HP Hewlett Packard Computer Monitor B6191 90029 User Manual

EMS Hardware Monitors User's Guide  
Manufacturing Part Number: B6191-90029  
May 2005  
© Copyright 1979-2005 Hewlett-Packard Development Company, L.P.  
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Printing History  
The printing date and part number indicate the current edition. The printing date changes when a new  
edition is printed. (Minor corrections and updates which are incorporated at reprint do not cause the date to  
change.) The part number changes when extensive technical changes are incorporated.  
New editions of this manual will incorporate all material updated since the previous edition.  
May 2005  
June 2004  
Edition 7  
Edition 6  
December 2003 Edition 5  
July 2003  
April 2003  
Edition 4  
Edition 3  
February 2003 Edition 2  
September 2001 Edition 1  
Internal Date: July 17, 2001  
Event Management Lab  
Hewlett-Packard Co.  
19091 Pruneridge Ave.  
Cupertino, CA 95014  
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Contents  
1. Introduction  
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Contents  
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Contents  
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Contents  
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Tables  
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Tables  
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Figures  
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About This Manual  
This guide is intended for use by system administrators and others involved in managing HP-UX system  
hardware resources. It describes the installation and use of (EMS) Hardware Monitors—an important tool in  
managing the operation and health of system hardware resources.  
The book is organized as follows:  
how they work. This material will help you use the hardware event monitors efficiently.  
monitoring requests.  
monitoring, their interaction, and the files involved.  
serves as the interface between the event-driven hardware event monitors and MC/ServiceGuard.  
monitors by modifying the configuration files.  
NOTE  
The information previously contained in the chapter titled “Monitor Data Sheets,” has been  
moved to the Web at http://docs.hp.com/hpux/onlinedocs/diag/ems/emd_summ.htm.  
An HP-UX man page is available for each monitor. To access the man page, type:  
man monitorname  
where monitornameis the executable file listed in the data sheet.  
Typographical Conventions  
This guide uses the following typographical conventions:  
NOTE  
Notes contain important information.  
CAUTION  
Caution messages indicate procedures which, if not observed, could result in damage to your  
equipment or loss of your data.  
WARNING  
Warning messages indicate procedures or practices which, if not observed, could  
result in personal injury.  
Supporting Documentation  
The following documentation contains information related to the installation and use of the hardware event  
monitors:  
Support Plus: Diagnostics User's Guide - provides information on installing the EMS Hardware Monitors  
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Managing MC/ServiceGuard (B3936-90024) - provides information on creating package dependencies for  
hardware resources  
Using EMS HA Monitors (B5735-90001) - provides detailed information on using EMS to create  
monitoring requests.  
Note: This manual pertains to High Availability (HA) Monitors rather than to the EMS Hardware  
Monitors.  
Related Web sites  
The following Web sites provide information on hardware monitoring.  
http://docs.hp.com/en/diag.html—the online library for information about EMS Hardware Monitors  
http://docs.hp.com/en/onlinedocs/diag/ems/emd_summ.htm—Data sheets for the hardware event  
monitors  
Reader Comments  
We welcome your comments on our documentation. If you have editorial suggestions or recommended  
improvements for this document, please write to us. You can give your feedback at the online customer  
feedback web site http://www.docs.hp.com/en/feedback.html. Please include the following information in  
your message:  
Title of the manual you are referencing.  
Manual part number (from the title page).  
Edition number or publication date (from the title page).  
Your name.  
Your company’s name.  
Serious errors, such as technical inaccuracies that may render a program or a hardware device inoperative,  
should be reported to the HP Response Center or directly to a Support Engineer.  
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Introduction  
1 Introduction  
This chapter introduces the EMS Hardware Monitors. The topics discussed in this chapter include the  
following:  
What is hardware monitoring?  
How does hardware monitoring work?  
Benefits of hardware monitoring  
Products supported by hardware monitoring  
Tips for hardware monitoring  
Hardware monitoring terms  
NOTE  
Do I Really Need to Read This Chapter?  
Although it is not essential that you read this material before using the hardware monitors, it  
will help you understand how monitoring works, which in turn should help you use it  
effectively. New users are strongly encouraged to read through the general overview material  
before proceeding to Chapter 2, “Installing and Using Monitors”.  
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Introduction  
Hardware Monitoring Overview  
Hardware Monitoring Overview  
What is Hardware Monitoring?  
Hardware monitoring is the process of watching a hardware resource (such as a disk) for the occurrence of  
any unusual activity, called an event. When an event occurs, it is reported using a variety of notification  
methods (such as email). Event detection and notification are all handled automatically with minimal  
involvement on your part.  
To achieve a high level of system reliability and availability, it is essential that you know when any system  
resource is experiencing a problem. Hardware monitoring gives you the ability to detect problems with your  
system hardware resources. By providing immediate detection and notification, hardware monitoring allows  
you to quickly identify and correct problems—often before they impact system operation.  
Another important feature of hardware monitoring is its integration with applications responsible for  
maintaining system availability, such as MC/ServiceGuard. It is vital that these applications be alerted to  
hardware problems immediately so they can take the necessary action to avoid system interruption.  
Hardware monitoring is easily integrated with MC/ServiceGuard, and the necessary notification methods are  
provided for communication with other applications such as HP OpenView.  
Hardware monitoring is designed to provide a high level of protection against system hardware failure with  
minimal impact on system performance. By using hardware monitoring, you can virtually eliminate  
undetected hardware failures that could interrupt system operation or cause data loss.  
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Introduction  
Hardware Monitoring Overview  
How Does Hardware Monitoring Work?  
The following figure shows the basic components involved in hardware monitoring.  
Figure 1-1  
Components Involved in Hardware Monitoring  
The typical hardware monitoring process works as follows:  
1. While monitoring its hardware resources, the hardware event monitor detects some type of abnormal  
behavior on one of the resources.  
2. The hardware event monitor creates the appropriate event message, which includes suggested corrective  
action, and passes it to the Event Monitoring Service (EMS).  
3. EMS sends the event message to the system administrator using the notification method specified in the  
monitoring request.  
4. The system administrator (or Hewlett-Packard service provider) receives the messages, corrects the  
problem, and returns the hardware to its normal operating condition.  
5. If the PSM has been properly configured, events are also processed by the PSM. The PSM changes the  
device status to DOWN if the event is serious enough. The change in device status is passed to EMS,  
which in turn alerts MC/ServiceGuard. The DOWN status will cause MC/ServiceGuard to failover any  
package associated with the failed hardware resource.  
NOTE  
The Difference Between Hardware Event Monitoring and Hardware Status  
Monitoring  
Hardware event monitoring is the detection of events experienced by a hardware resource. It is  
the task of the EMS Hardware Monitors to detect hardware events. Events are temporary in  
the sense that the monitor detects them but does not remember them. Of course the event itself  
may not be temporary—a failed disk will likely remain failed until it is replaced.  
Hardware status monitoring is an extension of event monitoring that converts an event to a  
change in device status. This conversion, performed by the PSM, provides a mechanism for  
remembering the occurrence of an event by storing the resultant status. This persistence  
provides compatibility with applications such as MC/ServiceGuard, which require a change in  
device status to manage high availability packages.  
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Introduction  
Hardware Monitoring Overview  
Benefits of Hardware Monitoring  
Hardware monitoring provides the following benefits:  
Reduces system downtime by detecting hardware failures when they occur, allowing you to quickly  
identify and correct problems.  
Integrates with MC/ServiceGuard and other applications responsible for maintaining system availability.  
These applications can now add many hardware resources to the components they monitor.  
Minimizes the time required to isolate and repair failures through detailed messages describing what the  
problem is and how to fix it.  
Includes a default monitoring configuration that offers immediate protection for your system hardware  
without any intervention on your part after monitoring is enabled.  
Provides a common tool for monitoring a wide variety of system hardware resources.  
Offers a variety of notification methods to alert you when a problem occurs. You no longer need to check  
the system console to determine if something has gone wrong.  
Requires minimal maintenance once installed and configured. New hardware resources added to the  
system are automatically included in the monitoring structure.  
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Introduction  
Hardware Monitoring Overview  
Products Supported by Hardware Monitors  
EMS Hardware Monitors are provided for a wide range of system hardware resources. The following list  
identifies the types of hardware supported by monitors at the time of publication. A detailed list of the specific  
hardware products supported by each hardware monitor is included in http://docs.hp.com/en/diag/- the  
online library for information about EMS Hardware Monitors (look for “Supported Products” under EMS  
Hardware Monitors).  
HP disk arrays, including AutoRAID Disk Arrays and High Availability Disk Arrays  
HP disk devices, including CD-ROM drives and MO drives  
HP SCSI tape devices, including many DLT libraries and autochangers  
HP Fibre Channel SCSI Multiplexer  
HP Fibre Channel Adapters  
HP Fibre Channel Adapter (A5158)  
High Availability Storage Systems  
HP Fibre Channel Arbitrated Loop Hubs  
HP Fibre Channel Switch  
System memory  
Core hardware  
Low Priority Machine Checks (LPMCs)  
HP-UX kernel resources  
HP Fibre Channel disk array FC60  
SCSI1, SCSI2, SCSI3 interface cards  
System information  
HP UPSs (Uninterruptible Power Systems)  
Devices supported by HP device management software (Remote Monitor)  
NOTE  
Will new products be supported?  
Hewlett-Packard's strategy is to provide monitoring for all critical system hardware resources,  
including new products. For the latest information on what products are supported by EMS  
Hardware Monitors, visit the hardware monitoring web pages available at  
www.docs.hp.com/en/diag/ - the online library for information about EMS Hardware  
Monitors (look for "Supported Products" under EMS Hardware Monitors).  
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Introduction  
Hardware Monitoring Overview  
Tips for Hardware Monitoring  
Here are some tips for using hardware monitoring.  
Keep hardware monitoring enabled to protect your system from undetected failures. Hardware  
monitoring is an important tool for maintaining high-availability on your system. In a high-availability  
environment, the failure of a hardware resource makes the system vulnerable to another failure. Until  
the failed hardware is repaired, the backup hardware resource represents a single-point of failure.  
Without hardware monitoring you may not be aware of the failure. But if you are using hardware  
monitoring, you are alerted to the failure. This allows you to repair the failure and restore  
high-availability as quickly as possible.  
Integrate the PSM into your MC/ServiceGuard strategy. An important feature of hardware  
monitoring is its ability to communicate with applications responsible for maintaining system  
availability, such as MC/ServiceGuard. The PSM allows you to integrate hardware monitoring into  
MC/ServiceGuard. The PSM gives you the ability to failover a package based on an event detected by  
hardware monitoring. If you are using MC/ServiceGuard, you should consider using the PSM to include  
your system hardware resources in the MC/ServiceGuard strategy. In addition, the necessary notification  
methods are provided for communicating with network management application such as HP OpenView.  
Utilize the many notification methods available. The notification methods provided by hardware  
monitoring provide a great deal of flexibility in designing a strategy to keep you informed of how well your  
system hardware is working. The default monitoring configuration was selected to provide a variety of  
notification for all supported hardware resources. As you become familiar with hardware monitoring, you  
may want to customize the monitoring to meet your individual requirements.  
Use e-mail and/or text file notification methods for all your requests. Both of these methods,  
which are included in the default monitoring, receive the entire content of the message so you can read it  
immediately. Methods such as console and syslog alert you to the occurrence of an event but do not deliver  
the entire message. You are required to retrieve the message using the resdatautility, which requires an  
additional step.  
Use the `All monitors' option when creating a monitoring request. This option enables monitoring  
request to all monitors. It ensures any new class of hardware resource added to your system is  
automatically monitored. This means that new hardware is protected from undetected hardware failure  
with no effort on your part.  
Easily replicate your hardware monitoring on all your systems. Once you have implemented a  
hardware monitoring strategy on one of your systems, you can replicate that same monitoring on other  
systems. Simply copy all of the hardware monitor configuration files to each system that will use the same  
monitoring. The monitor configuration files are found at /var/stm/config/tools/monitor. Of course,  
you must have installed hardware event monitoring on each system before you copy the configuration files  
to it. Be sure to enable monitoring on all systems.  
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Introduction  
Hardware Monitoring Overview  
Hardware Monitoring Terms  
The following terms are used throughout this guide. Understanding them is important when learning how  
the hardware event monitors work and how to use them effectively.  
Table 1-1  
Hardware Monitoring Terms  
Term  
Definition  
Asynchronous event  
detection  
The ability to detect an event at the time it occurs. When an  
event occurs the monitor is immediately aware of it. This  
method provides quicker notification response than polling.  
Default monitoring  
request  
The default monitoring configuration created when the EMS  
Hardware Monitors are installed. The default requests  
ensure that a complete level of protection is automatically  
provided for all supported hardware resources.  
Event Monitoring  
Service (EMS)  
The application framework used for monitoring system  
resources on HP-UX 10.20 and 11.x. EMS Hardware  
Monitors use the EMS framework for reporting events and  
creating PSM monitoring requests. The EMS framework is  
also used by EMS High Availability Monitors.  
EMS Hardware  
Monitors  
The monitors described in this manual. They monitor  
hardware resources such as I/O devices (disk arrays, tape  
drives, etc.), interface cards, and memory. They are  
distributed on the Support Plus Media and are managed  
with the Hardware Monitoring Request Manager  
(monconfig).  
EMS High  
Availability (HA)  
Monitors  
These monitors are different from EMS Hardware Monitors  
and are not described in this manual. They monitor disk  
resources, cluster resources, network resources and system  
resources. They are designed for a high availability  
environment and are available at additional cost. For more  
information, refer to Using EMS HA Monitors, which is  
available at http://docs.hp.com/en/ha.html.  
Event severity level  
Each event that occurs within the hardware is assigned a  
severity level, which reflects the impact the event may have  
on system operation. The severity levels provide the  
mechanism for directing event notification. For example, you  
may choose a notification method for critical events that will  
alert you immediately to their occurrence, and direct less  
important events to a log file for examination at your  
convenience. Also, when used with MC/ServiceGuard to  
determine failover criteria, severe and critical events cause  
failover.  
Hardware event  
Any unusual or notable activity experienced by a hardware  
resource. For example, a disk drive that is not responding, or  
a tape drive that does not have a tape loaded. When any such  
activity occurs, the occurrence is reported as an event to the  
event monitor.  
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Introduction  
Hardware Monitoring Overview  
Table 1-1  
Hardware Monitoring Terms (Continued)  
Term  
Definition  
Hardware event  
monitor  
A monitor daemon that gathers information on the  
operational status of hardware resources. Each monitor is  
responsible for watching a specific group or type of hardware  
resources. For example, the tape monitor handles all tape  
devices on the system. The monitor may use polling or  
asynchronous event detection for tracking events.  
Unlike a status monitor, an event monitor does not  
“remember” the occurrence of an event. It simply detects and  
reports the event. An event can be converted into a more  
permanent status condition using the PSM.  
Hardware resource  
MC/ServiceGuard  
A hardware device used in system operation. Resources  
supported by hardware monitoring include mass storage  
devices such as disks and tapes, connectivity devices such as  
hubs and multiplexors, and device adapters.  
Hewlett-Packard's application for creating and managing  
High Availability clusters of HP 9000 Series 800 computers.  
A High Availability computer system allows application  
services to continue in spite of a hardware or software  
failure. Hardware monitoring integrates with  
MC/ServiceGuard to ensure that hardware problems are  
detected and reported immediately, allowing  
MC/ServiceGuard to take the necessary action to maintain  
system availability. MC/ServiceGuard is available at  
additional cost  
Monitoring request  
A group of settings that define how events for a specific  
monitor are handled by EMS. A monitoring request identifies  
the severity levels of interest and the type of notification  
method to use when an event occurs. A monitoring request is  
applied to each hardware device (or instance) supported by  
the monitor.  
Monitoring requests are created for hardware events using  
the Hardware Monitoring Request Manager. Monitoring  
requests are created for changes in hardware status using  
the EMS GUI.  
Multiple-view  
As of the HP-UX 11.00/10.20 June 2000 release (IPR 0006),  
certain monitors will allow event reporting to be tailored for  
different targets (clients). This “multiple-view”  
(“Predictive-enabled”) feature will be added to all hardware  
monitors in future releases. Previously, hardware monitors  
generated events the same way for all targets. The problem  
is that different targets, such as HP Support Applications,  
may have different requirements for events.  
