <code>getTableDatas(JvmContextFactory.getUserData()). **/ public SnmpTableHandler getTableHandler() { final Map<Object,Object> userData = JvmContextFactory.getUserData(); return getTableDatas(userData); } /** * Builds a map pool-name => pool-index from the SnmpTableHandler * of the JvmMemPoolTable. **/ private static Map<String, SnmpOid> buildPoolIndexMap(SnmpTableHandler handler) { // optimization... if (handler instanceof SnmpCachedData) return buildPoolIndexMap((SnmpCachedData)handler); // not optimizable... too bad. final Map<String, SnmpOid> m = new HashMap<>(); SnmpOid index=null; while ((index = handler.getNext(index))!=null) { final MemoryPoolMXBean mpm = (MemoryPoolMXBean)handler.getData(index); if (mpm == null) continue; final String name = mpm.getName(); if (name == null) continue; m.put(name,index); } return m; } /** * Builds a map pool-name => pool-index from the SnmpTableHandler * of the JvmMemPoolTable. * Optimized algorithm. **/ private static Map<String, SnmpOid> buildPoolIndexMap(SnmpCachedData cached) { if (cached == null) return Collections.emptyMap(); final SnmpOid[] indexes = cached.indexes; final Object[] datas = cached.datas; final int len = indexes.length; final Map<String, SnmpOid> m = new HashMap<>(len); for (int i=0; i<len; i++) { final SnmpOid index = indexes[i]; if (index == null) continue; final MemoryPoolMXBean mpm = (MemoryPoolMXBean)datas[i]; if (mpm == null) continue; final String name = mpm.getName(); if (name == null) continue; m.put(name,index); } return m; } /** * Return a table handler that holds the jvmMemManagerTable table data. * This method return the cached table data if it is still * valid, recompute it and cache the new value if it's not. * If it needs to recompute the cached data, it first * try to obtain the list of memory managers from the request * contextual cache, and if it is not found, it calls * <code>ManagementFactory.getMemoryMBean().getMemoryManagers() * and caches the value. * This ensures that * <code>ManagementFactory.getMemoryMBean().getMemoryManagers() * is not called more than once per request, thus ensuring a * consistent view of the table. **/ protected SnmpCachedData updateCachedDatas(Object userData) { // Get the MemoryManager table final SnmpTableHandler mmHandler = meta.getManagerHandler(userData); // Get the MemoryPool table final SnmpTableHandler mpHandler = meta.getPoolHandler(userData); // Time stamp for the cache final long time = System.currentTimeMillis(); // Build a Map poolname -> index final Map<String,SnmpOid> poolIndexMap = buildPoolIndexMap(mpHandler); // For each memory manager, get the list of memory pools // For each memory pool, find its index in the memory pool table // Create a row in the relation table. final TreeMap<SnmpOid, Object> table = new TreeMap<>(SnmpCachedData.oidComparator); updateTreeMap(table,userData,mmHandler,mpHandler,poolIndexMap); return new SnmpCachedData(time,table); } /** * Get the list of memory pool associated with the * given MemoryManagerMXBean. **/ protected String[] getMemoryPools(Object userData, MemoryManagerMXBean mmm, long mmarc) { final String listTag = "JvmMemManager." + mmarc + ".getMemoryPools"; String[] result=null; if (userData instanceof Map) { result = (String[])((Map)userData).get(listTag); if (result != null) return result; } if (mmm!=null) { result = mmm.getMemoryPoolNames(); } if ((result!=null)&&(userData instanceof Map)) { Map<Object, Object> map = Util.cast(userData); map.put(listTag,result); } return result; } protected void updateTreeMap(TreeMap<SnmpOid, Object> table, Object userData, MemoryManagerMXBean mmm, SnmpOid mmIndex, Map<String, SnmpOid> poolIndexMap) { // The MemoryManager index is an int, so it's the first // and only subidentifier. final long mmarc; try { mmarc = mmIndex.getOidArc(0); } catch (SnmpStatusException x) { log.debug("updateTreeMap", "Bad MemoryManager OID index: "+mmIndex); log.debug("updateTreeMap",x); return; } // Cache this in userData + get it from cache? final String[] mpList = getMemoryPools(userData,mmm,mmarc); if (mpList == null || mpList.length < 1) return; final