- Didactum® Security
Contents
1. WhatsUp gt mibextra directory_name sp mib cx C WINDOWS system32 cmd exe C Program Files Ipswitch WhatsUp Professional gt mibextra exe data mibs sp mib added iso 1 added child org 1 3 added child dod 1 3 6 added child internet 1 3 6 1 added child directory zA ea 6 1 1 added child mgmt 1 3 6 added child mib 2 Ed added alias mib 1 3 6 1 2 1 mib 2 added child transmission 1 3 6 1 2 1 10 added child application 1 3 6 1 2 1 27 added child mta 1 3 6 1 2 1 28 added child experimental 1 3 6 1 3 added child 3 6 1 4 added child enterprises 1 3 6 1 4 1 added child security 1 3 6 1 5 added child SNMPu2 1 3 6 1 6 added child mail 1 3 6 1 7 Defaults added 16 aliased 1 initializing from traps txt definitions initializing from defs txt definitions initializing from mib txt definitions initializing from defs txt initializing from mib txt From mib txt added 4124 pre processing data mi mib SPAGENT MIB data mib processing data mibs already processed definition SPAGENT MIB 1 files processed C Program Files I pswitch WwhatsUp Professional Note if the mib extractor returns failed to open file error the MIB files sp mib has dependencies These dependency files are listed in the import section of the MIB file and must be provided in the same directory as the MIB file An SNMP Performance Monitor You install a SNMP enabled temperature sensor in the server room and want to configure WhatsUp Prof2. Community ublic Save Reset 2 Turn on the SNMP Trap Listener by accessing Configure gt Program Options gt Passive Monitor Listeners in the WhatsUp Professional console SNMP Trap and click Configure On the configuration dialog select Listen for messages on port 162 Click OK to turn the listener on and click OK to close the dialog If you have Windows Trap Listener enabled on the WhatsUp Professional computer the SNMP Trap Listener will not work You must turn the Windows Trap Listener off first 3 Import Trap to passive monitor library by accessing Tools gt Import Trap definitions Select trap definitions to import Trap Definition Import Tool Ed Select trap definitions to import Selected 99 of 115 ee FE ere ianea id uedStart ucdTraps 6 UCD SNMP MIB C uedShutdown ucdT raps 6 5 UCD SNMP MIB spHumidity3Status sensotProbe 6 203 SPAGENT MIB M spHumiditydStatus sensorProbe 6 204 SPAGENT MIB V spHumidity5Status sensorProbe 6 205 SPAGENT MIB M spHumidity6Status sensorProbe 6 206 SPAGENT MIB v spHumidity7Status sensorProbe 6 207 SPAGENT MIB spHumidity8Status sensorProbe 6 208 SPAGENT MIB v spHumidityStatus sensorProbe 6 20 SPAGENT MIB MV spKeepAliveTrap sensorProbe 6 5 SPAGENT MIB iv spNormalStatus sensorProbe 6 SPAGENT MIB xl Cancel Help 4 On the Device Properties for the sensorProbe device select Passive Monitors 5 On the Passive Monitors section click Add The Select Passive Mo
3. Custom Performance Monitor reports rn Actions Performance counter Instance 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 0 E aS Credenl Collection interval minutes Timeout seconds Retries co Poling i E ee Ed Notes E Menu p Attributes kii If you only have the full MIB file and do not have the specific OID for the performance counter you must import that MIB file and browse to the specific performance counter in the MIB To access the MIB Browser click the Browse button Once you select the proper counter the Performance counter box is filled in with the OID 13 In the Collection Interval box enter 5 to have WhatsUp Professional collect the data on the device every 5 minutes 14 Click OK to add the monitor and begin collecting data It may take several polls to produce enough data to see anything interesting on your graph Once you have enough data you can view the performance reports by 1 Right click on the device icon and select Device Reports from the right mouse menu The Report View opens to the Device Reports list 2 Select the Custom Performance Monitor report This report shows the data collected on the device since the monitor was activated Z sensorProbe Device Properties Select a different device APP Monitor Temperature Port1 on sensorProbe8 mv Small Wide ZOO x 200 Date range Custom z Go Starttime 12 12 2006 E 3 30 PM Endtime 12 13 20
4. in 59 0 Average Humidity in 44 0 Current Humidity in 31 0 GREEN s Temperature BLUE Relative Humidity Other NMS Other NMS The securityProbe can be integrated with any Network Management System that is SNMP compliant If you need any information on integrating with any NMS you can contact the technical support team at support akcpinc com