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Introduction  
Hardware Monitoring Overview  
Table 1-1  
Hardware Monitoring Terms (Continued)  
Term  
Definition  
Peripheral Status  
Monitor (PSM)  
Included with the hardware event monitors, the PSM is a  
monitor daemon that acts as a hardware status monitor by  
converting events to changes in hardware resource status.  
This provides compatibility with MC/ServiceGuard, which  
uses changes in status to manage cluster resources. Through  
the EMS GUI, the PSM is also used to create hardware  
status monitoring requests.  
Polling  
The process of connecting to a hardware resource at regular  
intervals to determine its status. Any events that occur  
between polling intervals will not be detected until the next  
poll, unless the monitor supports asynchronous event  
monitoring.  
Predictive-enabled  
Resource instance  
See “multiple-view.” This feature enables hardware monitors  
to work with HP Support Applications.  
A specific hardware device. The resource instance is the last  
element of the resource path and is typically the hardware  
path to the resource (e.g., 10_12_5.0.0), but it may also be a  
product ID as in the case of AutoRAID disk arrays. There  
may be multiple instances for a monitor, each one  
representing a unique hardware device for which the  
monitor is responsible.  
Resource path  
Hardware event monitors are organized into classes (and  
subclasses) for creating monitoring requests. These classes  
identify the unique path to each hardware resource  
supported by the monitor. Two similar resource paths exist  
for each hardware resource—an event path used for creating  
event monitoring requests, and a status path used for  
creating PSM monitoring requests.  
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Introduction  
Hardware Monitoring Overview  
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Installing and Using Monitors  
2 Installing and Using Monitors  
This chapter instructs you how to use the EMS Hardware Monitors to manage your hardware resources. The  
topics discussed in this chapter include:  
An overview of the steps involved  
Installing EMS Hardware Monitors  
Adding and managing monitor requests  
Disabling and enabling EMS Hardware Monitors  
NOTE  
You don't need to completely understand the terms and concepts to begin protecting your  
system with EMS Hardware Monitors by following the procedures in this chapter. If a term or  
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Installing and Using Monitors  
The Steps Involved  
The Steps Involved  
The steps involved in installing and configuring hardware monitoring are shown in Figure 2-1 on page 27.  
Each step is described in detail in this chapter on the page indicated. Installation of Support Tools is  
necessary if you have Diagnostic/IPR Media release earlier than the June 1999 release only. With HP-UX 11i,  
the Support Tools are automatically installed when the OS is installed.  
Step 1: Install the Support Tools from the most current copy of Support Plus Media you can find. You can  
also download this package over the Web. See “Installing EMS Hardware Monitors”. This step is  
necessary if you have Diagnostic/IPR Media release earlier than the June 1999 release only.  
Step 2: Examine the list of supported products to see if any of your devices has special requirements in  
order to be monitored. For example, if monitoring FC-AL hubs, edit the file:  
/var/stm/config/tools/monitor/dm_fc_hub. See “Fibre Channel Arbitrated Loop Hub Monitor”.  
Step 3: Enable hardware event monitoring. See “Enabling Hardware Event Monitoring”. This step is  
necessary if you have Diagnostic/IPR Media release earlier than the June 1999 release only.  
Step 4: Determine whether default monitoring requests are adequate. See “Viewing Current Monitoring  
Requests”.  
Step 5: Add or modify monitoring requests as necessary. See “Adding a Monitoring Request” and  
“Modifying Monitoring Requests”.  
Step 6: If desired, verify monitor operation (recommended, but optional). See “Verifying Hardware Event  
Monitoring”.  
NOTE  
How Long Will it Take to Get Hardware Monitoring Working? (For Diagnostic/IPR  
Media released earlier than the June 1999 release only.)  
You can get hardware monitoring installed and working in minutes. Once the software is  
installed, you simply need to run the Hardware Monitoring Request Manager and enable  
monitoring. The default hardware monitoring configuration should meet your monitoring  
requirements without any changes or modifications. If you find that the default monitoring  
should be customized, you can always return later and add or modify monitoring requests as  
needed.  
NOTE  
If I'm Already Using EMS HA Monitors, Can I Also Use the EMS GUI to Manage  
Hardware Monitoring?  
For the most part, no. Hardware event monitoring is managed using the Hardware Monitoring  
Request Manager, which serves the same function the EMS GUI serves for the EMS HA  
monitors. The only portion of hardware monitoring that is managed using the EMS GUI is  
status monitoring done using the PSM described in Chapter 4, “Using the Peripheral Status  
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Installing and Using Monitors  
The Steps Involved  
Figure 2-1  
The Steps for Installing and Configuring Hardware Monitoring  
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Installing and Using Monitors  
Installing EMS Hardware Monitors  
Installing EMS Hardware Monitors  
The EMS Hardware Monitors software is distributed with the Support Tools (diagnostics). All the necessary  
files for hardware monitoring are installed automatically when the Support Tools are installed. There are  
several different ways that the Support Tools are installed:  
The Support Plus Media: installing the OnlineDiag depot from the Support Plus Media using swinstall.  
HP Software Depot website: downloading the “Support Tools for the HP 9000” in the “Enhancement  
Releases” product category, then using swinstallto install the OnlineDiag depot.  
Automatic: with HP-UX 11i, the Support Tools are automatically installed from the OE CD-ROM when  
the operating system is installed.  
Complete instructions for installing STM are contained in Chapter 5 of the Support Plus: Diagnostics User's  
Guide.  
The following software components are installed for hardware monitoring:  
All hardware event monitors  
Monitor configuration files  
Monitoring Request Manager  
EMS framework, including the EMS graphical interface  
All EMS Hardware Monitors on the CD-ROM will be installed on your system, but only those that support  
hardware resources you are using will be active. If you add a new hardware resource to your system that uses  
an installed monitor, the monitor will be launched when the system is restarted or following the execution of  
the IOSCAN utility (which performs a real/hard ioscan).  
NOTE  
Reinstalling or upgrading the STM software will erase the current PSM configuration. Any  
MC/ServiceGuard package dependencies or EMS monitoring requests you have created with  
the PSM will be lost. Before reinstalling the STM software, record the current PSM  
configuration so you can easily recreate it after the software has been installed. Or you can  
comment out the PSM dependencies in the ServiceGuard configuration files, then re-enable  
them after the STM software has been installed.  
IOSCAN Utility  
When you execute the IOSCAN utility, a real/hard” ioscan is performed. The utility performs a scan of your  
system hardware, gathering the most-current information.  
Conversely, ioscan -k’ is used by hardware monitors and diagnostics to obtain their information about  
configured devices. The data returned by ‘ioscan -k’ is only as accurate as the last system reboot, or when a  
“real/hard” ioscan is executed. This means that if a device or component is added to / removed from the  
system, a “real/hard” ioscan should be executed in order to ensure an updated IOSCAN table in the kernel for  
use by the hardware monitors and diagnostics. Otherwise, the hardware monitors and diagnostics will  
operate on a stale, inaccurate picture of the system’s configuration.  
Supported System Configuration  
To use the hardware event monitors, your system must meet the following requirements:  
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Installing and Using Monitors  
Installing EMS Hardware Monitors  
HP 9000 Series 700 or 800 Computer  
HP-UX 10.20 or 11.x (Hardware event monitoring is not currently available on the special high security  
systems, HP-UX 10.26 (TOS) and HP-UX 11.04 (VVOS).  
Support Plus Media, the more current the better. The hardware event monitors were first distributed in  
the HP-UX 10.20/11.00 February 1999 release (IPR 9902). Before the September 1999 release, the  
Support Plus Media was called the Diagnostic/IPR Media.  
Rather than use the Support Plus Media, you can download the Support Tools (including STM and the  
hardware event monitors) over the Web. See Chapter 5 of the Support Plus: Diagnostics User's Guide for  
more information  
If you are using MC/ServiceGuard (optional), you must have version A.10.11 on HP-UX 10.20, or version  
A.11.04 for HP-UX 11.x.  
Removing EMS Hardware Monitors  
The hardware monitoring software can be removed using the swremoveutility. Run swremoveand select the  
OnlineDiagbundle. This will remove the hardware monitoring software components and the STM software  
components.  
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Installing and Using Monitors  
Checking for Special Requirements  
Checking for Special Requirements  
Some devices have special requirements in order to be monitored. Examine the tables of supported products  
below to see if any of your devices have special requirements.  
Table 2-1  
Disk Arrays  
Model/Product  
Number  
Special  
Requirements  
Product  
HP AutoRAID Disk Array  
12H  
12  
Requires the  
following ARMServer  
versions:  
Supported by: AutoRAID Disk Array  
Monitor  
HP-UX 10.XX  
(PHCO_23261);  
HP-UX 11.00  
(PHCO_23262);  
HP-UX 11.11 (Patch  
PHCO_23263)  
HP High Availability Disk Array  
30/FC  
20  
10  
None  
None  
Supported by: High-Availability Disk  
Array Monitor  
HP Fast/Wide SCSI Disk Array  
C243XHA  
Supported by: Fast/Wide SCSI Disk  
Array Monitor  
HP Fibre Channel High Availability  
Disk Array (Model 60/FC)  
HP SureStore E  
Disk Array  
HP-UX 10.20  
(PHCO_26822);  
HP-UX 11.00  
(PHCO_26823);  
HP-UX 11.11  
(PHCO_26824)  
Supported by Disk Array FC60 Monitor  
FC60  
HP Storage Works Modular SAN array  
1000  
HP Storage  
Works Modular  
SAN array 1000  
None  
Supported by: HP Storage Works  
Modular SAN array 1000 Monitor  
30  
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Installing and Using Monitors  
Checking for Special Requirements  
Table 2-2  
Disk Products  
Model/Product  
Number  
Special  
Requirements  
Product  
All disks bound to the sdisk and disc30  
drivers and not under the control of  
another event monitor (such as a disk  
array monitor).  
NA  
None  
Hitachi XP128, XP256, XP512 and  
XP1024 drives and EMC Symetrix  
drives are not supported, since these  
drives have their own monitoring.  
Supported by: Disk Monitor  
Important: HP Storage Works SDLT 160/320 GB Tape Drive and the HP Ultrium 460 External Tape Drive  
are not supported by the Online Diagnostics product. Some STM tools may function but these tools are not  
supported. The diagnostics tools and utilities that support these devices are HP Storage Works Library and  
Tape Tools (L&TT). These tools can be downloaded free of cost from the web site  
http://www.hp.com/support/tapetools.  
This monitor should be disabled while taking a backup since EMS polling can interfere with the backup  
process.  
Tape products are monitored on releases prior to HP-UX 11i v2 May 2005 only. However, they are not  
monitored in the current release.  
Table 2-3  
Tape Products (monitored by SCSI Tape Devices Monitor)  
Model/Product  
Number  
Special  
Requirements  
Product  
DDS-2 Autoloader  
DDS-3 Autoloader  
DDS-4 Autoloader  
A3400A  
None  
A3716A  
None  
C6370A, C6371A  
A3544A  
March 00 Release  
None  
DLT4000 4/48 Library; HP-UX;  
Differential SCSI  
DLT4000 2/48 Library; HP-UX;  
Differential SCSI  
A3545A  
A3546A  
A4850A  
A4855A  
None  
None  
None  
None  
DLT4000 2/28 Library; HP-UX;  
Differential SCSI  
DLT 4000 and 7000; 2/28; Drives  
Differential; Robotics SE/Diff  
DLT 4000 & 7000; 4/48: Drives  
Differential; Robotics SE/Diff  
31  
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Checking for Special Requirements  
Table 2-3  
Tape Products (monitored by SCSI Tape Devices Monitor) (Continued)  
Model/Product  
Number  
Special  
Requirements  
Product  
DLT 4000 and 7000; 15 slot;  
Deskside/Rack; Differential  
A4851A  
A4845A  
A4846A  
None  
DLT 4000 and 7000; 588 slot; Drives  
Diff; Robotics SE  
None  
None  
DLT 4000 and 7000; 100 slot; Drives  
Diff; Robotics SE  
DLT 4000 and 7000; 30 slot; Differential A4853A  
None  
DLT7000 8-slot Library  
DLT8000 8-slot Library  
DLT8000 20-slot Library  
A5501A  
A1375A  
March 00 Release  
March 00 Release  
March 00 Release  
A5583A,A5584A,  
A4680AZ,  
A4680AHP,  
A4681AHP  
DLT8000 40-slot Library  
DLT8000 60-slot Library  
A5585A, A5586A, March 00 Release  
A4682AZ,  
A4682AHP,  
A4683AHP  
A5587A, A5588A, March 00 Release  
A4684AZ,  
A4684AHP,  
A4685AHP  
DLT8000 100-slot Library  
DLT8000 120-slot Library  
DLT8000 140-slot Library  
DLT8000 700-slot Library  
DLT8000 180-slot Library  
A4665A, A4666A  
A4667A, A4668A  
A4669A, A4670A  
A5597A  
June 00 Release  
June 00 Release  
June 00 Release  
March 00 Release  
March 00 Release  
A5617A  
In addition to the above products, the SCSI Tape Devices Monitor supports all SCSI tape resources bound to  
the PCI tape driver.  
SCSI tape resources bound to tape2 - NIO (HP-PB) tape driver and stape - GSC (HSC) tape driver are not  
supported on HP-UX 11i v2 May 2005 release.  
The SCSI tape devices monitor also supports the following tape libraries and autoloaders:  
DDS-2 Autoloader  
DDS-3 Autoloader  
DLT 4000 & 7000; HP Surestore Tape Library Model 2/28  
DLT 4000 & 7000; HP Surestore Tape Library Model 4/48  
DLT 4000 & 7000; 588 slot; Drives Diff; Robotics SE  
32  
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Checking for Special Requirements  
DLT 4000 & 7000; 100 slot; Drives Diff; Robotics SE  
DLT 4000 & 7000; 30 slot; Differential  
As of the March 2000 release (IPR0003), the monitor also supports the following devices:  
DDS-4 Autoloader  
DLT7000 HP Surestore Tape Autoloader Model 1/9  
DLT8000 HP Surestore Tape Autoloader Model 1/9  
DLT 8000 HP Surestore Tape Library Model 2/20  
DLT8000 HP Surestore Tape Library Model 4/40  
DLT8000 HP Surestore Tape Library Model 6/60  
DLT8000 HP Surestore Tape Library Model 20/700  
DLT8000 HP Surestore Tape Library Model 10/180  
As of the June 2000 release (IPR0006), the monitor also supports the following devices:  
DLT8000 100-slot, 120-slot, 140-slot Library  
As of the September 2000 release (IPR0009), the monitor also supports the following devices:  
Ultrium HP Surestore Tape Library Model 20/700  
Ultrium HP Surestore Tape Library Model 10/180  
As of the September 2002 release (HWE0209), the monitor also supports the following devices:  
Ultrium 20, 40, 60, 100, 120, and 140-slot Library  
Ultrium HP Surestore Tape Autoloader Model 1/9  
Table 2-4  
High Availability Storage Systems  
Model/Product  
Special  
Requirements  
Product  
Number  
HP High Availability Storage System  
1010D  
None  
Supported by: High-Availability Storage  
System Monitor  
HP Surestore E Disk System  
SC10  
2300  
2405  
None  
None  
None  
Supported by: High-Availability Storage  
System Monitor  
HP Surestore Disk System  
Supported by: High-Availability Storage  
System Monitor  
HP Surestore Disk System  
Supported by: High-Availability Storage  
System Monitor  
33  
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Installing and Using Monitors  
Checking for Special Requirements  
Table 2-5  
Fibre Channel SCSI Multiplexers  
Model/Product  
Number  
Special  
Requirements  
Product  
HP Fibre Channel SCSI Multiplexer  
A3308A  
Firmware version  
3840  
Supported by: Fibre Channel SCSI  
Multiplexer Monitor  
Table 2-6  
Fibre Channel Adapters  
Model/Product  
Number  
Special  
Requirements  
Product  
HP Fibre Mass Storage Channel  
Adapters  
A3404A  
A3591A  
A3636A  
A3740A  
The following driver  
revisions are  
required: B.10.20  
TFC plus Dart40;  
B.11.00 release  
IPR9808 (Rocklin  
version)  
Supported by: Fibre Channel Mass  
Storage Channel Adapter  
Fibre Channel Mass Storage Channel  
Adapter  
A5158A  
A6684A  
A6795A  
B.11.00 Tachlite  
driver (td) Dart 48  
Supported by: A5158A Fibre Channel  
Mass Storage Channel Adapter  
(dm_TL_adapter)  
B.11.00 release IPR  
0003 or later  
B.10.20 release June  
2001 or later  
Please see the  
following web sites  
for current product  
updates/information  
and the latest  
information on the  
driver and STM  
versions required for  
the Fibre Channel  
host bus adapters:  
For product support  
information:  
http://itrc.hp.com  
For documentation:  
http://docs.hp.com  
34  
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Installing and Using Monitors  
Checking for Special Requirements  
Table 2-7  
Fibre Channel Arbitrated Loop (FC-AL) Hub  
Model/Product  
Special Requirements  
Number  
Product  
HP Fibre  
Channel  
Arbitrated Loop  
Hubs  
A3724A  
A4839A  
The FC-AL Hub monitor requires:  
Device Firmware revisions:  
Device Agent Firmware revision 2.14 or  
greater  
Supported by:  
Fibre Channel  
Arbitrated Loop  
Hub Monitor  
Hub Controller Firmware revision 3.06  
or greater  
Firmware and installation instructions  
are available at  
http://www.software.hp.com  
C++ runtime support patches:  
10.20 PHSS_22354 (has a dependency:  
PHSS_17225)  
11.00 PHSS_32574  
Before using the hub monitor, edit the  
monitor configuration file  
(/var/stm/config/tools/monitor/dm_fc_hub.cfg  
) to indicate what hubs will be monitored.  
