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root/i-scream/projects/cms/source/server/uk/org/iscream/cms/server/client/monitors/CPU__Monitor.java

Comparing projects/cms/source/server/uk/org/iscream/cms/server/client/monitors/CPU__Monitor.java (file contents):
Revision 1.14 by ajm, Mon Mar 5 12:45:51 2001 UTC vs.
Revision 1.28 by tdb, Thu Jan 15 13:41:47 2004 UTC

#	Line 1 | Line 1
1	+	/*
2	+	* i-scream central monitoring system
3	+	* http://www.i-scream.org.uk
4	+	* Copyright (C) 2000-2002 i-scream
5	+	*
6	+	* This program is free software; you can redistribute it and/or
7	+	* modify it under the terms of the GNU General Public License
8	+	* as published by the Free Software Foundation; either version 2
9	+	* of the License, or (at your option) any later version.
10	+	*
11	+	* This program is distributed in the hope that it will be useful,
12	+	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	+	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
14	+	* GNU General Public License for more details.
15	+	*
16	+	* You should have received a copy of the GNU General Public License
17	+	* along with this program; if not, write to the Free Software
18	+	* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
19	+	*/
20	+
21		//---PACKAGE DECLARATION---
22	<	package uk.ac.ukc.iscream.client.monitors;
22	>	package uk.org.iscream.cms.server.client.monitors;
23
24		//---IMPORTS---
25		import java.util.HashMap;
26	<	import uk.ac.ukc.iscream.client.*;
27	<	import uk.ac.ukc.iscream.core.*;
28	<	import uk.ac.ukc.iscream.util.*;
29	<	import uk.ac.ukc.iscream.componentmanager.*;
26	>	import uk.org.iscream.cms.server.client.*;
27	>	import uk.org.iscream.cms.server.core.*;
28	>	import uk.org.iscream.cms.util.*;
29	>	import uk.org.iscream.cms.server.componentmanager.*;
30
31		/**
32		* This Monitor watches the CPU load for all machines
#	Line 14 | Line 34 | import uk.ac.ukc.iscream.componentmanager.*;
34		* @author  $Author$
35		* @version $Id$
36		*/
37	<	public class CPU__Monitor implements PluginMonitor {
37	>	public class CPU__Monitor extends MonitorSkeleton {
38
39		//---FINAL ATTRIBUTES---
40
#	Line 23 | Line 43 | public class CPU__Monitor implements PluginMonitor {
43		*/
44		public final String REVISION = "$Revision$";
45
46	+	/**
47	+	* A description of this monitor
48	+	*/
49		public final String DESC = "Monitors CPU.";
50
51		//---STATIC METHODS---
#	Line 30 | Line 53 | public class CPU__Monitor implements PluginMonitor {
53		//---CONSTRUCTORS---
54
55		//---PUBLIC METHODS---
56	<
56	>
57	>	/**
58	>	* Analyse a packet of data, and generate an alert if
59	>	* necessary.
60	>	*
61	>	* @param packet the XMLPacket to analyse
62	>	*/
63		public void analysePacket(XMLPacket packet) {
64	<	if (packet.getParam("packet.attributes.type").equals("data")) {
65	<	String source = packet.getParam("packet.attributes.machine_name");
66	<	if (!_hosts.containsKey(source)) {
38	<	_hosts.put(source, new Register(source, _name, _attributes.length));
39	<	}
40	<
41	<	Register reg = (Register) _hosts.get(source);
42	<	for(int attributeNum = 0; attributeNum < _attributes.length; attributeNum++) {
43	<	// find out the threshold level we're at
44	<	int result = checkAttributeThreshold(packet.getParam(_attributes[attributeNum]), reg);
45	<
46	<	// decide what threshold level we're on, if we've changed, record that
47	<	if (result != reg.getLastThresholdLevel(attributeNum)) {
48	<	reg.setLastThresholdLevel(attributeNum, result);
49	<	}
50	<	// as long as this isn't a normal level
51	<	if(reg.getLastThresholdLevel(attributeNum) != Alert.thresholdNORMAL) {