5. to access the Active Monitor Library 4 In the Active Monitor Library click New 5 Select SNMP Monitor as the type of monitor you want to create 6 In the New SNMP Monitor dialog enter Temperature Range in the Name box 7 Since we already created the performance monitor with this data we know that the performance counter OID for the temperature on the device is 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 0 Enter that number in the Performance counter box 8 In the Check type pull down menu select Range of Values 9 We know from the performance monitor that the temperature sensor reports the temperature 60 F Therefore enter 60 in the Low value box as the lowest temperature that should be in the server room 10 Enter 70 as the High value box since anything over 70 F is considered too high for the room Device Properties sensorProbes Sd Edit SNMP Monitor ry G Name Ek P t Temperature Port1 on sensorProbe8 DA 1 i E ba Description gt A fa SNMP Monitor k Object ID Instance Cs P 3 1 3 6 1 4 1 3654 1 2 2 1 16 1 3 0 Ed i 3 f 3 Check type e a j Range of Values x H Eo Advanced pl Pi Low value 7E 60 gi cm Eed High value i f pmo Cancel nest w PEE Attributes OK Cancel Help 11 Click OK to add the monitor to the Active Monitor Library and then click OK to record the selection of the new monitor type
6. 06 _ 10 30 AM 7 sensorProbe8 Temperature Porti on sensorProbe8 904 854 804 70 T T T T T T T T T T T T T T T T T T 3 30 pm 5 30 pm 7 30 pm 9 30 pm 11 30 pm 1 30 am 3 30 am 5 30 am 7 30 am 9 30 am Tuesday December 12 2006 03 30 00 PM Wednesday December 13 2006 10 30 00 AM The report graphs all of the temperature readings gathered at the specified interval You can change the date and time of the displayed data to show more detail on the graph Below the graph the summary bar shows the maximum minimum and average value for the time period selected An SNMP Active Monitor Now that you have several days of performance data for your device you notice that you had occasional spikes in the data that you can t account for You can t tell if a door was left open a device was turned on or anything else that would explain this type of spike You decide that you want to be notified when one of these spikes occurs but only if the spike is in your opinion too high To do this you can create an active monitor that watches the returned value and makes sure that the value falls in an acceptable range To create this monitor 1 On the Device Properties for the temperature device select Active Monitors 2 On the Active Monitors section click Add The Select Active Monitor Type dialog appears 3 Since you do not have an active monitor of this type configured in the Active Monitor Library click Browse
7. 12 On the Select Active Monitor Type dialog click Next 13 Select Enable Polling for this Active Monitor and click Next 14 Select the type of action scenario you want to use for your monitor An action profile that you have configured through the Action Profile Library or select Apply individual actions to build a list of actions that you select from the Action Library Device Properties sensorProbeB af x Properties la Device For test sensorProbe8 nny Does Network interface Use default network interface fia Credentials j Use default Credentials for selected Device 7 Ee Details SNMP check Temperature Port1 on sensorProbe8 for 10 1 1 123 a OID 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 Instance 0 Argument ReadCommunity public Timeout 2 Retries 1 Comment Range Check Polled Yalue 80 Low Yalue 60 High Yalue 70 Polled value 80 was not within range 60 70 ee v gt Help OK Cancel Help 15 Click Finish to begin using this active monitor on the device Now that the monitor is configured you are alerted when the temperature reported by the sensor falls outside of the acceptable temperature range An SNMP Passive Monitor You decide to create an SNMP Passive Monitor that listens for critical error message 1 Configure your device to send SNMP Traps to your WhatsUp Professional computer Send Trap On Destination IP 192 168 0 1
8. G NAME Deg C Humid ShortLegend CONFIG NAME amp nbsp Legend1 CONFIG NAME Temperature Legend2 CONFIG NAME Relative Humidity LegendI CONFIG NAME Temperature amp nbsp in amp deg C amp nbsp LegendO CONFIG NAME Humidity amp nbsp in amp nbsp EE LEAR AS RAB AEE EE IEE RE RRA raf The CONFIG NAME is the base name for files which will be generated by the MRTG when the above script is run More details on the configuration file syntax can be found in the link below http people ee ethz ch oetiker webtools mrtg mrtg reference htm You can add more configurations to the above template to customize it to your needs The above sample gives the graphs for the Temperature Sensor connected to port1 and humidity sensor on port2 