Monitor” on page 128.  
Table 2-8  
Product  
Fibre Channel Switch  
Model/Product  
Number  
Special Requirements  
HP Fibre  
Channel Switch  
A5223A  
A5224A  
A5625A  
A7347A  
The FC Switch monitor requires:  
C++ runtime support patches:  
Supported by:  
Fibre Channel  
Switch Monitor  
10.20 PHSS_22354 (has a dependency:  
PHSS_17225)  
11.00 PHSS_32574  
Before using the switch monitor, edit the  
monitor configuration file  
(/var/stm/config/tools/monitor/dm_fc_sw.cfg)  
to indicate what switches will be monitored.  
Monitor” on page 128.  
35  
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Installing and Using Monitors  
Checking for Special Requirements  
Table 2-9  
Memory  
Model/Product  
Number  
Special  
Requirements  
Product  
All system memory on PA-RISC  
systems.  
NA  
None  
Supported by: PA Memory Monitor  
Itanium Memory Monitor: monitor for  
all system memory on Itanium systems.  
NA  
HP-UX 11.22 OS or  
later  
Supported by: Itanium Memory Monitor  
Table 2-10  
System  
Model/Product  
Number  
Special  
Requirements  
Product  
A monitor designed to monitor all  
system chassis logs.  
Superdome  
S-Class  
For HP-UX 11.11 OS  
only. The chassis code  
logging daemon  
Supported by: Chassis Code Monitor  
(cclogd) must be up  
and running.  
Core hardware (hardware within the  
SPU cabinet). For example, resources  
associated with intake temperature. On  
some systems, other hardware resources  
such as power supplies are monitored.  
NA  
NA  
HP-UX 11.x  
Supported by: Core Hardware Monitor  
Corrected Machine Checks (CMCs)  
HP-UX 11.20 or later  
experienced by Itanium-based systems.  
Supported by: CMC Monitor  
Corrected Platform Error (CPE) Monitor NA  
for all Itanium-based systems.  
HP-UX 11.23 OS or  
later  
Supported by: Itanium Core Hardware  
Monitor  
Core hardware on PA-RISC and Itanium NA  
systems. For example, resources  
associated with temperature or power  
supply.  
HP-UX 11.20 or later  
Supported by: Itanium Core Hardware  
Monitor  
36  
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Checking for Special Requirements  
Table 2-10  
System (Continued)  
Model/Product  
Number  
Special  
Requirements  
Product  
Low Priority Machine Checks (LPMCs)  
Supported by: LPMC Monitor  
NA  
HP-UX 11.x  
IPMI Forward Progress Log Monitor  
monitors IPMI FPL log entries on the  
system.  
NA  
All HP-UX IPF  
systems running  
HP-UX 11.23 or later.  
Supported by: IPMI Forward Progress  
Log Monitor  
All HP-UX PA  
systems running  
HP-UX 11.23 or later.  
The ia64_corehw  
monitor must be  
running.  
HP-UX Kernel Resources  
Hardware:  
HP9000 (/V) S700 Requires  
HP-UX 11.x.  
Supported by: Kernel Resource Monitor  
and S800  
configuration  
through SAM.  
Software: HP-UX  
11.0 (B.11.0),  
both 32 bit and 64  
bit  
System Status  
NA  
None  
Supported by: System Status Monitor  
Table 2-11  
Interface Cards  
Model/Product  
Number  
Special  
Requirements  
Product  
SCSI1, SCSI2, & SCSI3 interface cards.  
Supported by: SCSI123 Monitor  
NA  
None  
37  
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Checking for Special Requirements  
Table 2-12  
Others  
Model/Product  
Number  
Special  
Requirements  
Product  
iSCSI Subsystem  
NA  
HP-UX 11.23, Patch  
PHSS_30457 for IA  
11.23 (11.23)  
HP-UX software solution for iSCSI  
protocol.  
Codename: iHOP  
Supported by: iSCSI Subsystem  
Monitor  
For product support  
information:  
http://itrc.hp.com  
For documentation:  
http://docs.hp.com.  
All devices managed by HP device  
management software. Current  
plans are for many different types  
of devices to be supported,  
including disk drives, disk arrays,  
disk jbods, tape drives, tape  
libraries, FC hubs, switches and  
bridges.  
As of July 13, 2000:  
HP-UX 11xx, Sept. 2000  
or later  
TCP/IP port 2818 must  
be available.  
HP A6188A storage  
array  
HP A6189A storage  
array  
HP A6218A storage  
array  
Supported by: Remote Monitor  
As of January 2003:  
HP A6189B storage  
array  
HP UPSs (Uninterruptible Power  
Systems):  
HP Power Trust  
A2941A (600 VA)  
A2994A (1300 VA)  
A2996B (1.3kVA)  
A2997B (1.8kVA)  
A2998B (3.0kVA)  
A3589B (5.5kVA)  
The HP-UX monitoring  
daemon, ups_mond,  
which is shipped on all  
Series 800 systems (but  
not on S700 systems)  
Supported by: UPS Monitor  
HP Power TrustII  
A1353A (2.0kVA,  
120V)  
A1354A (2.0kVA,  
240V)  
A1356A (3.0kVA,  
240V)  
Explorer UPS  
38  
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Installing and Using Monitors  
Using Hardware Monitoring Requests  
Using Hardware Monitoring Requests  
Monitoring requests are used to implement your strategy for monitoring hardware resources. The Hardware  
Monitoring Request Manager is the tool you use to create and manage hardware event monitoring requests.  
The following procedures describe how to use the Hardware Monitoring Request Manager to perform the  
tasks involved in managing monitoring requests for all hardware event monitors.  
What Is a Monitoring Request?  
A monitoring request is the mechanism by which you manage how hardware event notification takes place.  
EMS uses a monitoring request to determine what events should be reported, and what notification method  
should be used to report them.  
In building a monitoring request, you define the components that comprise the monitoring request. See  
Figure 2-2 on page 40.  
When building a request you must make the following decisions:  
WHAT hardware should be monitored? This is defined by selecting the monitor responsible for the  
hardware resources you want to monitor. You can select multiple monitors for each monitoring request,  
which gives you the ability to use a single request for a variety of hardware.  
WHAT events should be reported? Although the monitor can detect all hardware events, you can limit  
the events that are reported. This is done by specifying the severity level(s) and an arithmetic operator.  
Each severity level is assigned a numeric value to work with the operator (e.g., CRITICAL=5). Together  
these settings determine which events to report. For example, you may be interested in all events greater  
than or equal to Major Warning (>=MAJOR WARNING).  
HOW will notification be sent? You must select the notification method you want to use when an event  
occurs. You may want to use several notification methods, but each method will require its own  
monitoring request.  
Some Monitoring Request Examples  
The following monitoring request applies to all monitors. It sends all events with a severity greater than or  
equal to MAJOR WARNING to an email address of [email protected]:  
Send events generated by all monitors  
with severity >= MAJOR WARNING to EMAIL [email protected]  
The following monitoring request sends information events for all monitors to a text log:  
Send events generated by all monitors  
with severity = INFORMATION to TEXTLOG /var/opt/resmon/log/information.log  
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Using Hardware Monitoring Requests  
Figure 2-2  
Building a Monitoring Request  
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Installing and Using Monitors  
Running the Monitoring Request Manager  
Running the Monitoring Request Manager  
NOTE  
You must be logged on as root to run the Monitoring Request Manager.  
To run the Monitoring Request Manager, type:  
/etc/opt/resmon/lbin/monconfig  
The opening screen indicates if monitoring is currently enabled or disabled. Since the June 1999 release,  
monitoring is enabled by default.  
The opening screen looks like this:  
========================================================  
==========  
==========  
Event Monitoring Service  
Monitoring Request Manager  
===========  
===========  
========================================================  
INDICATES  
EVENT MONITORING IS CURRENTLY ENABLED  
<== MONITORING  
STATUS  
========================================================  
====== Monitoring Request Manager Main Menu ========  
========================================================  
Select:  
(S)how current monitoring requests configured via monconfig  
(C)heck detailed monitoring status  
(L)ist descriptions of available monitor  
(A)dd a monitoring request  
(D)elete a monitoring request  
(M)odify an existing monitoring request  
(E)nable Monitoring  
<== MAIN MENU  
SELECTION  
OPTIONS  
(K)ill (disable) monitoring  
(H)elp  
(Q)uit  
Enter selection: [s]  
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Installing and Using Monitors  
Enabling Hardware Event Monitoring  
Enabling Hardware Event Monitoring  
Hardware event monitoring must be enabled to protect your system from undetected hardware failures. All  
hardware monitoring requests are ignored while monitoring is disabled. Once monitoring has been enabled,  
all hardware event monitors and their associated monitoring requests will become operational.  
NOTE  
NOTE  
As of the June 1999 release, the hardware event monitors are automatically enabled when the  
Support Tools bundle containing STM and the monitors is installed.  
Are There Any Fibre Channel Arbitrated Loop Hubs or Fibre Channel Switches You  
Want to Monitor?  
An EMS Hardware Monitor is included for FC-AL hubs and FC switches. However, unlike the  
other hardware monitors, these monitors require some initial configuration before they will  
function. To ensure that your FC-AL hubs or FC switches are monitored, you should perform  
the initial configuration before enabling monitoring. For information on performing the initial  
return here and continue with the procedure to enable monitoring.  
To enable hardware event monitoring (only necessary for February and April 1999 releases):  
1. Run the Hardware Monitoring Request Manager by typing:  
/etc/opt/resmon/lbin/monconfig  
2. From the main menu selection prompt, enter E  
Hardware event monitoring is now enabled. The default monitoring requests shown in Table 2-13 on page 43  
will be used to monitor your hardware. If these settings are adequate, you are done. If you want to add or  
modify the monitoring you can do so using the Monitoring Request Manager.  
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Installing and Using Monitors  
Enabling Hardware Event Monitoring  
Default Monitoring Requests  
A set of default monitoring requests are created for each hardware event monitor. These default requests  
provide a complete level of monitoring and protection for the hardware resources under the control of the  
monitor. The default monitoring requests listed in Table 2-13 on page 43 are used for all hardware event  
monitors.  
NOTE  
When to Modify the Default Monitoring Requests  
You can use the default monitoring requests provided and achieve a complete level of  
protection. However, the default monitoring requests provide a limited number of notification  
options. By modifying or adding new monitoring requests, you gain greater control over what  
notification methods are used to alert you when events occur. You can add new notification  
methods or remove those that may not be required. Creating custom monitoring requests also  
allows you to manage which severity levels you want reported.  
Table 2-13  
Default Monitoring Requests for Each Monitor  
Severity Levels  
Notification Method  
TEXTLOG File:  
All  
/var/opt/resmon/log/event.log  
Serious, Critical.  
SYSLOG  
As of IPR 9904  
Major Warning  
Serious, Critical.  
CONSOLE.  
Note: As of the June 1999 release, messages  
are no longer sent to the console by default.  
As of IPR 9904  
Major Warning  
Serious, Critical.  
EMAIL address: root  
As of IPR 9904  
Major Warning  
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Installing and Using Monitors  
Listing Monitor Descriptions  
Listing Monitor Descriptions  
One of the first steps in managing monitoring requests is selecting the proper monitor for the hardware  
resource. You must know what hardware resources each monitor is responsible for to ensure that you select  
the proper monitor. Listing the descriptions of the available monitors will show you what hardware resources  
each monitor supports.  
To list the descriptions of available monitors:  
1. Run the Hardware Monitoring Request Manager by entering:  
/etc/opt/resmon/lbin/monconfig  
2. From the main menu selection prompt, enter L  
A complete list of the available monitors and the hardware type each monitor supports is displayed. Identify  
the name of the desired monitor and then proceed with the monitoring request task.  
NOTE  
For a detailed list of the specific products each monitor supports, refer to the Diagnostics  
website at:  
http://docs.hp.com/en/diag/  
Under “EMS Hardware Monitors,” click on “Supported Products” and “Data Sheets.” You can  
also refer to the man page for the particular monitor; for example, “man_disk_em”.  
44  
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Installing and Using Monitors  
Viewing Current Monitoring Requests  
Viewing Current Monitoring Requests  
Before adding or modifying monitoring requests, you should examine the current monitoring requests. These  
include the default monitoring requests created during system startup. By examining the current requests,  
you can determine what additional requests may be needed to implement your monitoring and notification  
strategy.  
The option to Show Monitoring Requests displays all the monitoring requests that have been created using  
the Hardware Monitoring Request Manager, even requests that are inactive. See “Checking Detailed  
To view (or show) the current monitoring requests:  
1. Run the Hardware Monitoring Request Manager by entering:  
/etc/opt/resmon/lbin/monconfig  
2. From the main menu selection prompt, enter S  
A list of all the current monitoring requests configured for the hardware event monitors is displayed. The  
display will be similar to the following screen, which shows the default monitoring requests.  
============================================================  
==========  
Current Monitoring Requests  
===============  
============================================================  
EVENT MONITORING IS CURRENTLY ENABLED  
The current monitor configuration is:  
1) Send events generated by all monitors  
with severity >= INFORMATION to TEXTLOG / var/opt/resmon/log/event.log  
2) Send events generated by all monitors  
with severity >= MAJOR WARNING to SYSLOG  
3) Send events generated by all monitors  
with severity >= MAJOR WARNING to EMAIL root  
Hit <enter> to continue...  
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Installing and Using Monitors  
Adding a Monitoring Request  
Adding a Monitoring Request  
Adding a monitoring request is a convenient way to add another notification method for a monitor. Each new  
notification method requires its own monitoring request.  
Monitoring requests can only be added at the monitor level, which creates an identical request for all  
instances of the hardware resources supported by the monitor. Monitoring requests cannot be added for a  
specific hardware instance. An “A(ll)” option allows you to add a monitoring request for all monitors in one  
operation.  
NOTE  
Using the “All monitors” option when creating a request has the benefit of applying the request  
to a new class of supported hardware resource that you may add to your system. This ensures  
that the new hardware is automatically included in your monitoring strategy.  
To add a monitoring request:  
1. Run the Hardware Monitoring Request Manager by typing:  
/etc/opt/resmon/lbin/monconfig  
2. From the main menu selection prompt, enter A.  
3. At the Monitors selection prompt, enter the number assigned to the monitor for which you are creating a  
request. The numbers for the monitors are listed on the screen. You can enter multiple numbers  
separated by commas, or you can enter “a” to create a request for all monitors.  
4. At the Criteria Threshold prompt, enter the number for the desired severity level. See Table 2-15 on  
page 48.  
5. At the Criteria Operator prompt, enter the number for the desired operator. See Table 2-14 on page 47.  
6. At the Notification Method prompt, enter the number for the desired method. See Table 2-14 on page 47.  
If the notification method you selected requires you to input additional information, do so when promoted.  
