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Revision: 1.4
Committed: Tue Mar 23 20:22:31 2004 UTC (20 years, 9 months ago) by tdb
Branch: MAIN
Changes since 1.3: +1 -4 lines
Log Message:
Move to .xhtml files instead of .shtml. They still use SSI.

We're now validating as XHTML 1.1 (or, at least we will be when I've tested
every page of the site to make sure it validates). I've put the necessary
frigs in the webserver so it returns the content-type as text/html if the
web browser doesn't make any claims to know about application/xhtml+xml
(which is the content type defined by the XHTML standards).

File Contents

# User Rev Content
1 tdb 1.4 <!--#include virtual="/doctype.inc" -->
2 tdb 1.1
3     <head>
4 tdb 1.3 <title>CMS Features</title>
5     <!--#include virtual="/style.inc" -->
6 tdb 1.1 </head>
7    
8 tdb 1.3 <body>
9    
10     <div id="container">
11    
12     <div id="main">
13    
14     <!--#include virtual="/header.inc" -->
15    
16     <div id="contents">
17    
18     <h1 class="top">CMS Features</h1>
19 tdb 1.1
20 tdb 1.3 <h2>Problem Specification</h2>
21    
22     <h3>Original Problem</h3>
23    
24     <p>
25     This is the original specification given to us when we
26     started the project. The i-scream central monitoring
27     system meets this specification, and aims to extend it
28     further. This is, however, where it all began.
29     </p>
30 tdb 1.1
31 tdb 1.3 <h3>Centralised Machine Monitoring</h3>
32    
33     <p>
34     The Computer Science department has a number of different machines
35     running a variety of different operating systems. One of the tasks
36     of the systems administrators is to make sure that the machines
37     don't run out of resources. This involves watching processor loads,
38     available disk space, swap space, etc.
39     </p>
40    
41     <p>
42     It isn't practicle to monitor a large number of machines by logging
43     on and running commands such as 'uptime' on the unix machines, or
44     by using performance monitor for NT servers. Thus this project is
45     to write monitoring software for each platform supported which
46     reports resource usage back to one centralized location. System
47     Administrators would then be able to monitor all machines from this
48     centralised location.
49     </p>
50    
51     <p>
52     Once this basic functionality is implemented it could usefully be
53     expanded to include logging of resource usage to identify longterm
54     trends/problems, alerter services which can directly contact
55     sysadmins (or even the general public) to bring attention to problem
56     areas. Ideally it should be possible to run multiple instances of
57     the reporting tool (with all instances being updated in realtime)
58     and to to be able to run the reporting tool as both as stand alone
59     application and embeded in a web page.
60     </p>
61    
62     <p>
63     This project will require you to write code for the unix and Win32
64     APIs using C and knowledge of how the underlying operating systems
65     manage resources. It will also require some network/distributed
66     systems code and a GUI front end for the reporting tool. It is
67     important for students undertaking this project to understand the
68     importance of writing efficient and small code as the end product
69     will really be most useful when machines start run out of processing
70     power/memory/disk.
71     </p>
72    
73     <p>
74     John Cinnamond (email jc) whose idea this is, will provide technical
75     support for the project.
76     </p>
77    
78     <h2>Features</h2>
79    
80     <h3>Key Features of The System</h3>
81 tdb 1.1
82     <ul>
83     <li>A centrally stored, dynamically reloaded, system wide configuration system</li>
84     <li>A totally extendable monitoring system, nothing except the Host (which
85     generates the data) and the Clients (which view it) know any details about
86     the data being sent, allowing data to be modified without changes to the
87     server architecture.</li>
88     <li>Central server and reporting tools all Java based for multi-platform portability</li>
89     <li>Distribution of core server components over CORBA to allow appropriate components
90     to run independently and to allow new components to be written to conform with the
91     CORBA interfaces.</li>
92     <li>Use of CORBA to create a hierarchical set of data entry points to the system
93     allowing the system to handle event storms and remote office locations.</li>
94     <li>One location for all system messages, despite being distributed.</li>
95     <li>XML data protocol used to make data processing and analysing easily extendable</li>
96     <li>A stateless server which can be moved and restarted at will, while Hosts,
97     Clients, and reporting tools are unaffected and simply reconnect when the
98     server is available again.</li>
99     <li>Simple and open end protocols to allow easy extension and platform porting of Hosts
100     and Clients.</li>
101     <li>Self monitoring, as all data queues within the system can be monitored and raise
102     alerts to warn of event storms and impending failures (should any occur).</li>
103     <li>A variety of web based information displays based on Java/SQL reporting and
104     PHP on-the-fly page generation to show the latest alerts and data</li>
105     <li>Large overhead monitor Helpdesk style displays for latest Alerting information</li>
106     </ul>
107    
108 tdb 1.3 <h3>An Overview of the i-scream Central Monitoring System</h3>
109 tdb 1.1
110 tdb 1.3 <p>
111 tdb 1.1 The i-scream system monitors status and performance information
112     obtained from machines feeding data into it and then displays
113     this information in a variety of ways.
114     </p>
115    
116 tdb 1.3 <p>
117 tdb 1.1 This data is obtained through the running of small applications
118     on the reporting machines. These applications are known as
119     "Hosts". The i-scream system provides a range of hosts which are
120     designed to be small and lightweight in their configuration and
121     operation. See the website and appropriate documentation to
122     locate currently available Host applications. These hosts are
123     simply told where to contact the server at which point they are
124     totally autonomous. They are able to obtain configuration from
125     the server, detect changes in their configuration, send data
126     packets (via UDP) containing monitoring information, and send
127     so called "Heartbeat" packets (via TCP) periodically to indicate
128     to the server that they are still alive.
129     </p>
130    
131 tdb 1.3 <p>
132 tdb 1.1 It is then fed into the i-scream server. The server then splits
133     the data two ways. First it places the data in a database system,
134     typically MySQL based, for later extraction and processing by the
135     i-scream report generation tools. It then passes it onto to
136     real-time "Clients" which handle the data as it enters the system.
137     The system itself has an internal real-time client called the "Local
138     Client" which has a series of Monitors running which can analyse the
139     data. One of these Monitors also feeds the data off to a file
140     repository, which is updated as new data comes in for each machine,
141     this data is then read and displayed by the i-scream web services
142     to provide a web interface to the data. The system also allows TCP
143     connections by non-local clients (such as the i-scream supplied
144     Conient), these applications provide a real-time view of the data
145     as it flows through the system.
146     </p>
147    
148 tdb 1.3 <p>
149 tdb 1.1 The final section of the system links the Local Client Monitors to
150     an alerting system. These Monitors can be configured to detect
151     changes in the data past threshold levels. When a threshold is
152     breached an alert is raised. This alert is then escalated as the
153     alert persists through four live levels, NOTICE, WARNING, CAUTION
154     and CRITICAL. The alerting system keeps an eye on the level and
155     when a certain level is reached, certain alerting mechanisms fire
156     through whatever medium they are configured to send.
157     </p>
158 tdb 1.3 </div>
159    
160     <!--#include virtual="/footer.inc" -->
161    
162     </div>
163    
164     <!--#include virtual="/menu.inc" -->
165    
166     </div>
167 tdb 1.1
168     </body>
169     </html>