52	<	// if the time since the last alert is more than the time for
53	<	// its timeout, fire an alert, escalate the alert
54	<	long timeout = reg.getLastAlertTimeout(attributeNum);
55	<	if ((timeout > 0) && (reg.getTimeLastSent(attributeNum) > 0)) {
56	<	if((System.currentTimeMillis() - reg.getTimeLastSent(attributeNum)) > timeout) {
57	<	int lastAlert = reg.getLastAlertLevel(attributeNum);
58	<	reg.escalateAlert(attributeNum);
59	<	reg.setTimeLastSent(attributeNum, System.currentTimeMillis());
60	<	reg.setLastAlertTimeout(attributeNum, reg.getAlertTimeout(reg.getLastAlertLevel(attributeNum), attributeNum));
61	<	fireAlert(reg, lastAlert, packet, attributeNum);
62	<	}
63	<	// if we don't have a timeout configured...we got STRAIGHT to the next level
64	<	} else {
65	<	int lastAlert = reg.getLastAlertLevel(attributeNum);
66	<	reg.escalateAlert(attributeNum);
67	<	reg.setTimeLastSent(attributeNum, System.currentTimeMillis());
68	<	reg.setLastAlertTimeout(attributeNum, reg.getAlertTimeout(reg.getLastAlertLevel(attributeNum), attributeNum));
69	<	fireAlert(reg, lastAlert, packet, attributeNum);
70	<	}
71	<
72	<	// we must be on ok, check the timeout value for this
73	<	} else {
74	<	// if we were on an OK alert before, then we don't do anything
75	<	// but if we weren't we only set OK, once the timout of the last
76	<	// alert has occourd
77	<	if (reg.getLastAlertLevel(attributeNum) != Alert.alertOK) {
78	<	long timeout = reg.getLastAlertTimeout(attributeNum);
79	<	if ((timeout > 0) && (reg.getTimeLastSent(attributeNum) > 0)) {
80	<	if ((System.currentTimeMillis() - reg.getTimeLastSent(attributeNum)) > timeout) {
81	<	int lastAlert = reg.getLastAlertLevel(attributeNum);
82	<	reg.setLastAlertLevel(attributeNum, Alert.alertOK);
83	<	reg.setTimeLastSent(attributeNum, System.currentTimeMillis());
84	<	reg.setLastAlertTimeout(attributeNum, timeout);
85	<	fireAlert(reg, lastAlert, packet, attributeNum);
86	<	}
87	<	}
88	<	}
89	<	}
90	<	}
64	>	String source = packet.getParam("packet.attributes.machine_name");
65	>	if(!checkBooleanConfig(source, "Monitor." + _name + ".enable")) {
66	>	return;
67		}
68	+	if (!_hosts.containsKey(source)) {
69	+	HashMap attributeRegisters = new HashMap();
70	+	initAttributeRegsiters(source, attributeRegisters);
71	+	_hosts.put(source, attributeRegisters);
72	+	}
73	+
74	+	HashMap attributeRegisters = (HashMap) _hosts.get(source);
75	+	for(int attributeNum = 0; attributeNum < _attributes.length; attributeNum++) {
76	+	Register reg = (Register) attributeRegisters.get(_attributes[attributeNum]);
77	+	// find out the threshold level we're at
78	+	String attribute = _attributes[attributeNum];
79	+	String attributeName = _attributeNames[attributeNum];
80	+	String currentValue = packet.getParam(attribute);
81	+	int newThreshold = checkAttributeThreshold(currentValue, reg);
82	+	processAlert(newThreshold, attributeName, reg, source, currentValue);
83	+	}
84		}
85
86		/**
87		* Overrides the {@link java.lang.Object#toString() Object.toString()}
88		* method to provide clean logging (every class should have this).
89		*
90	<	* This uses the uk.ac.ukc.iscream.util.NameFormat class
90	>	* This uses the uk.org.iscream.cms.util.NameFormat class
91		* to format the toString()
92		*
93		* @return the name of this class and its CVS revision
#	Line 115 | Line 107 | public class CPU__Monitor implements PluginMonitor {
107		}
108
109		//---PRIVATE METHODS---
110	<
110	>
111	>	/**
112	>	* Checks a piece of current data, and returns the
113	>	* threshold it breaches, if any.