7. At the User Comment prompt, enter any comments about this monitoring request that you desire. This  
text will be sent with events which match this monitoring request. This feature is NEW, as of the June  
2000 release.  
8. At the Client Configuration File prompt, enter (C)lear to use the default client configuration file, or enter  
A(dd) to specify the name of a specific client configuration file for this request. This file allows you to  
enable/disable events, set thresholding criteria and severity levels for events on a per-client basis (for  
example, for HP Support Applications). Adding a client configuration file at this prompt does not create or  
edit the file; it merely sets up the monitoring request to use the file. Unless you have a specific client that  
requires a client configuration file, choose (C)lear (the default). This feature is NEW, as of the June 2000  
release. It is only valid for monitors that are Multiple-View (Predictive-Enabled).  
9. Save the request when prompted.  
Repeat the above steps for each new monitoring request.  
NOTE  
Are monitoring requests automatically applied to new hardware resources?  
Because monitoring requests are created at the monitor level and not at the hardware instance  
level, a new hardware resource added to the system inherits the same monitoring requests  
assigned to other hardware of the same type. This ensures that new hardware is automatically  
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Installing and Using Monitors  
Adding a Monitoring Request  
added to the monitoring configuration. When you restart the system or execute the IOSCAN  
utility (thus performing a real/hard IOSCAN), the new hardware will be included in event  
monitoring.  
If you add a new class of supported hardware resource to your system, any monitoring requests  
that apply to All monitors are used for the new hardware, ensuring that your hardware is  
protected immediately from undetected failure.  
For hardware monitoring to recognize new devices, the new devices must be properly added  
and configured, so that they are recognized by the kernel (ioscan -k must see them).  
Table 2-14  
Setting  
Monitoring Requests Configuration Settings  
Description  
Criteria  
Thresholds  
This value identifies the severity level used in conjunction with the  
criteria operator to generate an event message. See Table 2-15 on  
page 48, for an explanation of severity levels.  
Criteria  
Operators  
This value identifies the arithmetic operator used with the criteria  
threshold to control what events are reported. Valid operators are:  
< (less than)  
<= (less than or equal to)  
> (greater than)  
>= (greater than or equal than)  
! (not equal to)  
Operators treat each severity level as a numeric value assigned as  
follows:  
Critical = 5  
Serious = 4  
Major warning = 3  
Minor warning = 2  
Informational = 1  
The criteria operators allow you to direct events of several severity  
levels using the same notification method. For example, to direct both  
Serious and Critical events using the same method, you would use a  
condition of >= Serious.  
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Table 2-14  
Setting  
Monitoring Requests Configuration Settings (Continued)  
Description  
Notification  
Method  
The following notification methods are available.  
EMAIL* - sends notification to the specified email address  
TEXTLOG* - sends notification to specified file  
SNMP - sends notification using SNMP traps  
CONSOLE - sends notification to the system console  
TCP - sends notification to the specified target host and port  
UDP - sends notification to the specified target host and port  
OPC - sends notification to OpenView ITO applications (available  
only on systems with OpenView installed).  
SYSLOG - sends notification to the system log  
Only one notification method can be selected for each monitor  
request, consequently you will need to create multiple requests to  
direct event notification to different targets. * These are the only  
methods that deliver the entire content of the event message. The  
remaining methods alert you to the occurrence of an event, but  
require you to retrieve the complete message content using resdata  
explained later in this chapter.  
Table 2-15  
Event Severity Levels  
Event  
Severity  
Level  
MC/ServiceGuard  
Description  
Response  
Critical  
An event that will or has already  
caused data loss, system down time,  
or other loss of service. System  
operation will be impacted and  
normal use of the hardware should  
not continue until the problem is  
corrected. Immediate action is  
required to correct the problem.  
If MC/ServiceGuard is  
installed and this is a  
critical component, a  
package fail-over WILL  
occur.  
Serious  
An event that may cause data loss,  
system down time, or other loss of  
service if left uncorrected. System  
operation and normal use of the  
hardware may be impacted. The  
problem should be repaired as soon as  
possible.  
If MC/ServiceGuard is  
installed and this is a  
critical component, a  
package fail-over WILL  
occur.  
Major  
Warning  
An event that could escalate to a  
Serious condition if not corrected.  
System operation should not be  
impacted and normal use of the  
hardware can continue. The problem  
should be repaired at a convenient  
time.  
If MC/ServiceGuard is  
installed and this is a  
critical component, a  
package fail-over WILL  
NOT occur.  
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Adding a Monitoring Request  
Table 2-15  
Event Severity Levels (Continued)  
Event  
Severity  
Level  
MC/ServiceGuard  
Description  
Response  
Minor  
Warning  
An event that will not likely escalate  
to a more severe condition if let  
uncorrected. System operation will  
not be interrupted and normal use of  
the hardware can continue. The  
problem can be repaired at a  
convenient time.  
If MC/ServiceGuard is  
installed and this is a  
critical component, a  
package fail-over WILL  
NOT occur.  
Information  
An event that occurs as part of the  
normal operation of the hardware. No installed and this is a  
If MC/ServiceGuard is  
action is required.  
critical component, a  
package fail-over WILL  
NOT occur.  
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Installing and Using Monitors  
Adding a Monitoring Request  
Example of Adding a Monitoring Request  
The following example illustrates the process of adding a monitoring request. In this example a request is  
added that will send all CRITICAL events detected by the AutoRAID disk array monitor to an email address  
===================================================================  
===========  
Monitoring Configuration Main Menu  
=============  
===================================================================  
Select:  
(S)how current monitoring requests configured via monconfig  
(C)heck detailed monitoring status  
(L)ist descriptions of available monitors  
(A)dd a monitoring request  
(D)elete a monitoring request  
(M)odify an existing monitoring request  
(E)nable Monitoring  
(K)ill (disable) monitoring  
(H)elp  
(Q)uit  
Enter selection: [s] a  
<== SELECT ADD OPTION  
===========================================================================  
===================== Add Monitoring Request =====================  
===========================================================================  
Start of edit configuration:  
A monitoring request consists of:  
A list of monitors to which it applies  
A severity range (A relational expression and a severity. For example,  
%< "MAJOR WARNING" means events with a severity "INFORMATION" and  
"MINOR WARNING")  
A notification method  
Please answer the following questions to specify a monitoring request.  
Monitors to which this configuration can apply:  
1) /storage/events/disk_arrays/AutoRAID  
2) /storage/events/disks/default  
3) /adapters/events/FC_adapter  
4) /connectivity/events/multiplexors/FC_SCSI_mux  
5) /storage/events/enclosures/ses_enclosure  
6) /storage/events/tapes/SCSI_tape  
7) /storage/events/disk_arrays/FW_SCSI  
8) /storage/events/disk_arrays/High_Availability  
Enter monitor numbers separated by commas  
{or (A)ll monitors, (Q)uit, (H)elp} [a] 1  
<== SELECT AUTORAID MONITOR  
Criteria Thresholds:  
1) Informational  
2) Minor Warning  
3) Major Warning  
4) Serious 5) Critical  
Enter selection {or (Q)uit,(H)elp} [4] 5  
Criteria Operator:  
<== SELECT ONLY  
CRITICAL EVENTS  
1) %<  
2) %<=  
3) >  
4) >=  
5) =  
6) !  
Enter selection {or (Q)uit,(H)elp} [4] 5  
<== (=CRITICAL)  
Notification Method:  
1) UDP  
5) TEXTLOG  
2) TCP  
6) SYSLOG  
3) OPC  
7) EMAIL  
4) SNMP  
8) CONSOLE  
Enter selection {or (Q)uit,(H)elp} [7]  
<== SELECT EMAIL  
ADDRESS FOR  
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Adding a Monitoring Request  
Enter Email Address: [root] [email protected]  
User Comment:  
(C)lear  
Enter selection {or (Q)uit,(H)elp} [c] a  
Enter comment: [] This is a test message.  
(A)dd  
<== ADD COMMENT  
IF DESIRED  
Client Configuration File:  
(C)lear (A)dd  
Use Clear to use the default file.  
Enter selection {or (Q)uit,(H)elp} [c] c  
<== SPECIFY CLCFG FILE  
IF DESIRED (USUALLY  
CHOOSE DEFAULT)  
New entry:  
Send events generated by all monitors  
/storage/events/disk_arrays/AutoRAID  
with severity = CRITICAL to EMAIL [email protected]  
with comment:  
<== NEW MONITORING  
REQUEST  
This is a test message  
Are you sure you want to keep these changes?  
{(Y)es,(N)o,(H)elp} [n] y  
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Modifying Monitoring Requests  
Modifying Monitoring Requests  
Modifying an existing monitoring request is a convenient way to alter one of the settings used in the request.  
Simply select a monitoring request and then change the desired setting. All other aspects of the request  
remain unchanged.  
To modify a monitoring request:  
1. Run the Hardware Monitoring Request Manager by typing:  
/etc/opt/resmon/lbin/monconfig  
2. From the main menu selection prompt, enter M  
All current monitoring requests are displayed.  
3. From the list of current monitoring requests, enter the number of the request you want to modify.  
4. As you are prompted for each monitoring request setting, change the settings to achieve the desired  
results.  
5. Save the request when prompted.  
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Verifying Hardware Event Monitoring  
Verifying Hardware Event Monitoring  
Once you have created the monitoring requests you need for your system, you may want to verify that they  
are working as you expect. The most effective way of verifying hardware event monitoring is to simulate a  
hardware failure or event. Depending on the hardware, you can do this by removing a disk from an array,  
unplugging a cable, turning off the hardware resource, using known defective media, etc.  
The simulated fault should generate event messages using all the notification methods you have specified. If  
it does not, check the monitoring requests and make sure they are configured properly.  
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Checking Detailed Monitoring Status  
Checking Detailed Monitoring Status  
This option lets you view the detailed information for all active monitoring requests. This information is  
organized by resource instance, and lists all the monitoring requests currently applied to each instance.  
Unlike the option to Show Monitoring Requests which displays all the monitoring requests that have been  
created using the Hardware Monitoring Request Manager, the detailed status displays only the requests that  
are currently active. For example, you can create a monitoring request for a monitor that is inactive, but it  
will not be displayed in the detailed list.  
A monitor that is not active will be identified with a status of NOT MONITORING. Any monitor that does not  
have any resources to monitor will be inactive.  
NOTE  
Where Did the TCP Requests Come From?  
You may notice that most resources have a TCP monitoring request that you did not create.  
This request is created automatically by the Peripheral Status Monitor (PSM) to allow it to  
gather event information from each monitor.  
The following sample is representative of the types of entries displayed for detailed monitoring status.  
For /storage/events/disks/default/10_12_5.2.0:  
Events >= 1 (INFORMATION) Goto TEXTLOG; file=/var/opt/resmon/log/event.log  
Events >= 4 (MAJOR WARNING) Goto SYSLOG  
Events >= 4 (MAJOR WARNING) Goto EMAIL; addr=root  
Events = 5 (CRITICAL) Goto TCP; host=hpbs1266.boi.hp.com port=53327  
For /adapters/events/FC_adapter/8_12.8:  
Events >= 1 (INFORMATION) Goto TEXTLOG; file=/var/opt/resmon/log/event.log  
Events >= 4 (MAJOR WARNING) Goto SYSLOG  
Events >= 4 (MAJOR WARNING) Goto EMAIL; addr=root  
>/connectivity/events/multiplexors/FC_SCSI_mux ... NOT MONITORING.  
(Possibly there is no hardware to monitor.)  
>/system/events/memory ... OK.  
For /system/events/memory/49:  
Events >= 1 (INFORMATION) Goto TEXTLOG; file=/var/opt/resmon/log/event.log  
Events >= 4 (MAJOR WARNING) Goto SYSLOG  
Events >= 4 (MAJOR WARNING) Goto EMAIL; addr=root  
Events >= 4 (MAJOR WARNING) Goto TCP; host=hpbs1266.boi.hp.com port=53327  
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Retrieving and Interpreting Event Messages  
Retrieving and Interpreting Event Messages  
Event messages generated by hardware monitoring can be delivered using a variety of notification methods.  
To simplify receiving event messages you may want to use the email and/or textfile notification methods. Both  
of these methods, which are included in the default monitoring, receive the entire content of the message so  
you can read it immediately.  
Methods such as console, syslog, and SNMP alert you to the occurrence of an event but do not deliver the  
entire message. You are required to retrieve it using the resdatautility. For these methods, the event  
notification will include a message similar to the following:  
Execute the following command to obtain event details: /opt/resmon/bin/resdata  
-R 392036357 -r /storage/events/tapes/SCSI_tape/10_12_5.0.0 -n 392036353 -a  
It is important that you execute the command exactly as indicated, including the two critical number fields  
that are indexes for the resdataentries.  
Sample Event Message  
The following is a portion of a sample event message.  
> Event Monitoring Service Event Notification %<  
Notification Time: Wed Sep 9 10:48:30 1998  
hpbs8684 sent Event Monitor notification information:  
/storage/events/disks/default/10_4_4.0.0 is >= 1.  
Its current value is CRITICAL(5).  
Event data from monitor:  
Event Time : Wed Sep 9 10:48:30 1998  
Hostname : hpbs8684.boi.hp.com  
Event Id : 0x0035f6b15e00000000  
Event # : 100037  
IP Address : 15.62.120.25  
Monitor : disk_em  
Event Class : I/O  
Severity : CRITICAL  
Disk at hardware path 10/4/4.0.0 : Media failure  
Associated OS error log entry id(s):  
000000000000000000  
Description of Error:  
The device was unsuccessful in reading data for the current I/O request  
due to an error on the medium. The data could not be recovered. The  
request was likely processed in a way which could cause damage to or loss  
of data.  
Probable Cause / Recommended Action:  
The medium in the device is flawed. If the medium is removable, replace  
the medium with a fresh one. Alternatively, if the medium is not  
removable, the device has experienced a hardware failure.  
Repair or replace the device, as necessary.  
=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=-+-=  
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Deleting Monitoring Requests  
Deleting Monitoring Requests  
You may want to delete any monitor requests for a hardware resource that has been removed from your  
system. Only requests created exclusively for the missing resource should be deleted.  
CAUTION  
Use careful consideration before deleting monitoring requests or you may make your system  
vulnerable to undetected hardware failures. This is particularly true for the default monitoring  
requests, which provide protection for all the supported hardware resources on your system.  
To delete a monitoring request:  
1. Run the Hardware Monitoring Request Manager by typing:  
/etc/opt/resmon/lbin/monconfig  
2. From the main menu selection prompt, enter D  
All current monitoring requests are displayed.  
3. From the list of current monitoring requests, enter the number assigned to the request you want to delete.  
4. Delete the request when prompted to do so.  
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Disabling Hardware Event Monitoring  
Disabling Hardware Event Monitoring  
You can disable hardware event monitoring if desired. However, all EMS Hardware Monitors will be disabled.  
You cannot disable a specific monitor. While monitoring is disabled, all monitoring requests are disabled. The  
monitoring requests are retained and become operational when monitoring is re-enabled.  
CAUTION  
Use careful consideration before disabling hardware event monitoring. Be aware that ALL  
hardware monitoring will be disabled. While monitoring is disabled, your hardware resources  
are vulnerable to undetected failures.  
Disabling monitoring will impact MC/ServiceGuard if package dependencies have been created  
for the hardware event monitors.  
To disable hardware event monitoring:  
1. Run the Hardware Monitoring Request Manager by typing:  
/etc/opt/resmon/lbin/monconfig  
2. From the main menu selection prompt, enter K.  
3. Confirm disabling when prompted to do so. When you are ready to re-enable hardware event monitoring,  
see “Enabling Hardware Event Monitoring”.  
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Disabling Hardware Event Monitoring  
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Detailed Description  
3 Detailed Description  
This chapter describes EMS Hardware Monitors in detail. The topics discussed in this chapter include:  
Hardware monitoring architecture.  
Hardware monitoring request manager.  
EMS hardware event monitor.  
Polling or asynchronous?  
Startup client.  
Peripheral status monitor.  
Event monitoring service (EMS).  
File locations.  
Startup process (in detail).  
Asynchronous event detection (in detail).  
Event polling (in detail).  