of the securityProbe with IP 192 168 0 205 and community as public Below is a list of OID s for temperature and humidity sensors To find out an OID connected to a particular port the user has to read the last digits of the OID In the web interface the ports are numbered from 1 to 8 and the corresponding OID last digits are from 0 to 7 Temperature OID s 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 0 temperature on port 1 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 1 temperature on port 2 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 2 temperature on port 3 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 3 temperature on port 4 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 4 temperature on port 5 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 5 tempe
9. If you wish to keep long term data you must save it If you have been collecting data xnmgraph will read it in when it first starts To set up data collecting from the NNM menu click Options gt Data Collection amp Thresholds SNMP When the Data Collection amp Thresholds SNMP dialog loads click Edit gt MIB Collection gt New When the Collection dialog box loads Set Collection Mode Store No Thresholds Enter the Source of the IP address for the securityProbe and add it to the Source List Press OK to finish with this Dialog and then press File gt Save to start collecting Using the MIB Browser Start the browser by pressing Tools from the NNM menu then SNMP MIB Browser Enter the Name or Address of the securityProbe Enter the Community name of the securityProbe The community name is often set to public Press private to expose the MIB tree under the private OID Then press enterprises gt AKCP gt securityProbe You will probably not use the MIB browser very much All of the information available from the MIB browser is also available from the web based user interface The web user interface also contains additional features and is presented in an easier to use format What to do if the MIB Browser Doesn t Work The most common cause of failure to communicate with the securityProbe is the use of the wrong community string or the wrong host IP address If you believe that those parameters are correct you can trace the com
10. Integration with Network Management Systems Network Management System NMS Integration The securityProbe is embedded with full SNMP and can integrate with any SNMP based network management systems such as HP OpenView NNM IPSwitch WhatsUp Gold CA Unicenter TNG Tivoli Compaq Insight Manager etc The securityProbe comes with a MIB file which can be easily loaded to your network management system and can receive SNMP alerts By default the traps are set to the style of WhatsUp Gold The user can change this to HP OpenView NNM or to WhatsUp Gold or both by using the following command snmpset lt IP gt lt community gt 1 3 6 1 4 1 3854 1 2 2 1 60 0 i lt x gt where o lt IP gt is the IP address of the securityProbe o community is a community string of securityProbe The default is public and o lt x gt can take 3 values 1 WhatsUp Gold style 2 HP OpenView Style or 3 both Style By default the lt x gt value set is 1 HP OpenView Loading the MIB to NNM From the NNM menu press Options gt Load Unload MIBs SNMP The dialog box for Loading Unloading MIBs appears Press Load Browse to the MIB file of the securityProbe The file name is sp mib and it is included in a companion CD at akcp_utilities mib Press open to load this MIB Press OK to load the Trap definitions NNM Menu Integration Adding securityProbe to the NNM Menu You can easily integrate securityProbe into the NNM menu You can add graphing
11. Press Event Messages and then press Log and display in category Choose Application Alert Alarms Now press Actions You may enter a message under the popup window entry You can include in the message variable binding information varbinds if the trap comes from the securityProbe To include variable binding information use 1 2 3 4 5 and 6 in your message These macros are defined here The variable binding information is described in the Description tab For example entering 6 is 2 status is now 1 will display Temperature1 Description is 77 status is now normal if the temperature sensor is 77 degree with its status being normal and the description is Temperature1 Description You can now close this dialog box and go back to the Event Configuration dialog box Under the File menu choose Save Now you will see the traps in the Application Alert Alarm Browser and the All Alarms Browser Graphing with NNM The easiest way to graph is with utility xnmgraph You can graph an individual temperature sensor on the securityProbe To graph the first temperature sensor on the securityProbe hostname 10 1 1 7 enter xnmgraph mib 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 0 10 1 1 7 To graph the second temperature sensor on the securityProbe hostname 10 1 1 7 enter xnmgraph mib 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 1 10 1 1 7 The graph utility xnmgraph does not save its data When the program exits all data is lost