String mmmName = mmm.getName(); for (int i = 0; i < mpList.length; i++) { final String mpmName = mpList[i]; if (mpmName == null) continue; final SnmpOid mpIndex = poolIndexMap.get(mpmName); if (mpIndex == null) continue; // The MemoryPool index is an int, so it's the first // and only subidentifier. final long mparc; try { mparc = mpIndex.getOidArc(0); } catch (SnmpStatusException x) { log.debug("updateTreeMap","Bad MemoryPool OID index: " + mpIndex); log.debug("updateTreeMap",x); continue; } // The MemoryMgrPoolRel table indexed is composed // of the MemoryManager index, to which the MemoryPool // index is appended. final long[] arcs = { mmarc, mparc }; final SnmpOid index = new SnmpOid(arcs); table.put(index, new JvmMemMgrPoolRelEntryImpl(mmmName, mpmName, (int)mmarc, (int)mparc)); } } protected void updateTreeMap(TreeMap<SnmpOid, Object> table, Object userData, SnmpTableHandler mmHandler, SnmpTableHandler mpHandler, Map<String, SnmpOid> poolIndexMap) { if (mmHandler instanceof SnmpCachedData) { updateTreeMap(table,userData,(SnmpCachedData)mmHandler, mpHandler,poolIndexMap); return; } SnmpOid mmIndex=null; while ((mmIndex = mmHandler.getNext(mmIndex))!=null) { final MemoryManagerMXBean mmm = (MemoryManagerMXBean)mmHandler.getData(mmIndex); if (mmm == null) continue; updateTreeMap(table,userData,mmm,mmIndex,poolIndexMap); } } protected void updateTreeMap(TreeMap<SnmpOid, Object> table, Object userData, SnmpCachedData mmHandler, SnmpTableHandler mpHandler, Map<String, SnmpOid> poolIndexMap) { final SnmpOid[] indexes = mmHandler.indexes; final Object[] datas = mmHandler.datas; final int size = indexes.length; for (int i=size-1; i>-1; i--) { final MemoryManagerMXBean mmm = (MemoryManagerMXBean)datas[i]; if (mmm == null) continue; updateTreeMap(table,userData,mmm,indexes[i],poolIndexMap); } } } // The weak cache for this table. protected SnmpTableCache cache; private transient JvmMemManagerTableMetaImpl managers = null; private transient JvmMemPoolTableMetaImpl pools = null; /** * Constructor for the table. Initialize metadata for * "JvmMemMgrPoolRelTableMeta". * The reference on the MBean server is updated so the entries * created through an SNMP SET will be AUTOMATICALLY REGISTERED * in Java DMK. */ public JvmMemMgrPoolRelTableMetaImpl(SnmpMib myMib, SnmpStandardObjectServer objserv) { super(myMib,objserv); this.cache = new JvmMemMgrPoolRelTableCache(this,((JVM_MANAGEMENT_MIB_IMPL)myMib). validity()); } // Returns a pointer to the JvmMemManager meta node - we're going // to reuse its SnmpTableHandler in order to implement the // relation table. private final JvmMemManagerTableMetaImpl getManagers(SnmpMib mib) { if (managers == null) { managers = (JvmMemManagerTableMetaImpl) mib.getRegisteredTableMeta("JvmMemManagerTable"); } return managers; } // Returns a pointer to the JvmMemPool meta node - we're going // to reuse its SnmpTableHandler in order to implement the // relation table. private final JvmMemPoolTableMetaImpl getPools(SnmpMib mib) { if (pools == null) { pools = (JvmMemPoolTableMetaImpl) mib.getRegisteredTableMeta("JvmMemPoolTable"); } return pools; } /** * Returns the JvmMemManagerTable SnmpTableHandler **/ protected SnmpTableHandler getManagerHandler(Object userData) { final JvmMemManagerTableMetaImpl managerTable = getManagers(theMib); return managerTable.getHandler(userData); } /** * Returns the JvmMemPoolTable SnmpTableHandler **/ protected SnmpTableHandler getPoolHandler(Object userData) { final JvmMemPoolTableMetaImpl poolTable = getPools(theMib); return poolTable.getHandler(userData); } // See com.sun.jmx.snmp.agent.SnmpMibTable protected SnmpOid getNextOid(Object userData) throws SnmpStatusException { // null means get the first OID. return getNextOid(null,userData); } // See com.sun.jmx.snmp.agent.SnmpMibTable protected SnmpOid getNextOid(SnmpOid oid, Object userData) throws SnmpStatusException { final boolean dbg = log.isDebugOn(); if (dbg) log.debug("getNextOid", "previous=" + oid); // Get the data handler. // SnmpTableHandler handler = getHandler(userData); if (handler == null) { // This should never