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Detailed Description  
The Detailed Picture of Hardware Monitoring  
The Detailed Picture of Hardware Monitoring  
The following figure shows the major components involved in hardware monitoring and the communication  
paths between them.  
Figure 3-1  
Hardware Monitoring Architecture  
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Components from Three Different Applications  
Hardware event monitoring involves components from three different applications:  
Event Monitoring System (EMS) provides the framework for event notification. EMS was originally  
developed to support system monitoring, but the existing framework is used to manage hardware event  
monitoring as well.  
Hardware event monitoring components include the event monitor, associated configuration files, and the  
hardware monitoring request manager.  
Support Tools Manager provides the low-level error handling components that are also used for recording  
and viewing system errors.  
Hardware Monitoring Request Manager  
Hardware event monitoring requests are created and managed using the Hardware Monitoring Request  
Manager program. This tool allows you to easily create monitoring requests for all the hardware event  
monitors running on your system. The Hardware Monitoring Request Manager uses all the notification  
methods supported by Event Monitoring Service (EMS), giving you the ability to create a consistent  
notification strategy for both system resources and hardware resources. The Hardware Monitoring Request  
Manager is also used to enable or disable hardware monitoring.  
Once created, all hardware event monitoring requests are handled by EMS, which uses the request settings to  
determine how an event should be reported.  
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The Detailed Picture of Hardware Monitoring  
EMS Hardware Event Monitor  
The EMS hardware event monitor is the key component in the event monitoring architecture. An event  
monitor is a daemon process, running in the background continuously. The event monitor watches all  
instances of the hardware resources it supports, waiting for the occurrence of any failures or other unusual  
events. The monitor may use polling, asynchronous event detection, or both.  
When an event occurs, the monitor alerts EMS and passes it the appropriate event message. The event  
monitor also tells the PSM about the event. If the event is serious enough the PSM will change the status of  
the hardware to DOWN.  
Two configuration files control the operation of each hardware event monitor:  
Global monitor configuration file. The settings defined in this file are used for all hardware event  
monitors, unless overridden by a monitor-specific file.  
Monitor-specific configuration file. Each monitor includes its own configuration file with optimized  
settings. The settings defined in the monitor-specific file override corresponding settings defined in the  
global configuration file.  
NOTE  
The settings defined by the monitor-specific configuration file have been carefully selected to  
meet the needs of most users. It is possible to alter these settings, but it is not recommended  
unless you fully understand the implications of doing so. For information on modifying the  
monitor-specific configuration files, see Chapter 5, “Hardware Monitor Configuration Files.”  
NOTE  
As of the June 2000 release, several of the hardware monitors have been converted to be  
“multiple-view” (Predictive-enabled). These monitors use a different file for configuration, the  
Client Configuration File.  
Polling or Asynchronous?  
Hardware event monitors employ two methods of tracking events: polling and asynchronous event detection.  
A monitor may use one or both of the methods to detect events.  
Using polling, a monitor checks the status of its hardware resources at regular intervals, typically 60  
minutes. Any unusual condition reported by the hardware will trigger an event by the monitor. The polling  
interval is selected to provide reasonable detection without impacting system performance. The main  
disadvantage of polling is that an event will not be detected until the next time the resource is polled, which  
makes the system vulnerable to another hardware failure.  
Asynchronous detection allows a monitor to detect an event when it occurs, usually during an I/O to the  
device. An event typically results in a log entry made by the hardware device driver. The monitor detects the  
log entry and initiates the event notification. Asynchronous event monitoring allows immediate notification  
and response to a critical situation.  
Startup Client  
The startup client launches and configures the hardware event monitors each time the system is started, or  
following the execution of the IOSCAN utility (thus performing a real/hard ioscan). The startup client starts  
each monitor and configures its hardware resources using a set of default monitoring requests.  
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The Detailed Picture of Hardware Monitoring  
Each monitor has its own startup configuration file, which contains the default monitoring requests and  
any customized requests created using the Hardware Monitoring Request Manager. During system startup,  
following the execution of the IOSCAN utility (thus performing a real/hard ioscan), or when managing  
requests using the Hardware Monitoring Request Manager, the startup client reads each configuration file  
and creates the monitoring requests defined by the entries in the file. The Hardware Monitoring Request  
Manager updates the contents of the startup configuration file when you add or modify monitoring requests.  
Peripheral Status Monitor (PSM)  
The sole purpose of the peripheral status monitor (PSM) is to convert events detected by a hardware event  
monitor to changes in hardware resource status. This conversion is required for use with MC/ServiceGuard in  
controlling package failover. When an event occurs, the PSM determines if it is serious enough to warrant a  
change in hardware resource status to DOWN. If it is, the PSM alerts EMS, which then informs  
MC/ServiceGuard.  
More information about the PSM is included in Chapter 4, “Using the Peripheral Status Monitor.”  
Event Monitoring Service (EMS)  
The event monitoring service (EMS) provides the framework within which hardware monitoring takes  
place. EMS manages the monitoring requests created for each monitor. When an event occurs, the associated  
monitor alerts EMS and passes it an event message. EMS then uses the monitoring request to determine how  
(or if) the event message should be delivered. EMS manages all hardware event notification.  
EMS also provides the graphical interface for creating and managing PSM monitoring requests. Like event  
monitoring requests, all PSM monitoring requests are managed by EMS.  
Other system monitors are available for EMS at additional cost. For more information on EMS and available  
monitors, see Using EMS HA Monitors (B5735-90001).  
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File Locations  
The following table lists the locations of the files involved in hardware monitoring.  
Table 3-1  
File Locations  
Directories and Files  
Description  
/usr/sbin/stm/uut/bin/tools/monitor/monitor_name  
/var/stm/config/tools/monitor/Global.cfg  
Monitor executable files.  
Default monitor configuration file.  
Monitor-specific configuration files.  
/var/stm/config/tools/monitor/monitor_name.cfg  
/var/stm/config/tools/monitor/default_monitor_name.clcfg Monitor client configuration file.  
Only for hardware monitors  
converted to multiple-view  
(Predictive-enabled). New as of  
June 2000 release.  
/var/stm/config/tools/monitor/monitor_name.sapcfg  
/var/stm/config/tools/monitor/monitor_name.psmcfg  
/etc/opt/resmon/lbin/monconfig  
Monitor startup configuration files.  
PSM configuration files.  
Hardware Monitoring Request  
Manager file  
/etc/opt/resmon/lbin/startcfg_client  
/etc/opt/resmon/lbin/set_fixed  
Startup client file  
PSM set_fixed utility file  
Monitor dictionary files  
/etc/opt/resmon/dictionary/monitor_name.dict  
In the above table, monitor_name is the name of a particular monitor such as armmon.  
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The Detailed Picture of Hardware Monitoring  
Startup Process (in Detail)  
The following steps describe the process used to start the hardware monitoring. The startup process is  
illustrated in Figure 3-2 on page 65.  
The startup process is managed by the startup client (startcfg_client). The startup client is run when the  
system is restarted, following the execution of the IOSCAN utility (performing a real/hard ioscan), when the  
enable monitoring command is executed from the Hardware Monitoring Request Manager, or when  
monconfig changes the monitor requests.  
1. When the system is restarted, following the execution of the IOSCAN utility (performing a real/hard  
ioscan), or when the enable monitoring command is executed, the Hardware Monitoring Request  
Manager (monconfig) calls the start up client (startcfg_client).  
2. The startup client reads the contents of a monitor startup configuration file and registers the monitoring  
requests contained in the file with the EMS registrar. This causes the associated monitor to start running.  
If monitoring is already enabled, the startup client unregisters all current monitoring requests, then  
reads the content of the startup configuration files and registers the requests again.  
3. The monitor examines the IOSCAN (ioscan -k) results table to determine if there are any hardware  
resources on the system that it is responsible for monitoring. If it finds such resources, the monitor  
continues to run. If it does not find any resources, the monitor stops.  
4. If the monitor supports asynchronous event detection, it registers with diaglogd, indicating what types  
of errors the monitor wants to receive. The monitor may specify a product description, product number, or  
driver name.  
5. The startup client then repeats the process for all monitor startup configuration files.  
Figure 3-2  
Monitoring Startup Process  
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The Detailed Picture of Hardware Monitoring  
Disabling Monitoring  
Hardware monitoring can be disabled using the Hardware Monitoring Request Manager. Disabling  
monitoring disables all EMS Hardware Monitors. Individual monitors cannot be disabled using the Hardware  
Monitoring Request Manager.  
When monitoring is disabled all existing monitoring requests are unregistered, and then a kill -2command  
is issued to stop all monitors.  
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Detailed Description  
The Detailed Picture of Hardware Monitoring  
Asynchronous Event Detection (in Detail)  
The following steps describe the process involved in asynchronous event detection. The asynchronous  
detection is illustrated in Figure 3-3 on page 68.  
1. A device driver detects an error during an I/O with the device.  
2. The device driver passes the error information, including SCSI sense data, to the diag2pseudo driver,  
which adds information indicating the instance of the driver logging the error to the message header. The  
error message is then passed to the diaglogddaemon used by STM to monitor recoverable errors.  
3. Diaglogduses the instance information to retrieve hardware path, product type, product name, and  
driver name information from the message header. This information is used to determine which monitor,  
if any, the information should be passed to. The error message is also written to the raw error log  
(/var/stm/logs/os/log#.raw.cur).  
During startup, each asynchronous monitor registered with diaglogd, indicating what types of errors the  
monitor wants to receive. The monitor may specify a product description, product number, or driver name.  
If a monitor is registered to receive the error, the message is passed to it.  
4. The monitor decodes the error to determine if an event should be reported. If an event should be reported,  
the monitor passes the event message to Event Monitoring Service (EMS).  
5. EMS uses the current monitoring requests for the monitor to determine what action to take. Based on the  
requests, the event is reported using the specified notification method(s).  
Event Decoding  
In addition to monitoring hardware, many of the EMS hardware monitors also act as message decoders for  
logtool, which is used to read the contents of the raw error log. If the error uses an EMS hardware monitor  
as the decoder, logtoollaunches a new instance of the monitor to perform the decoding. In this way all  
events that have occurred on the device, including those IGNORED by the monitor, can be viewed.  
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Detailed Description  
The Detailed Picture of Hardware Monitoring  
Figure 3-3  
Asynchronous Event Detection Process  
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Detailed Description  
The Detailed Picture of Hardware Monitoring  
Event Polling (in Detail)  
The following is the process used for gathering event information using polling. The polling process is  
illustrated in Figure 3-4 on page 70.  
1. At the interval defined by the polling value in the monitor configuration file, the monitor communicates  
with all the devices it is currently monitoring. The monitor sends pass-thru commands to all SCSI  
devices, and uses the appropriate protocol for other types of devices. The exact type and sequence of  
communication used during a polling operation is monitor-specific.  
2. Each device responds to the message from the monitor by returning data indicating its status. The  
information returned in response to polling is not entered in the raw error log.  
3. The monitor interprets the information from the device to determine if an event should be reported. If an  
event should be reported, the monitor passes the event message to EMS.  
4. EMS uses the current monitoring requests for the monitor to determine what action to take. Based on the  
requests, the event is reported using the specified notification method(s).  
FC-AL Hub and FC Switch Polling Processes  
Unlike the other EMS hardware monitors, the FC-AL hub monitor and FC switch monitor use SNMP to  
gather information from the hubs or switches they are monitoring. Using the hub or switch IP addresses  
defined in the hub or switch configuration files, the monitor polls the devices at the defined polling interval  
(60 minutes by default) using SNMP.  
The reporting of events is handled in the same way as all other monitors. Event information gathered by the  
hub and switch monitors does not get written to the raw error log, and the hub and switch monitors do not act  
as a decoder for logtool.  
PA Memory Monitor Polling  
The memory monitor polling process uses different components to retrieve event information. The memory  
monitor polling process is illustrated in Figure 3-5 on page 71.  
1. At regular intervals (default 60 minutes) the memlogddaemon polls the memory hardware.  
2. If a single-bit error is detected, memlogduses the values from the memory configuration file to determine  
the severity of the error, and then passes the appropriate event message to the memory monitor.  
The error is also logged in memlog, which can read using logtool. All decoding of memory error messages  
is performed by memlogd.  
3. The memory monitor determines if the event should be reported. If the event should be reported, the  
monitor passes the event message to Event Monitoring Service (EMS).  
4. EMS uses the current monitoring requests for the memory monitor to determine what action to take.  
Based on the requests, the event is reported using the specified notification method(s).  
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Figure 3-4  
Monitoring Polling Process  
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Figure 3-5  
Memory Monitor Polling Process  
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Using the Peripheral Status Monitor  
4 Using the Peripheral Status Monitor  
This chapter describes the Peripheral Status Monitor, which converts hardware events to status information  
for use by MC/ServiceGuard. The topics in this chapter include:  
An overview of the PSM  
How to configure MC/ServiceGuard package dependencies with the PSM  
How to create EMS monitoring requests for the PSM  
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Peripheral Status Monitor Overview  
Peripheral Status Monitor Overview  
The primary function of the Peripheral Status Monitor, or PSM, is to convert hardware events into changes in  
device status. These changes in status can then be used by MC/ServiceGuard to control package failover.  
detect hardware events using the Monitoring Request Manager. In this chapter you will learn how to use the  
PSM to convert these events into changes in device status using the EMS GUI, which is accessed through  
SAM.  
NOTE  
Can I Use the PSM Without MC/ServiceGuard?  
Even if you are not using MC/ServiceGuard, you can still use the PSM to create hardware  
status monitoring requests using EMS. This allows you to get notification for changes in  
hardware resource status, much as you can for other EMS monitors. If you create a PSM  
monitoring request, when a hardware event occurs you may be alerted twice—once for the  
event itself and again if the event caused the status of the resource to change to DOWN.  
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How Does the PSM Work?  
How Does the PSM Work?  
The PSM converts hardware events detected by the EMS Hardware Monitors to “UP” or “DOWN” status,  
which is used by MC/ServiceGuard in controlling package failover. Figure 4-1 on page 76 illustrates how the  
PSM works with the other components of hardware monitoring.  
Because hardware event monitors detect and report the occurrence of events rather that resource status, a  
method is required to alert MC/ServiceGuard when a hardware resource has a status that may impact data  
availability. The PSM provides this functionality, serving as the interface between the hardware event  
monitors and MC/ServiceGuard.  
Some monitors can determine when a problem has been corrected and the hardware is functioning properly.  
These monitors automatically alert the PSM when the hardware is fixed, and the PSM will return the state of  
the hardware to UP. Other monitors do not have the capability of determining when the hardware problem is  
corrected. With these monitors it will be necessary for the user to use the set_fixedutility to manually  
return the operational state to UP.  
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How Does the PSM Work?  
Figure 4-1  
Peripheral Status Monitor  
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How Does the PSM Work?  
PSM Components  
The PSM comprises the following components, which are installed along with the hardware event monitors.  
Each component has its own man page containing detailed information about its operation.  
psmctd- the Peripheral Status Client/Target daemon used to monitor the state of hardware resources.  
psmmon- the utility used to monitor the state of resources recognized by the psmctd daemon.  
set_fixed- the utility used to manually change the status of a hardware resource from DOWN to UP.  
Used only for monitors that do not the have capability to perform this operation automatically.  
PSM States  
The PSM can assume the three status conditions shown in the following table. These are the values you can  
use to define a monitoring request.  
Table 4-1  
PSM Status  
Condition  
Interpretation  
Up  
The hardware is operating normally.  
Down  
An event has occurred that indicates a  
failure with the hardware.  
Unknown  
Cannot determine the state of the  
hardware. This state is treated as DOWN by  
the PSM.  
PSM Resource Paths  
Selecting a hardware resource for PSM monitoring requires the selection of the correct resource path. The  
resource class path is the means by which EMS identifies system resources. Resources are divided into  
classes and subclasses based on their type or function. For example, the resource classes for PSM monitoring  
include adapters, connectivity, and storage.  
The resource path ends with the resource instance, which uniquely identifies a hardware resource. There is  
an instance for each individual hardware resource supported by the monitor. The resource instance is  
typically the hardware path to the device (e.g., 10_12_5.0.0), but it may also be a device name as in the case of  
AutoRAID disk arrays.  