12. e file to the correct directory so that NNM can find it when it starts In the simplest case of a Windows PC running NNM that directory could be in C HP OpenView registration c This path would vary depending upon your choices during installation of NNM On a UNIX platform the path to copy ARF to would be SOV_REGISTRATION S LANG In most cases SLANG would be C The c would indicate that the English language is being used You will find other registration files in that directory such as ovw ovweb and nnm After you have copied ARF to the correct directory you must restart NNM When NNM restarts you should see securityProbe on the NNM menu Under securityProbe menu you should be able to launch the web user interface graph temperature sensor and the status depending on what you customized in the ARF file The ARF file can also be customized with a standard text editor You may wish to include graphs of humidity sensors or switches In addition any sensor status can be visually graphed Polling SNMP Thresholds and Alarm NNM can read the Status field to determine if any of the sensors have a problem Polling is the most effective method of monitoring network connectivity failures While the securityProbe does send traps there is no guarantee that a trap will be delivered to the monitoring station The network traffic generated by polling is very limited The temperature sensor only needs to be read once every five minutes or more This wil
13. essional to monitor and chart the temperature readings on the sensor Here are the steps to configure this type of monitor 1 Right click on the map you want to add the temperature sensor to 2 From the right mouse menu select New gt New Device 3 On the Add New Device dialog enter the IP address of the sensor rm Add New Device K IP address or host name of the new device Cancel 10 1 1 123 dd Help Example 192 168 200 123 or www somedomain com 4 Click Advanced 5 On the Device Discovery Properties dialog clear the active and performance monitor selections leaving only the Ping active monitor and enter the read community sting in the SNMP read box In this case the string is public Device Discovery Properties Select Active Monitors to be used in the scan process Description Secure Hypertext Transfer Protocol Web Server Internet Message Access Protocol V4 SNMP Interface Monitor Network News Transfer Protocol Ping ccess C POP3 Post Office Protocol Y3 C Radius Radius Monitor SMTP Simple Mail Transfer Protocol E mail server zj Select Performance Monitors to be used in the scan process Performance Counter CPU Utilization Disk Utilization C Interface Utilization Memory Utilization T Ping Latency and Availability Use comprehensive discovery I Resolve host name Timeout ms Retry count Identify device via sump 2000 1 SNMP read commun
14. he box 15 In the Payload box click Add to build the expressions that you want to match on for the passive monitor 16 Click OK to add the monitor to the Passive Monitor Library and then click OK to record the selection of the new monitor type 17 On the Select Passive Monitor Type dialog click Next 18 In the Setup Actions for Passive Monitors dialog build a list of actions that you have created in the Action Library When a trap is received that match the payload these actions are fired The SNMP Trap Listener is currently ON Viewing 1 to 5 of results Results Per Page 100 Time Trap Payload Wednesday December 13 2006 02 12 20 PM spTemperature1 Status TrapName sensorProbe 101 TrapMajor 6 TrapMinor 101 spSensorStatus 0 4 CommunityName public 1 3 6 1 4 1 3854 1 7 1 0 4 SpSensorDescription 0 Temperature1 Description 1 3 6 1 4 1 3854 1 7 2 0 81 spSensorLevelExceeded 0 70 1 3 6 1 4 1 3854 1 7 3 0 70 Packet Type Trap spSensorName 0 Temperature1 1 3 6 1 4 1 3854 1 7 4 0 0 1 3 6 1 4 1 3854 1 7 5 0 Temperature1 Protocol VersionsSNMPv1 1 3 6 1 4 1 3854 1 7 6 0 Temperature1 Description SpSensorvalue 0 81 Timetick 1 days 02 26 27 50 SpSensorlndex 0 0 Object 1 3 6 1 4 1 3854 1 sensorProbe Wednesday December 13 2006 02 12 10 PM spTemperature1 Status TrapName sensorProbe 101 TrapMajor 6 http www ipswitch com Support whatsup quide v800 12snmpa4 htm http www ipswitch com products whatsup professional docs sn