happen. // If we get here it's a bug. // if (dbg) log.debug("getNextOid", "handler is null!"); throw new SnmpStatusException(SnmpStatusException.noSuchInstance); } // Get the next oid // final SnmpOid next = handler.getNext(oid); if (dbg) log.debug("getNextOid", "next=" + next); // if next is null: we reached the end of the table. // if (next == null) throw new SnmpStatusException(SnmpStatusException.noSuchInstance); return next; } // See com.sun.jmx.snmp.agent.SnmpMibTable protected boolean contains(SnmpOid oid, Object userData) { // Get the handler. // SnmpTableHandler handler = getHandler(userData); // handler should never be null. // if (handler == null) return false; return handler.contains(oid); } // See com.sun.jmx.snmp.agent.SnmpMibTable public Object getEntry(SnmpOid oid) throws SnmpStatusException { if (oid == null || oid.getLength() < 2) throw new SnmpStatusException(SnmpStatusException.noSuchInstance); // Get the request contextual cache (userData). // final Map<Object, Object> m = JvmContextFactory.getUserData(); // We know in the case of this table that the index is composed // of two integers, // o The MemoryManager is the first OID arc of the index OID. // o The MemoryPool is the second OID arc of the index OID. // final long mgrIndex = oid.getOidArc(0); final long poolIndex = oid.getOidArc(1); // We're going to use this name to store/retrieve the entry in // the request contextual cache. // // Revisit: Probably better programming to put all these strings // in some interface. // final String entryTag = ((m==null)?null: ("JvmMemMgrPoolRelTable.entry." + mgrIndex + "." + poolIndex)); // If the entry is in the cache, simply return it. // if (m != null) { final Object entry = m.get(entryTag); if (entry != null) return entry; } // The entry was not in the cache, make a new one. // // Get the data hanler. // SnmpTableHandler handler = getHandler(m); // handler should never be null. // if (handler == null) throw new SnmpStatusException(SnmpStatusException.noSuchInstance); // Get the data associated with our entry. // final Object data = handler.getData(oid); // data may be null if the OID we were given is not valid. // if (!(data instanceof JvmMemMgrPoolRelEntryImpl)) throw new SnmpStatusException(SnmpStatusException.noSuchInstance); // make the new entry (transient object that will be kept only // for the duration of the request. // final Object entry = (JvmMemMgrPoolRelEntryImpl)data; // XXXXX Revisit // new JvmMemMgrPoolRelEntryImpl((MemoryManagerMXBean)data, // (int)mgrIndex,(int)poolIndex); // Put the entry in the cache in case we need it later while processing // the request. // if (m != null && entry != null) { m.put(entryTag,entry); } return entry; } /** * Get the SnmpTableHandler that holds the jvmMemManagerTable data. * First look it up in the request contextual cache, and if it is * not found, obtain it from the weak cache. * <br>The request contextual cache will be released at the end of the * current requests, and is used only to process this request. * <br>The weak cache is shared by all requests, and is only * recomputed when it is found to be obsolete. * <br>Note that the data put in the request contextual cache is * never considered to be obsolete, in order to preserve data * coherency. **/ protected SnmpTableHandler getHandler(Object userData) { final Map<Object, Object> m; if (userData instanceof Map) m=Util.cast(userData); else m=null; // Look in the contextual cache. if (m != null) { final SnmpTableHandler handler = (SnmpTableHandler)m.get("JvmMemMgrPoolRelTable.handler"); if (handler != null) return handler; } // No handler in contextual cache, make a new one. final SnmpTableHandler handler = cache.getTableHandler(); if (m != null && handler != null ) m.put("JvmMemMgrPoolRelTable.handler",handler); return handler; } static final MibLogger log = new MibLogger(JvmMemMgrPoolRelTableMetaImpl.class); } Other Java examples (source code examples)Here is a short list of links related to this Java JvmMemMgrPoolRelTableMetaImpl.java source code file: |
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