EMS monitoring requests are applied at the resource instance level. This is unlike event monitoring requests  
created using the Hardware Monitoring Request Manager, which are applied at the monitor level. Thus when  
creating an EMS monitoring request you must select the specific resource you want to monitor. An all (*)  
option allows you to apply a PSM monitoring request to all current instances of the hardware. A monitoring  
request will not be applied to new hardware added to the system after the request is created.  
PSM resource class path names are structured as follows:  
/top_level_resource_class/status/subclass/subclass/instance  
For example, the PSM resource class path for a SCSI tape device at hardware path 10_12_5.0.0 would be:  
/storage/status/tapes/SCSI_tape/10_12_5.0.0  
The PSM resource class path for an AutoRAID disk array with an ID of 000000105781 would be:  
/storage/status/disk_arrays/AutoRAID/000000105781  
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How Does the PSM Work?  
The status resource class path for each monitor is included in the monitor descriptions are available on the  
Web at http://docs.hp.com/hpux/onlinedocs/diag/ems/emd_summ.htm.  
An HP-UX man page is available for each monitor. To access the man page, type (where monitornameis the  
executable file listed in the data sheet): man monitorname  
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Configuring MC/ServiceGuard Package Dependencies with the PSM  
Configuring MC/ServiceGuard Package Dependencies with the PSM  
The PSM allows you to create MC/ServiceGuard package dependencies for resources monitored by EMS  
Hardware Monitors.  
To use the PSM with MC/ServiceGuard, you configure one or more of the resource instances available in the  
PSM as MC/ServiceGuard package dependencies. This creates an EMS monitoring request that monitors the  
status of the resource and alerts MC/ServiceGuard if the status of the resource changes.  
Here are some examples of how PSM monitoring requests might be used:  
In a cluster where one copy of data is shared between all nodes in a cluster, you may want to failover a  
package if the host adapter has failed on the node running the package. Because buses, controllers, and  
disks are shared, package failover to another node because of bus, controller, or disk failure would not  
successfully run the package. To make sure you have proper failover in a shared data environment, you  
must create identical package dependencies on all nodes in the cluster. MC/ServiceGuard can then  
compare the resource “UP” values on all nodes and failover to the node that has the correct resources  
available.  
In a cluster where each node has its own copy of data, you may want to failover a package to another node  
for a host adapter, bus, controller, or disk failure. In this sort of cluster of web servers, where each node  
has a copy of the data and users are distributed for load balancing, you can failover a package to another  
node with the correct resources available. Again, the package resource dependencies should be configured  
the same on all nodes.  
NOTE  
You should create the same requests on all nodes in an MC/ServiceGuard cluster.  
There are two methods for configuring PSM package dependencies; using SAM, or by editing the package  
configuration file.  
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Configuring MC/ServiceGuard Package Dependencies with the PSM  
Configuring Package Dependencies using SAM  
The procedure assumes you have taken the necessary steps to create the package to which you will be adding  
resource dependencies. Complete instructions for configuring MC/ServiceGuard clusters and packages are  
provided in Managing MC/ServiceGuard.  
To create a package resource dependency:  
1. From the command line, start the graphical version of SAM by typing: sam  
2. Double-click the Clusters icon.  
3. Double-click the High Availability Clusters icon.  
4. Double-click on the Package Configuration icon.  
The High Availability Clusters screen is displayed showing all requests configured on that system.  
5. From the Actions menu, select either Create/Add a Package or Modify Package Configuration.  
Depending on which option you selected, the Create/Add Package screen is displayed or the Modify  
Package screen is displayed.  
6. If you have not yet done so, specify a Package Name and Node and Specify a Package SUBNET Address.  
Then click on “Specify Package Resource Dependencies…” to add PSM resources as package  
dependencies. The Package Resource Dependencies screen is displayed.  
7. To make a package dependent on an EMS HA Monitors resource, click Add Resource. The Add Resources  
screen is displayed listing all the installed resources discovered by MC/ServiceGuard. The resource  
classes used for PSM monitoring are adapters, connectivity, storage, and system.  
8. Double-click on the appropriate PSM resource class, then on the status class, then on the remaining  
resource subclasses until the PSM monitor instances are displayed in the Resource Names list. Select  
the desired PSM resource and click OK. A Resource Parameters screen is displayed  
9. Enter an appropriate Resource Polling Interval value. This value determines how often EMS checks  
the PSM for changes in status. The value you select for polling should be related to how critical the  
resource is to system operation. You may want to use a short polling interval for critical resources, and a  
longer interval for non-critical resources. Be aware that polling can impact system performance, so avoid  
using a short polling interval for all resources.  
10. Select UP from the list of Available Resource Values, then click < — Add — .  
11. Click OK to add the package dependency.  
Package failover will now occur if the status of the resource changes from UP.  
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Configuring MC/ServiceGuard Package Dependencies with the PSM  
Configuring Package Dependencies by Editing the Configuration File  
You can also add PSM package dependencies by editing the package configuration file in  
/etc/cmcluster/pkg.ascii. See the Managing MC/ServiceGuard for details on modifying this file.  
When using the MC/ServiceGuard commands (e.g., cmapplyconf) to specify the use of the PSM Resource  
Monitor, the section of the package configuration file that has the keyword “RESOURCE_NAME” must be  
uncommented and set to the value of the resource name of interest. The PSM has a different resource path  
name for hardware resource being monitored.  
For example, assume you want to create a dependency on a SCSI disk that has a resource path of  
/storage/status/disks/default/10_0_5.0.0. You want to use a polling interval of 10 seconds and identify  
UP as the only state that will not cause failover. The following entry would be added to the configuration file  
to add a package dependency for this disk:  
RESOURCE_NAME /storage/status/disks/default/10_0_5.0.0  
RESOURCE_POLLING_INTERVAL  
10  
RESOURCE_UP_VALUE  
=UP  
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Creating EMS Monitoring Requests for PSM  
Creating EMS Monitoring Requests for PSM  
In addition to creating MC/ServiceGuard package dependencies, you can also use the PSM to create EMS  
monitoring requests. Because it is a state monitor rather than an event monitor, the process and options  
available for creating PSM requests with EMS are identical to those for the other system monitors available  
for EMS.  
To create a PSM monitoring request:  
1. From the command line, start the graphical version of SAM by typing: sam  
2. Double-click the Resource Management icon.  
3. Double-click on the Event Monitoring Service icon.  
The Event Monitoring Service main screen is displayed showing all monitoring requests configured on the  
system. Included are any PSM monitoring requests you may have created, and any requests created for  
other EMS monitors that may be running on your system. If you have not created any requests, the field  
area of the screen will be empty.  
4. From the Actions menu select Add Monitoring Request.  
The top level resource classes are displayed. The resource classes used for PSM monitoring are adapters,  
connectivity, storage, and system.  
5. Double-click on the appropriate resource class, then on the status class, then on the remaining resource  
subclasses until the PSM monitor instances are displayed in the Resource Instance list.  
6. Select the desired PSM resource instance and click OK. If there are multiple instances, you can select the  
* (All Instances) option to apply the monitoring request to all instances of the selected resource. All  
Instances is a convenient way to create many requests at one time.  
The Monitoring Request Parameters screen is displayed for the selected PSM resource.  
7. Using the various parameter fields available, define the monitoring request. A description of the various  
parameters and how they are used is included in the following section.  
Although there are many possible ways to define the monitoring request, the following settings are  
recommended for PSM requests:  
Notify conditions set to “Notify When value is…Not Equal Up (0)”  
Options set to Initial and Return  
Polling Interval set to an appropriate value  
Notify via set to the desired notification method  
8. Click OK to save the monitoring request. The request will be added to those in the Current Monitoring  
Requests screen.  
Repeat the above steps for each new PSM monitoring request. It will be necessary to create a new monitoring  
request for each notification method.  
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Monitoring Request Parameters  
Monitoring Request Parameters  
The following information describes in detail the monitoring request parameters and offers tips on how to use  
them.  
Specifying When to Send Event - <Notify>  
One of the first steps in creating a monitoring request involves specifying the conditions under which you  
want to be alerted. The following options are available for selecting when to send an alert.  
Table 4-2  
PSM Status  
When value  
is…  
You define the conditions under which you wish to be notified for a  
particular resource using an operator (=, not equal, >, >=, <, <=)  
and a value returned by the monitor (UP, DOWN, UNKNOWN).  
Text values are mapped to numerical values.  
When value  
changes  
This notification might be used for a resource that does not change  
frequently, but you need to know each time it does.  
At each  
interval  
This sends notification at each polling interval. It would most  
commonly be used for reminders or gathering data for system  
analysis. Use this for only a small number of resources at a time,  
and with long polling intervals of several minutes or hours; there is  
a risk of affecting system performance.  
Determining the Frequency of Events - <Options>  
If you select the When value is… from the <Notify> options, the Options box is displayed. Select one or more  
of these options:  
Table 4-3  
Initial  
PSM Status  
Use this option for testing a new request to ensure it is sending alerts  
to the desired destinations.  
Repeat  
Use this option for urgent alerts. The Repeat option sends an alert at  
each polling interval as long as the notify condition is met. Use this  
option with caution; there is a risk of high CPU use or filling log files  
and alert windows.  
Return  
Use this option to track when a condition returns to its previous  
value.  
These Options are not available if you have selected When value changes or At each interval from the  
<Notify> list. In these cases the options default to:  
Repeat and Return - Not selected  
Initial - Selected  
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Monitoring Request Parameters  
Setting the Polling Interval - <Polling Interval>  
The polling interval specifies how often EMS will check the PSM for changes in hardware status. The polling  
interval is the maximum amount of elapsed time before EMS will be aware of a change in status for the  
hardware resource being monitored. A short polling interval will ensure that you have recent data. However,  
a short polling interval may use more CPU and system resources. You must weigh the importance of being  
able to respond quickly against the importance of maintaining good system performance.  
Some considerations include:  
MC/ServiceGuard monitors resources every few seconds. You may want to use a short polling interval (30  
seconds or less) when it is critical that you make a quick failover decision.  
You may want a polling interval of 5 minutes or so for monitoring less critical resources.  
You may want to set a very long polling interval (4 hours) to monitor failed disks that are not essential to  
the system, but which should be replaced in the next few days.  
Selecting Protocols for Sending Events - <Notify Via>  
Using the <Notify via> option, you can specify the method EMS uses to send events. The options are:  
opcmsg ITO  
This option sends messages to ITO applications via the opcmsg daemon. IT Operation 4.0 or above must be  
installed on the resource server for this option to display.  
The ITO message severity options are:  
Critical  
Major  
Minor  
Warning  
Normal  
A specified severity other than Normal is returned under the following conditions:  
The When value is . . . condition evaluates to TRUE  
The When value changes condition evaluates to TRUE  
See the HP OpenView IT/Operations Administrators Task Guide (Part Number B4249-90003) for more  
information on configuring notification severity.  
Templates for configuring IT/Operations and Network Node events can be found on the Hewlett-Packard  
High Availability public web page at http://www.hp.com/go/ha.  
To set the opcmsg ITO:  
1. Specify the notification type from the <Notify> list.  
2. Select the opcmsg ITO option from the <Notify via> list.  
3. Select the severity from the <Severity> list, (Critical, Major, Minor, Warning, Normal).  
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Monitoring Request Parameters  
SNMP traps  
This option sends messages to applications using SNMP traps, such as Network Node Manager. See HP  
OpenView Using Network Node Manager (P/N J1169-90002) for more information on configuring SNMP  
traps.  
The following traps are used by EMS:  
EMS_ENTERPRISE_OID  
EMS_NORMAL_OID  
"1.3.6.1.4.1.11.2.3.1.7"  
"1.3.6.1.4.1.11.2.3.1.7.0.1" - Normal notification  
EMS_ABNORMAL_OID  
EMS_REBOOT_OID  
"1.3.6.1.4.1.11.2.3.1.7.0.2" - Abnormal notification  
"1.3.6.1.4.1.11.2.3.1.7.0.3" - Reboot notification  
EMS_RESTART_OID  
"1.3.6.1.4.1.11.2.3.1.7.0.4" - Restart notification  
EMS_NORMAL_SEV_OID  
EMS_WARNING_SEV_OID  
EMS_MINOR_SEV_OID  
EMS_MAJOR_SEV_OID  
EMS_CRITICAL_SEV_OID  
"1.3.6.1.4.1.11.2.3.1.7.0.5" - Problem Event w/Normal Severity notification  
"1.3.6.1.4.1.11.2.3.1.7.0.6" - Problem Event w/Warning Severity notification  
"1.3.6.1.4.1.11.2.3.1.7.0.7" - Problem Event w/Minor Severity notification  
"1.3.6.1.4.1.11.2.3.1.7.0.8" - Problem Event w/Major Severity notification  
"1.3.6.1.4.1.11.2.3.1.7.0.9" - Problem Event w/Critical Severity notification  
Specify the ITO message severity for both normal and abnormal events:  
Critical  
Major  
Minor  
Warning  
Normal  
A specified severity other than Normal is returned under the following conditions:  
Certain SNMP trap monitoring requests can map directly to severity levels. For these requests, a toggle  
button <Map severity from value> is displayed. If this is selected, options selected from <Severity> are  
ignored.  
The When value is… condition evaluates to TRUE  
The When value changes condition evaluates to TRUE  
To set the SNMP trap:  
1. Specify the notification type from the <Notify> list.  
2. Select the opcmsg ITO option from the <Notify via> list.  
3. Select the severity from the <Severity> list, (Critical, Major, Minor, Warning, Normal).  
TCP and UDP  
This option sends TCP or UDP encoded events to the target host name and port indicated for that request.  
Thus the message can be directed to a user-written socket program.  
To set the TCP or UDP conditions:  
1. Select the TCP or UDP option, as appropriate, from the <Notify via> list.  
2. Specify the target host name and the port.  
email  
This option sends event notification to the specified email address  
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Monitoring Request Parameters  
To set for email notification:  
1. Select the Email option from the <Notify via> list.  
2. Specify the full email address in the Email Address field.  
syslog  
This option sends event notification to the system log.  
For an abnormal event, a system logging level of errorwill be associated with the logged message.  
An abnormal event message (error) is returned under the following conditions:  
The When value is . . . condition evaluates to TRUE  
The When value changes condition evaluates to TRUE  
To set for a system log notification:  
1. Select the Syslog option from the <Notify via> list.  
Console  
This option sends event notification to the system console.  
To set for a console notification:  
1. Select the Console option from the <Notify via> list.  
Textlog  
This option sends event notification to the specified file.  
To set for an text log notification:  
1. Select the Textlog option from the <Notify via> list.  
2. Specify the filename and path in the File Path field.  
A default path, /var/opt/resmon/log/event.log, is displayed when the Textlog option is selected.  
Note that EMS HA Monitors will not create the file, it will add notifications to an existing file.  
Adding a Notification Comment - <Comment>  
The notification comment is useful for sending task reminders to the recipients of an event. For example, you  
may want to add the name of the person to contact if an event occurs. If you have configured  
MC/ServiceGuard package dependencies, you may want to enter the package name as a comment in the  
corresponding request.  
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Copying Monitoring Requests  
Copying Monitoring Requests  
There are two ways to use the copy function:  
To create requests for multiple resources using the same monitoring parameters. This is a quick way to  
set requests for multiple resources.  
To create requests for the same resource using different monitoring parameters. This is a quick way to  
create requests that send events using multiple notification methods.  
To create requests for multiple resources using the same monitoring parameters:  
1. From the Event Monitoring Service main screen, select the monitoring request whose parameters you  
wish to copy. You need to have configured at least one similar request for a similar instance.  
2. From the Actions menu select Copy Monitoring Request.  
The Add Monitoring Request screen is displayed.  
3. From the Add Monitoring Request screen, select a different resource instance and click OK.  
The Monitoring Request Parameters screen is displayed.  
4. Click OK in the Monitoring Request Parameters screen.  
A message is displayed indicating the new request has been added, and the Event Monitoring Service  
main screen is displayed.  
To create requests for the same resource using different monitoring parameters:  
1. From the Event Monitor Service main screen, select the monitoring request with the instance for which  
you wish to have multiple monitoring requests.  
You need to have configured at least one request for the instance.  
2. From the Actions menu select Copy Monitoring Request.  
The Add Monitoring Request screen is displayed.  
3. Click OK in the Add Monitoring Request screen.  
The Monitoring Request Parameters screen is displayed.  