15. ities public Windows credentials optional ce None X EA Help 6 Click OK 7 On the Add New Device dialog click OK WhatsUp Professional then scans the IP address using the SNMP community string to identify the device Device Properties 10 1 1 123 Properties gt Q General 4 Performance Monitors es Active Monitors Passive Monitors Fa Actions aS Credentials Poling 2 Notes e Menu g Attributes Display name Device type sensorProbe8 Polling type ficme TCP UDP 7 Poll using application Server 7 address IP Address 7 Host name DNS name 10 1 1 123 Address IP Address 10 1 1 123 Additional Network Interfaces OK Cancel Help 8 When the scan is complete Device Properties for that device appears Select the Performance Monitors section 9 In the Performance Monitors section click New 10 Select SNMP Performance Monitor as the type and click OK 11 On the Add Performance Counter dialog enter Temperature Port1 on sensorProbe in the Name box 12 After reading through the User Manual for the sensor we know that the performance counter OID for the temperature on the device is 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 0 Enter that number in the Performance counter box y General gt DA Perfor EES 1 Q Activet Temperature Port1 on sensorProbe8 N Description We Passive Enables
16. l depend on your current requirements Setting Up Polling To setup polling go to the NNM toolbar and click Options gt Data Collection amp Thresholds SNMP The dialog box appears Click Edit gt MIB Object gt New The dialog to pick the OID to monitor appears Click on the to expand the private tree Then expand enterprises gt AKCP gt securityProbe This exposes the securityProbe MIB You can monitor the status of an individual sensor by choosing the status OID for that sensor For example sensorProbeTempStatus is for the status of temperature sensor A second dialog appears allowing you to further refine the details of what you wish to poll On the Set Collection Mode select Store Check Thresholds Enter the IP Address of the securityProbe in the Source field Press Add to add that data source to the list of nodes to be monitored Next you can change the polling interval For now we will enter 5 seconds This will cause the node to be polled every 5 seconds This is too often for a working environment However it will help to test the securityProbe if we poll more often Once testing is complete we can set the polling to a larger interval Set the Threshold Parameters to gt 3 This means that we will cause an alarm to be triggered whenever the status is greater than or equal to 3 When the status is equal to 3 this means that the status of one of the sensors is at warning Set the Rearm value to lt 3 When the
17. mp paf MRTG MRTG MRTG will monitor SNMP network devices and draw graphs showing how much traffic has passed through each interface The securityProbe is fully compatible with MRTG You will need to download and install MRTG and then create a configuration script The configuration script will instruct MRTG how to pull the data from the system via SNMP MRTG will then produce an HTML file giving you graphs for daily weekly monthly and yearly statistics The HTML file can be recreated at periodic intervals by using MRTG to provide a live up to date graph A web server will give the latest graphs to all users in the enterprise will publish this HTML file How do 1 install MRTG MRTG can be downloaded from http www mrtg org This site has instructions on how to download MRTG and install it MRTG will run on both Linux and Windows platforms After installation you need to create a configuration script that will gather information from the system and plot a graph Below is a minimal template that can be used to gather data from the system Template EER LEER EE GEE A ERLE LE RAR SET Ee of workdir www MRTG NoMib2 Yes Target CONFIG NAME 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 0 amp 1 3 6 1 4 1 3854 1 2 2 1 17 1 3 1 spublic 192 168 0 205 MaxBytes CONFIG NAME 1000 Options CONFIG NAME growright nopercent gauge Title CONFIG NAME Title to display in the html page PageTop CONFIG NAME Page heading YLegend CONFI