114	>	*
115	>	* @param attributeString a String representing the current data value
116	>	* @param reg the Register for the host
117	>	* @return the threshold level breached, if any
118	>	*/
119		private int checkAttributeThreshold(String attributeString, Register reg) {
120		for(int thresholdLevel = Alert.thresholdLevels.length - 1; thresholdLevel >= 0; thresholdLevel--) {
121		if (reg.getThreshold(thresholdLevel) != -1.0) {
#	Line 130 | Line 130 | public class CPU__Monitor implements PluginMonitor {
130		}
131		}
132		}
133	<	return 0;
133	>	return Alert.thresholdNORMAL;
134		}
135	<
136	<	private void fireAlert(Register reg, int lastAlert, XMLPacket packet, int attributeNum) {
137	<	int alertLevel = reg.getLastAlertLevel(attributeNum);
138	<	int thresholdLevel = reg.getLastThresholdLevel(attributeNum);
139	<	String source = packet.getParam("packet.attributes.machine_name");
140	<	String currentValue = packet.getParam(_attributes[attributeNum]);
141	<	String attributeName = _attributeNames[attributeNum];
142	<	String thresholdValue = Double.toString(reg.getThreshold(thresholdLevel));
143	<	String time = Long.toString(reg.getAlertTimeout(reg.getLastAlertLevel(attributeNum), attributeNum) / 1000);
144	<	if (thresholdLevel == Alert.thresholdNORMAL) {
145	<	thresholdValue = "-";
135	>
136	>	/**
137	>	* Initialises a HashMap of Registers with the current list
138	>	* of attributes. This is only used if we are looking at more
139	>	* than one distinct attribute.
140	>	*
141	>	* @param source the host we are looking at
142	>	* @param attributeRegisters a HashMap to put the new Registers in
143	>	*/
144	>	private void initAttributeRegsiters(String source, HashMap attributeRegisters) {
145	>	for(int attributeNum = 0; attributeNum < _attributes.length; attributeNum++) {
146	>	String attributeName = _attributes[attributeNum].substring(_attributes[attributeNum].lastIndexOf(".") + 1);
147	>	attributeRegisters.put(_attributes[attributeNum], new Register(source, _name, attributeName));
148		}
147	–	if (alertLevel == Alert.alertOK) {
148	–	time = "0";
149	–	}
150	–	Alert alert = new Alert(alertLevel, lastAlert, thresholdLevel, source, thresholdValue, currentValue, attributeName, time);
151	–	_alerterQueue.add(alert);
152	–	_logger.write(toString(), Logger.DEBUG, "Fired alert for source:" + source + " at alert level:" + Alert.alertLevels[alertLevel] + " on:" + attributeName + " for threshold level:" + Alert.thresholdLevels[thresholdLevel] + " at:" +  currentValue + " exceeding threshold of:" +thresholdValue + " next alert sent in:" + time + "secs");
149		}
150
151		//---ACCESSOR/MUTATOR METHODS---
152	+
153	+	/**
154	+	* Returns a reference to a specific Queue for this
155	+	* monitor. This Queue returns only the data packets
156	+	* (based on type) that we want too look at.
157	+	*
158	+	* @return a reference to a Queue
159	+	*/
160	+	protected Queue getQueue() {
161	+	return MonitorManager.getInstance().getDataQueue();
162	+	}
163
164		//---ATTRIBUTES---
165
#	Line 166 | Line 173 | public class CPU__Monitor implements PluginMonitor {
173		* be changed to null for utility classes.
174		*/
175		private String _name = "CPU";
176	<
176	>
177		/**
178	<	* This holds a reference to the
179	<	* system logger that is being used.
178	>	* A HashMap of Registers (or groups of Registers), one
179	>	* for each host we're monitoring.
180		*/
181	<	private Logger _logger = ReferenceManager.getInstance().getLogger();
181	>	private HashMap _hosts = new HashMap();
182
176	–	private Queue _alerterQueue = ClientMain._alerterQueue;
177	–
183		/**
184	<	* A reference to the configuration proxy in use
184	>	* An array of attributes which we will be checking.
185		*/
181	–	private ConfigurationProxy _cp = ConfigurationProxy.getInstance();
182	–
183	–	private HashMap _hosts = new HashMap();
184	–
186		private String[] _attributes = { "packet.cpu.user", "packet.cpu.kernel", "packet.cpu.iowait", "packet.cpu.swap" };
187	+
188	+	/**
189	+	* An array of "nice names" for the attributes in _attributes.
190	+	*/
191		private String[] _attributeNames = {"User CPU", "Kernel CPU", "I/O Wait CPU", "Swap CPU"};
192
193		//---STATIC ATTRIBUTES---

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