4. In the Monitoring Request Parameters screen, modify the parameters as desired.  
5. Click OK.  
A message is displayed indicating the new request has been added, and the Event Monitoring Service  
main screen is displayed.  
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Modifying Monitoring Requests  
Modifying Monitoring Requests  
To change the monitoring parameters of a request:  
1. From the Event Monitoring Service main screen, select the monitoring request whose parameters you  
wish to modify.  
2. From the Actions menu select Modify Monitoring Request.  
The Monitoring Request Parameters screen is displayed.  
3. In the Monitoring Request Parameters screen, modify the parameters as desired.  
4. Click OK.  
A message is displayed indicating the request has been modified, and the Event Monitoring Service main  
screen is displayed.  
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Using the Peripheral Status Monitor  
Removing Monitoring Requests  
Removing Monitoring Requests  
The Remove Monitoring Requests functions with multiple requests as well as single requests.  
To remove monitoring requests:  
1. From the Event Monitoring Service main screen, select the monitoring request you wish to remove.  
To select contiguous multiple requests, hold the Shift key and click.  
To select individual multiple requests, hold the Ctrl key and click.  
2. From the Actions menu select Remove Monitoring Request.  
A Confirmation screen is displayed.  
3. Click OK.  
A message is displayed indicating the request(s) has been removed, and the Event Monitoring Service  
main screen is displayed.  
4. To start monitoring the resource again you must recreate the request, either by copying a similar request  
for a similar resource or by re-entering the information.  
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Using the Peripheral Status Monitor  
Viewing Monitoring Requests  
Viewing Monitoring Requests  
To view the parameters for a monitoring request:  
1. From the Event Monitoring Service main screen, select the monitoring request you wish to view and  
either:  
Double-click, or  
From the Actions menu select View Monitoring Request  
The View Monitoring Request Parameters screen is displayed. The parameters listed here match the  
parameters specified for the monitoring request.  
2. To exit the View Monitoring Request screen, click OK.  
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Using the Peripheral Status Monitor  
Using the set_fixed Utility to Restore Hardware UP State  
Using the set_fixed Utility to Restore Hardware UP State  
Most hardware event monitors cannot detect when a hardware failure has been repaired and the resource has  
been returned to normal operation. Consequently, these monitors cannot alert the PSM to change the status  
of its hardware resources from DOWN to UP. It is necessary for you to manually change the status of the  
hardware resources using the set_fixedutility included with the PSM. To determine if a monitor requires  
use of the set_fixedutility, refer to the monitor descriptions in Chapter 6, “Monitor Data Sheets.”  
The set_fixedutility includes its own man page describing how to change the state of the resource.  
NOTE  
Make sure you have repaired the problem before you use the set_fixedutility to return the  
hardware resource status to UP. If the hardware is not repaired, the change in status to UP  
may cause MC/ServiceGuard to erroneously assume the hardware is working properly.  
To restore the operating state of a resource to UP:  
1. If necessary, list the hardware resources that currently have a status of DOWN by typing:  
/etc/opt/resmon/lbin/set_fixed -L  
2. Set the status of the DOWN hardware resource to UP by typing:  
set_fixed -n resource_name  
The resource_name is the status resource path name to the hardware resource that has been repaired. When  
specifying the resource_name you can use wildcards such as “*” to indicate all instances.  
Example 4-1  
Example of Using set_fixed  
The following example sets to UP the status of the SCSI tape device at hardware path 10_12_5.0.0  
set_fixed -n /storage/status/tapes/SCSI_tape/10_12_5.0.0  
The following example sets to UP the status of all AutoRAID disk arrays.  
set_fixed -n /storage/status/disk_arrays/AutoRAID/*  
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Using the Peripheral Status Monitor  
Using the set_fixed Utility to Restore Hardware UP State  
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Hardware Monitor Configuration Files  
5 Hardware Monitor Configuration Files  
Several configuration files are used to control the operation of each hardware event monitor. The operation of  
the monitor can be altered by editing the contents of the various configuration files. Before altering the  
contents of a configuration file, you should have a thorough understanding of what effects the changes will  
have on monitor operation. The following paragraphs should provide the understanding you need for using  
configuration files properly.  
CAUTION  
Before editing any configuration file, create a backup copy of it. This will allow you to recreate  
the original environment if the changes you make do not produce the desired results.  
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Overview  
Overview  
Understanding Multiple-View and Non-Multiple-View Monitor Classes  
EMS Hardware Monitors are divided into two classes: Multiple-View and Non-Multiple-View. Multiple-View  
monitors allow you to specify different event messages (for the same monitor) to one or more targets  
(“clients”). Targets may have different requirements for events, so event messages can be configured to be  
unique for each target. Non-Multiple-View monitor event messages are generated in the same way for all  
targets.  
Within these two monitor classes, there are configuration files that control the operation of each hardware  
event monitor. Both classes of monitors use the Global and Monitor-specific configuration files (.cfg) to  
configure required monitor settings such as POLL_INTERVAL. In addition, Multiple-View monitors also use  
the Client Configuration file (.clcfg). The client configuration file allows you to configure different event  
messages for multiple targets.  
Monitor Configuration File Types  
The following configuration files control the operation of each hardware event monitor:  
Global monitor configuration file. The settings defined in this file are used for all monitors, unless  
overridden by a monitor-specific or client configuration file.  
Monitor-specific configuration file. Each monitor includes its own configuration file with optimized  
settings. Settings defined in the monitor-specific file override comparable settings defined in the global  
configuration file.  
Client configuration file. With Multiple-View hardware monitors, you can create a different Client  
Configuration File (*.clcfg) for each target. Settings defined in the client configuration file override  
comparable settings defined in either the global or monitor-specific configuration files.  
NOTE  
For Multiple-View monitors, settings not defined in the Client Configuration File (*.clcfg) such  
as the POLL_INTERVAL, must be defined in either the Global or Monitor-specific  
configuration file (*.cfg).  
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Hardware Monitor Configuration Files  
Client Configuration File  
Client Configuration File  
As of the June 2000 release, several of the hardware monitors have been converted to be multiple-view. These  
monitors use an additional file for configuration, the Client Configuration File (for example,  
default_disk_em.clcfg.)  
The immediate purpose of this change is to enable HP Support Applications to work with hardware monitors.  
There will also be long-term benefits, as well.  
Clients: Targets for Events  
When a hardware monitor detects an event, it can send an event message to one or more targets (“clients”).  
Previously, EMS hardware monitors generated events in the same way for all targets. The problem is that  
different targets, such as HP Support, may have different requirements for events.  
The June 2000 release introduced the Multiple-View feature to several monitors; this feature will be added to  
most hardware monitors in future releases.  
Creating a Client Configuration File (*.clcfg)  
With Multiple-View hardware monitors, you can create a different Client Configuration File (*.clcfg) for each  
target. In this file, you can specify:  
The text to be included in event messages.  
“Qualification requirements”: the time or value thresholds a problem must meet in order to generate an  
event. For example, the default time threshold might be to send an event if the problem is seen six times  
in 24 hours; however, HP Support may want to see the event three times in 24 hours. Another example:  
the default value threshold might be to send the event when the value associated with the problem is  
greater than or equal to 80, but HP Support may want to see the event when the value is greater than or  
equal to 70.  
Events to be enabled/disabled for a given target. For example, event 1 may be enabled for target #1, but  
disabled for target #2.  
Severity level for an event sent to a given target. For example, event 3 may have a severity level of  
CRITICAL for target #1, but a severity level of MAJOR_WARNING for target #2.  
The default Client Configuration File (*.clcfg) is:  
/var/stm/config/tools/monitor/default_MONITOR_NAME.clcfg  
For example:  
/var/stm/config/tools/monitor/default_disk_em.clcfg  
The Client Configuration File for the HP Support Applications client would be:  
/var/stm/config/tools/monitor/xxx_disk_em.clcfg  
Verifying Monitors with a Test Event  
As of the June 2000 release of the diagnostics, a standalone program is available to cause multiple-view EMS  
hardware monitors to generate a test event:  
/opt/resmon/bin/send_test_event  
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Hardware Monitor Configuration Files  
Client Configuration File  
OR  
/etc/opt/resmon/lbin/send_test_event  
The program was created for HP Support Applications to ensure that the communication mechanism from the  
monitor to HP Support is working. However, it can be used by customers to ensure the same thing: that the  
communication mechanisms from the monitor to their notification method (email, event log, SNMP trap, etc.)  
are working.  
The program will not work with monitors that have not been updated to be multiple-view. In the long-term,  
all monitors are planned to be updated to be multiple-view.  
Before the send_test_event program can be run, the monitors must be enabled and configured. (That is, when  
you run monconfig, it should say that monitoring is enabled and when you do a “Check”, the requests show  
up.)  
The test event is #103 with a default severity of "INFORMATION". To test delivery to notification targets  
that by default only receive higher severity events (e.g. syslog or email to root, which receive  
"MAJOR_WARNING" or higher events only), you must edit the .clcfg file for the monitor to change the  
severity of event #103.  
For more information on the command, see the manpage for send_test_event.  
Sample Client Configuration File  
The following is a sample of a client configuration (.clcfg) file.  
# There are 4 types of entries in this file.  
HOST_ID, DEV_ID, EQ,  
# CLCFG_VERSION. Each entry starts with the appropriate tag,  
# followed by one or more colon separated fields. The number of fields and  
# valid values for each field depends  
# on the tag.  
#
# Each entry in this file must be one line. Meaning, no returns can be  
# put in the middle of a line. This may mean that the EQ entries will wrap.  
# Text fields in the entries are case sensitive.  
#
# Host ids that should be added to the event. This information will  
# be added in the order the tags are listed  
# Possible host ids are:  
# host_model_num  
# host_os_version  
# host_fw_version  
# host_serial_num  
# host_sw_id  
# host_ems_version  
# host_stm_version  
# Example:  
# HOST_ID: host_ems_version : host_stm_version  
HOST_ID:host_model_num:host_ems_version:host_stm_version  
# Device ids that should be added to the event. This information will be  
# added in the order the tags are listed  
# NOTE: these are specific to this monitor  
# Example:  
# DEV_ID: dev_product : dev_qualifier  
DEV_ID:dev_pdev:dev_inq_vendor:dev_inq_prod:dev_fw_version:dev_serial_num  
#DEV_ID:dev_pdev:dev_comp_tag2  
# Event qualification entries for events generated by this monitor.  
# NOTE: the event numbers are specific to this monitor.  
# Example:  
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Client Configuration File  
# EQ : event_number : severity : enable flag : suppression time : time window :  
# threshold : value threshold 1 : operator 1 : operator 2 : value threshold 2  
# event_number : the number of the event  
# string of "OTHER" means use this entry when no other EQ entry matches  
# event number  
#
# severity : the severity of the event. Valid values are:  
#CRITICAL  
#SERIOUS  
#MAJOR_WARNING  
#MINOR_WARNING  
#INFORMATION  
#
# enable flag : whether the event is enabled. Valid values are:  
#TRUE - event is enabled  
#FALSE - event is not enabled  
#
# suppression time : time, in seconds, to suppress generation and trending  
# for this event after generating the event.  
# Valid values are:  
#NOT_USED - Never suppress the event  
#1 - maxint - number of seconds to suppress  
#
# time window: amount of time, in seconds, event must be seen to  
# qualify event. Valid values are:  
#NOT_USED - time window thresholding not used  
#ANY - time window thresholding used but no time window specified  
#1-maxint - time need to see threshold events to qualify  
#
# threshold : number of times in time window event must be seen to qualify  
# event. Valid values are:  
#1-maxint  
# NOTE: to configure event to always be generated every time it is seen,  
# threshold should be set to 1 and time window should be set to "ANY"  
# value threshold X, operator X : value thresholds to qualify event.  
# Valid values for value threshold depend on the type of value associated  
# with the event. However, predefined value of "NONE" means this value  
# threshold is not used. Valid values for operator X are:  
#NO_OP - this operator not used  
# >, < , >=, <=,==, !=.  
# These values are used to qualify the event using the following logic:  
# value threshold 1 operator 1 value operator 2 value threshold 2  
# For example, if the value is an integer and want to qualify event if  
# value is between 60 and 70, inclusive, the entry would be:  
# 60 : <= : <= 70. If the value is an integer and want to qualify event  
# if value is > 70, the entry would be : NONE : NO_OP : > : 70.  
#
#
# Define event #100 to be information severity, enabled, never suppressed  
# and qualified every time it occurs  
EQ:100:INFORMATION:TRUE:NOT_USED: ANY:1:NONE:NO_OP:NO_OP:NONE  
# Define event #101 to be critical severity, enabled, never suppressed  
# and qualified every time it occurs  
EQ:101:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
EQ:100072:CRITICAL:TRUE:NOT_USED: ANY :1:NONE:NO_OP:NO_OP:NONE  
#
# CLCFG_VERSION is used to define the version of this file  
# This information will be added to the additional event data portion  
# of the event text  
# CLCFG_VERSION:V.UU.FF  
CLCFG_VERSION:A.01.01  
EQ:103:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
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Client Configuration File  
# msa1000 events  
EQ:110:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:111:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:120:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:121:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:130:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:131:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:140:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:141:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:150:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:151:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:220:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:221:MAJOR_WARNING:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:222:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:230:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:231:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:232:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:233:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:300:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:301:MAJOR_WARNING:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:302:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:310:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:312:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:320:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:322:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:330:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:331:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:400:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:500:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:501:MAJOR_WARNING:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:502:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:503:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
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Client Configuration File  
EQ:510:CRITICAL:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:520:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:600:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:900:MAJOR_WARNING:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:901:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:902:MAJOR_WARNING:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:903:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:904:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:905:MAJOR_WARNING:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
EQ:906:INFORMATION:TRUE:NOT_USED:ANY:1:NONE:NO_OP:NO_OP:NONE  
#
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Monitor-Specific and Global Configuration Files  
Monitor-Specific and Global Configuration Files  
The common operating parameters defined by the monitor-specific and global configuration files for all  
non-multiple-view monitors include:  
Polling Interval - identifies the frequency at which the monitor polls the hardware for status. This value  
is selected to provide current device status without seriously impacting system performance.  
Repeat Frequency - indicates how often the same event should be reported. Events that continue to exist  
should not overburden the system with a continuous stream of messages. A value of once a day is used as  
the default repeat frequency.  
Severity Action - determines whether the severity level will be passed to EMS for reporting or ignored.  
Event Definition - identifies each event handled by the monitor, defines its severity level, and determines  
what action the monitor will take when the event occurs. Actions include ignoring the event, passing it on  
to EMS, or using the default action defined by the Severity Action setting.  
NOTE  
When Do Changes Made to a Configuration File Take Effect?  
Changes made to a monitor-specific configuration file are invoked at the next polling interval or  
when an event occurs, which ever comes first. In either of these situations, the monitor reads  
its configuration file for any changes and implements any new settings.  
File Names  
Global configuration file: /var/stm/config/tools/monitor/Global.cfg  
The file naming convention for the monitor-specific configuration files is:  
/var/stm/config/tools/monitor/monitor_name.cfg  
monitornameis the name of the monitor executable  
File Format  
Settings in the device configuration file use the following conventions:  
Configuration settings consist of a term defining the characteristic to be configured, followed by a value  
assigned to the term.  
For example, POLL_INTERVAL 60  
There must be at least one space between the term and each value.  
Comments begin with the pound character (#) and continue until the end of the line. A comment may  
occur on a line by itself, or after a blank space following the value in a configuration entry.  
For example, either of the following are valid comments:  
# Valid values for severity_name are:  
SEVERITY_ACTION CRITICAL NOTIFY # notify on critical events  
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Table 5-1 lists the common fields used to define monitor configuration settings. In addition to the common  
parameters, some monitors include other parameters in their configuration file. Any additional configuration  
parameters used by each monitor are listed in the monitor descriptions in the data sheets for the hardware  
event monitors available on the Web at http://docs.hp.com/hpux/onlinedocs/diag/ems/emd_summ.htm.  
NOTE  
An HP-UX man page is available for each monitor. To access the man page, type (where  
monitornameis the executable file listed in the data sheet): man monitorname  
Table 5-1  
Monitor Configuration File Entries  
Setting  
Values  
Description  
SEVERITY_ACTION  
<severity> <action>  
Valid severity values  
are:  
Defines whether the  
monitor should report or  
ignore events for the  
indicated severity level.  