18. munication using a LAN analyzer such as Microsoft s netmon If all else fails send an email to support akcpinc com Testing Alarms in NNM The following example tests the first temperature sensor The first thing to do is to make sure that the temperature sensor is online Press the link to the Sensors at the top of the page Now press the temperature button on the left menu Then choose the temperature sensor you want to test If the temperature sensor is plugged into the first RJ 45 sensor port the Autosense will activate this sensor Once activated the sensor should display online The Status should be Normal if the temperature is within the thresholds If the Status is sensorError make sure that the temperature sensor is plugged into the first RJ 45 sensor port Setting the High Warning In order to cause an alarm to take place you will need to set the High Warning near to the current room temperature but high enough so that it can go back to normal The status of the temperature sensor will go to highWarning when the Degree meets or exceeds the High Warning threshold The rearm prevents false notifications being sent as the temperature can flicker between the warning value and the current temperature The rearm will give a margin for this difference For example if the room temperature is 72 and the Rearm is 2 then a good choice is to set Warning High is to 76 To set the HighWarning use the web user interface Enter 76 into the War
19. ning High field and press Save to save your current settings Changing the Temperature Change the temperature by warming the sensor in you hands The sensor is the small black plastic package connected at the end of the cable Hold the temperature sensor until the temperature starts to rise To see the change in temperature you must refresh the web page Changing the Status Press the Summary tab on the top of the web user interface The summary will show the new temperature When the Degree reaches the High Warning threshold the status of the temperature sensor will change to Warning Verifying Alarms When the status changes you will be notified of this change A trap would be sent if they have been configured to send If NNM was polling the status then an alarm would have occurred If you have set up NNM to receive Traps from the system a Popup window would display If you have set up Polling in NNM you can verify that an alarm has actually occurred by opening the Threshold Alarms Browser or the All Alarms Browser There should be an alarm caused by the polled OID Status that has gone to warning integer value 3 Resetting the Sensor Status The temperature sensor will eventfully drift back to room temperature You can see this using the web interface by pressing the Summary tab to refresh the browser By entering a value in the auto refresh browser interval field will automatically cause the browser to refresh itself When the tem
20. nitor Type dialog appears Passive Monitor Properties Select Passive Monitor Type gt Which Passive Monitor type would you like to add me SNMP Trap 7 Which Passive Monitor would vou like to add me spTemperature1 Status 7 Pug Back Cancel Help 6 If you do not have an active monitor of this type configured in the Passive Monitor Library click Browse to access the Passive Monitor Library 7 In the Passive Monitor Library click New 8 Select SNMP Trap as the type of monitor you want to create 9 In the SNMP Passive Monitor instance dialog enter Temperature Port1 Critical Alerts in the Name box 10 In the Generic type Major box select 6 Enterprise Specific SNMP Passive Monitor Instance EE x Name Temperture Port1 Critical Alert Description SNMP Monitor Enterprise OID 1 3 6 1 4 1 3854 1 P Generic type Major Specific type Minor fe Enterprise Specific x 101 x Payload 14 3 6 14 44 14 3854 14 7 1 0 4 Edit Remove Cancel Help 11 Click the Browse button to access the SNMP MIB Browser 12 In the SNMP MIB Browser find private gt enterprises gt akcp gt sensorProbe gt sensorProbe gt spTemperature1Status This is the SNMP Trap ID for the Temperature MIB 13 Click OK 14 In the Enterprise OID box delete the last two digits behind the 2 in the OID This should leave 1 3 6 1 4 1 3854 1 in t
21. perature plus the rearm value is less than the high warning threshold the status of the sensor and the value of the status OID will change back to normal When the status changes a trap will be sent and an alarm will occur from the NNM polling the status Resetting Thresholds If you changed the NNM polling interval go back to the NNM Data Collection and Threshold dialog and reset the polling interval to 1m Monitoring with WhatsUp Gold Adding MIB to WhatsUp Professional In some cases you may want to add MIB files to the WhatsUp Professional system to make it easier to find specific OIDs within the MIB file If you are reporting and alerting on non enterprise OIDs you may be able to use the MIB files already installed with the application To add the MIB file to the application copy the file to the Ipswitch WhatsUp Professional Data Mibs folder in your installation directory Once the MIB is in that directory you must restart the WhatsUp Professional application to see the MIB in the MIB Browser Where to get MIBs If you do not have the MIB files you need for your devices that you can try http www akcp com downloads sp zip Setting up the MIB identifier WhatsUp Gold provides a commandline program named mibextra exe used to update the MIB and the trap information that WhatsUp Gold references The program is located in the directory where WhatsUp Gold is installed To run the MIB extractor at the command prompt enter
22. rature on port 6 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 6 temperature on port 7 1 3 6 1 4 1 3854 1 2 2 1 16 1 3 7 temperature on port 8 Humidity OID s L 3 6 1 4 1 3854 1 2 2 1 17 1 3 0 humidity on port 1 1 3 6 1 4 1 3854 1 2 2 1 17 1 3 1 humidity on port 2 L 3 6 1 4 1 3854 1 2 2 1 17 1 3 2 humidity on port 3 L 3 6 1 4 1 3854 1 2 2 1 17 1 3 3 humidity on port 4 L 3 6 1 4 1 3854 1 2 2 1 17 1 3 4 humidity on port 5 L 3 6 1 4 1 3854 1 2 2 1 17 1 3 5 humidity on port 6 1 3 6 1 4 1 3854 1 2 2 1 17 1 3 6 humidity on port 7 L 3 6 1 4 1 3854 1 2 2 1 17 1 3 7 humidity on port 8 Any sensor producing a graphical data in the system can be configured using MRTG For more information on configuring the system with MRTG please mail us at support akcpinc com Sample MRTG Graphs Daily Graph 5 Minute Average 52 0 39 0 26 0 13 0 Deg C Hum 0 0 8 10 12 14 16 18 20 22 0 2 dd 6 8 MO m12 dd 16 Weekly Graph 30 Minute Average 52 0 39 0 26 0 13 9 Deg C 7 Hum 0 0 Tue Wed Thu Fri Sat Sun Mon Tue Wed Monthly Graph 2 Hour Average 56 0 42 0 28 0 14 0 Deg C Hum 0 0 Week 51 Week 00 Week O14 Week 02 Yearly Graph 1 Day Average 48 0 36 0 24 0 12 0 Deg C Z Hum 0 0 H P 3 F Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Jan Max Temperature m C 270 Average Temperature in C 25 0 Current Temperature in C 27 0 Max Humidity
23. status is at 2 the sensors are at or below normal status When the status is at 1 the sensors status is noStatus The noStatus status is set when the sensor is set to offline Set the Consecutive Samples to 1 for both the Threshold and The Rearm sections Set the Rearm Value Type to Absolute Press OK to add this MIB Object to the collection list and return to the main dialog In order for this new collection to become effective you must save it From the dialog menu click File gt Save You are now polling the sensor Status Polling using RO read only and RW read write communities Follow the example below snmpset lt IP gt lt community gt 1 3 6 1 4 1 3854 1 2 2 1 60 0 i ro rw where o lt IP gt is the IP address of the securityProbe o community is a community string of securityProbe The default is public and o lt ro gt or lt rw gt values or either ro or rw Traps in NNM The securityProbe sends traps whenever the status of their sensors changes These traps are defined in the file sp mib To act upon these traps open the Event Configuration dialog box under the Options menu of NNM Options gt Event Configuration When the Event Configuration dialog box loads scroll down to the top box and select securityProbe The bottom listbox will now list the traps available Select a trap from the bottom list and then from the Dialog menu click Edit gt Events gt Modify The Modify Events dialog box appears
24. the Web Based Monitor Application Web Based User Interface online web based documentation to the NNM Menu This enhancement is optional but it adds a number of important features Because the Web based user interface and documentation are web based they can be used on any platform such as an HP UX box or a Sun or other UNIX system By adding the Web based user interface to the NNM menu it becomes easy for the user to interact with the SNMP agent regardless of his location or platform The NNM menu is also enhanced to add graphing The user can graph the temperature or humidity values for every system For example whenever the user wants to observe temperature trends across the enterprise he can do so with a single button An Application Registration File or ARF file is used by HP OpenView to customize and integrate third party applications such as the securityProbe into NNM The name of this file is called cp8 arf The sample ARF file is located in the companion CD that you received when purchasing the securityProbe lt is in a akcp_utilities Openview directory The file in this directory is only an example hence you will need to modify it to the way you would like it to work For example adding menu for graphing temperature sensor and adding menu to access the web based user interface Please consult the HP OpenView Documentation on how to create and use registration files In order to integrate this ARF file into NNM you must copy th
Download Pdf Manuals
Related Search