CRITICAL  
SERIOUS  
MAJOR_WARNING  
MINOR_WARNING  
INFORMATIONAL  
Valid action values are:  
NOTIFY  
IGNORE  
DEFINE_EVENT  
<event_num><severity>  
<action>  
event_num must be a  
positive integer less than severity to be applied to  
65536 for  
monitor-defined events,  
Identifies an event, the  
the event, and the action  
the monitor should take  
or larger than 100000 for when the event occurs.  
SCSI default events  
An action of DEFAULT  
Valid severity values  
are:  
indicates that the value  
specified in the  
SEVERITY_ACTION  
definition for the  
specified severity should  
be used.  
CRITICAL  
SERIOUS  
MAJOR_WARNING  
MINOR_WARNING  
INFORMATIONAL  
Valid action values are:  
NOTIFY  
IGNORE  
DEFAULT  
POLL_INTERVAL <interval> interval must be a  
Defines how often the  
monitor should poll the  
device to determine if an  
event has occurred.  
positive integer  
indicating number of  
minutes to wait between  
polls  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
Table 5-1  
Monitor Configuration File Entries (Continued)  
Setting  
Values  
Description  
REPEAT_FREQUENCY  
<frequency>  
frequency must be a  
positive integer  
indicating the number of generated for the same  
Defines how often  
repeat alerts should be  
minutes to wait before a  
repeat event can be  
generated  
event. Events for a  
specific device should  
not be reported more  
often than the specified  
frequency.  
Considerations for Modifying the Monitor Configuration File Settings  
The default configuration settings for each monitor have been carefully selected to provide efficient  
monitoring for most systems. However, it may be necessary to modify these settings in specific situations.  
Here are some considerations for altering the configuration settings.  
NOTE  
Settings in the Global.cfgconfiguration file apply to all monitors, so you should avoid  
changing these settings. If you need to change the parameters for a monitor, do so using the  
monitor-specific configuration file.  
Monitor Configuration File Settings  
Event Definition  
You may want to alter the event definition in a monitor-specific configuration file to change the severity level  
assigned to an event, or to suppress reporting of an event.  
NOTE  
Be aware that any changes you make to the event definition will impact all instances of the  
monitor's hardware resources. You cannot modify the behavior of a specific hardware resource.  
For example, if a disk array is repeatedly reporting the same event and you would like to  
suppress it, you can do so by changing the event definition. But the change will suppress that  
event even if it occurs on a different disk array. This may not be the result you want.  
Changing the severity level assigned to an event. If you feel that the severity level assigned to an  
event does not reflect its importance in your environment, you can make the event more or less  
important. For example, if an event is currently assigned a severity level of MAJOR WARNING but from  
experience you feel it represents a CRITICAL condition, you can change the DEFINE_EVENT setting for  
the event.  
Ignoring an event. By default, all events are reported. If you are getting repeated notification for an  
event, you can ignore the event. When the condition that caused the event is corrected, you can once again  
set the event for notification.  
Severity Action  
By default, all severity levels are reported to EMS. This default was selected because even lower level events  
such as INFORMATION may provide valuable data for identifying trends that could lead to more serious  
conditions. Consequently, it is recommended that you do not suppress the reporting of any events.  
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Monitor-Specific and Global Configuration Files  
However, if you do want to suppress the reporting of less important events, you can change the severity action  
to IGNORE. This will affect all events in that category, and all instances of the monitor's hardware resources.  
Polling Interval  
If you need more frequent polling to isolate a potential problem with the hardware, the polling interval can be  
reduced. Be aware that more frequent polling may impact system performance, so you may want to shorten  
the polling period only temporarily until the problem is solved. Avoid using a low polling interval for all  
monitors or system performance may suffer.  
Repeat Frequency  
If you need to be alerted to an event frequently, the repeat frequency can be reduced. The default repeat  
frequency is once a day.  
Sample Global Configuration File  
The following sample shows a portion of the global monitor configuration file.  
# Global.cfg, $Revision: 1.10 $  
#---------------------------------------------------------  
# Global.cfg : Sentinel Global Configuration File  
#---------------------------------------------------------  
POLL_INTERVAL  
60  
# in minutes (one hour)  
# in minutes (one day)  
REPEAT_FREQUENCY 1440  
#---------------------------------------------------------  
#
#
DEFAULT ACTIONS FOR EACH SEVERITY  
(Action can be NOTIFY or IGNORE)  
#---------------------------------------------------------  
SEVERITY_ACTION  
SEVERITY_ACTION  
SEVERITY_ACTION  
SEVERITY_ACTION  
SEVERITY_ACTION  
CRITICAL  
SERIOUS  
MAJOR_WARNING  
MINOR_WARNING  
INFORMATION  
NOTIFY  
NOTIFY  
NOTIFY  
NOTIFY  
NOTIFY  
#---------------------------------------------------------  
EXPLANATION OF EVENT CONFIGURATION LINES  
#
#---------------------------------------------------------  
#
# config--verb event# --severity--- action- -msg-number-in-library-catalog-  
#
# DEFINE_EVENT 100001 INFORMATION  
#
DEFAULT # msg num 1  
#---------------------------------------------------------  
# EXPLANATION OF DEVICE STATUS INTERPRETATION FOR EVENT  
#---------------------------------------------------------  
#
#
#
#
#
#
#
#
#
#
D
= DIRECT ACCESS DEVICE  
= SEQUENTIAL ACCESS DEVICE  
= PRINTER DEVICE  
T
L
P
= PROCESSOR DEVICE  
W
= WRITE ONCE READ MULTIPLE DEVICE  
= READ ONLY (CD-ROM) DEVICE  
= SCANNER DEVICE  
R
S
O
= OPTICAL MEMORY DEVICE  
M = MEDIA CHANGER DEVICE  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#
#
#
#
C = COMMUNICATION DEVICE  
DTLPWRSOMC = SCSI Device Class  
#--> [ 28 00 06 -- ] DTLPWRSOMC Not-ready to ready transition. Medium changed.  
#
#
#
#
#
#
#
#
cc qq kk ss  
Data elements equating to event  
cc  
qq  
kk  
= SCSI Additional Sense Code  
= SCSI Additional Sense Code Qualifier  
= SCSI Sense Key  
ss = SCSI Hardware Status  
#---------------------------------------------------------  
DEFAULT CONFIGURATION FOR SCSI DEVICE EVENTS  
#---------------------------------------------------------  
#
DEFINE_EVENT 100101 INFORMATION  
DEFAULT # msg num 1  
#
[ 00 00 00 -- ] DTLPWRSOMC No additional sense information.  
DEFINE_EVENT 100201 INFORMATION  
DEFAULT # msg num 1  
DEFAULT # msg num 171  
DEFAULT # msg num 1  
DEFAULT # msg num 171  
#
[ -- -- 00 -- ]  
DEFINE_EVENT 100301 INFORMATION  
[ -- -- 0c -- ]  
DEFINE_EVENT 100401 INFORMATION  
[ -- -- -- 00 ]  
DEFINE_EVENT 100501 INFORMATION  
[ -- -- -- 04 ]  
#
#
#
#---------------------------------------------------------  
DEFINE_EVENT 100002 INFORMATION  
[ 48 00 06 -- ] DTLPWRSOMC Initiator detected error message received.  
#---------------------------------------------------------  
DEFAULT # msg num 2  
#
DEFINE_EVENT 100103 INFORMATION  
DEFAULT # msg num 3  
#
[ 53 02 06 -- ] DT--WR-OM- Medium removal prevented.  
DEFINE_EVENT 100203 INFORMATION  
DEFAULT # msg num 195  
#
[ 5c 01 -- -- ] DT--WR-OM- Medium removal prevented.  
#---------------------------------------------------------  
DEFINE_EVENT 100004 INFORMATION  
DEFAULT # msg num 4  
#
[ 5a 00 06 -- ] DTLPWRSOM- Operator request or state change input  
#---------------------------------------------------------  
DEFINE_EVENT 100005 INFORMATION  
DEFAULT # msg num 5  
#
[ 5a 01 06 -- ] DT--WR-OM- Operator medium removal request.  
#---------------------------------------------------------  
DEFINE_EVENT 100006 INFORMATION  
DEFAULT # msg num 6  
#
[ 5a 02 06 -- ] DT--W--O-- Operator selected write protect.  
#---------------------------------------------------------  
DEFINE_EVENT 100007 INFORMATION  
DEFAULT # msg num 7  
#
[ 5a 03 06 -- ] DT--W--O-- Operator selected write permit.  
#---------------------------------------------------------  
DEFINE_EVENT 100108 INFORMATION  
DEFAULT # msg num 8  
#
[ 28 00 06 -- ] DTLPWRSOMC Not-ready to ready transition. Medium changed.  
DEFINE_EVENT 100208 INFORMATION  
DEFAULT # msg num 8  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#
[ 30 01 06 -- ]  
DEFINE_EVENT 100308 INFORMATION  
[ 3a 00 06 -- ]  
DEFAULT # msg num 8  
#
#---------------------------------------------------------  
DEFINE_EVENT 100109 INFORMATION  
[ 30 00 06 -- ]  
DEFINE_EVENT 100209 INFORMATION  
DEFAULT # msg num 9  
DEFAULT # msg num 9  
#
#
[ 30 02 06 -- ] DT--WR-O-- Cannot read medium - incompatible format.  
#---------------------------------------------------------  
DEFINE_EVENT 100010 INFORMATION DEFAULT # msg num 10  
[ 30 03 06 -- ] DT-------- Cleaning cartridge installed.  
#
#---------------------------------------------------------  
DEFINE_EVENT 100111 INFORMATION  
DEFAULT # msg num 11  
#
[ 27 00 06 -- ] DT--W--O-- Write protected.  
DEFINE_EVENT 100211 INFORMATION  
DEFAULT # msg num 11  
DEFAULT # msg num 11  
#
[ 27 00 07 -- ]  
DEFINE_EVENT 100311 INFORMATION  
[ -- -- 07 -- ]  
#
#---------------------------------------------------------  
DEFINE_EVENT 100012 INFORMATION  
DEFAULT # msg num 12  
#
[ 51 00 06 -- ] -T-----O-- Erase failure.  
#---------------------------------------------------------  
DEFINE_EVENT 100013 INFORMATION  
DEFAULT # msg num 13  
#
[ 00 11 00 -- ] -----R---- Audio play operation in progress.  
#---------------------------------------------------------  
DEFINE_EVENT 100014 INFORMATION  
DEFAULT # msg num 14  
#
[ 00 12 00 -- ] -----R---- Audio play operation paused.  
#---------------------------------------------------------  
DEFINE_EVENT 100015 INFORMATION  
DEFAULT # msg num 15  
#
[ 00 13 00 -- ] -----R---- Audio play operation successfully completed.  
#---------------------------------------------------------  
DEFINE_EVENT 100016 INFORMATION  
DEFAULT # msg num 16  
#
[ 00 15 00 -- ] -----R---- No current audio status to return.  
#---------------------------------------------------------  
DEFINE_EVENT 100017 INFORMATION  
DEFAULT # msg num 17  
#
[ 3f 00 06 -- ] DTLPWRSOMC Target operating conditions have changed.  
#---------------------------------------------------------  
DEFINE_EVENT 100018 INFORMATION  
DEFAULT # msg num 18  
#
[ 3f 01 06 -- ] DTLPWRSOMC Microcode has been changed.  
#---------------------------------------------------------  
DEFINE_EVENT 100019 INFORMATION  
DEFAULT # msg num 19  
#
[ 3f 02 06 -- ] DTLPWRSOMC Changed operating definition.  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#---------------------------------------------------------  
DEFINE_EVENT 100020 INFORMATION  
DEFAULT # msg num 20  
#
[ 3f 03 06 -- ] DTLPWRSOMC Inquiry data has changed.  
#---------------------------------------------------------  
DEFINE_EVENT 100021 INFORMATION  
DEFAULT # msg num 21  
#
[ 2a 00 06 -- ] DTL-WRSOMC Parameters changed.  
#---------------------------------------------------------  
DEFINE_EVENT 100022 INFORMATION  
DEFAULT # msg num 22  
#
[ 2a 01 06 -- ] DTL-WRSOMC Mode parameters changed.  
#---------------------------------------------------------  
DEFINE_EVENT 100023 INFORMATION  
DEFAULT # msg num 23  
#
[ 2a 02 06 -- ] DTL-WRSOMC Log parameters changed.  
#---------------------------------------------------------  
DEFINE_EVENT 100024 INFORMATION  
DEFAULT # msg num 24  
#
[ 5c 00 06 -- ] D------O-- Rpl status change.  
#---------------------------------------------------------  
DEFINE_EVENT 100025 MINOR_WARNING DEFAULT # msg num 25  
#
[ 59 00 01 -- ] -------O-- Updated block read.  
#---------------------------------------------------------  
DEFINE_EVENT 100126 MINOR_WARNING DEFAULT # msg num 43  
#
[ 0c 01 01 -- ] D---W--O-- Write error recovered with auto reallocation.  
DEFINE_EVENT 100226 MINOR_WARNING DEFAULT # msg num 193  
[ 11 06 -- -- ]  
DEFINE_EVENT 100326 MINOR_WARNING DEFAULT # msg num 26  
[ 17 00 01 -- ] DT--WRSO-- Recovered data with no ecc applied.  
DEFINE_EVENT 100426 MINOR_WARNING DEFAULT # msg num 27  
[ 17 01 01 -- ] DT--WRSO-- Recovered data with retries.  
DEFINE_EVENT 100526 MINOR_WARNING DEFAULT # msg num 28  
[ 17 02 01 -- ] DT--WR-O-- Recovered data with positive head offset.  
DEFINE_EVENT 100626 MINOR_WARNING DEFAULT # msg num 29  
[ 17 03 01 -- ] DT--WR-O-- Recovered data with negative head offset.  
DEFINE_EVENT 100726 MINOR_WARNING DEFAULT # msg num 30  
[ 17 04 01 -- ] ----WR-O-- Recovered data with retries / circ applied.  
DEFINE_EVENT 100826 MINOR_WARNING DEFAULT # msg num 31  
[ 17 05 01 -- ] D---WR-O-- Recovered data using previous sector id.  
DEFINE_EVENT 100926 MINOR_WARNING DEFAULT # msg num 32  
[ 17 06 01 -- ] D---W--O-- Recovered data without ecc. auto-reallocated.  
DEFINE_EVENT 101026 MINOR_WARNING DEFAULT # msg num 33  
[ 17 07 01 -- ]  
DEFINE_EVENT 101126 MINOR_WARNING DEFAULT # msg num 34  
[ 17 08 01 -- ]  
DEFINE_EVENT 101226 MINOR_WARNING DEFAULT # msg num 35  
[ 18 00 01 -- ] DT--WR-O-- Recovered data with error correction applied.  
DEFINE_EVENT 101326 MINOR_WARNING DEFAULT # msg num 36  
[ 18 01 01 -- ] D---WR-O-- Recovered data with ecc and retries applied.  
DEFINE_EVENT 101426 MINOR_WARNING DEFAULT # msg num 37  
[ 18 02 01 -- ] D---WR-O-- Recovered data with ecc/retries, auto-realloc.  
DEFINE_EVENT 101526 MINOR_WARNING DEFAULT # msg num 38  
[ 18 03 01 -- ] -----R---- Recovered data with circ.  
DEFINE_EVENT 101626 MINOR_WARNING DEFAULT # msg num 39  
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
[ 18 04 01 -- ] -----R---- Recovered data with lec.  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
DEFINE_EVENT 101726 MINOR_WARNING DEFAULT # msg num 40  
[ 18 05 01 -- ]  
DEFINE_EVENT 101826 MINOR_WARNING DEFAULT # msg num 41  
[ 18 06 01 -- ]  
DEFINE_EVENT 101926 MINOR_WARNING DEFAULT # msg num 42  
[ 1e 00 01 -- ] D---W--O-- Recovered id with ecc correction.  
DEFINE_EVENT 102026 MINOR_WARNING DEFAULT # msg num 33  
[ -- -- 01 -- ]  
#
#
#
#
#---------------------------------------------------------  
DEFINE_EVENT 100027 MINOR_WARNING DEFAULT # msg num 44  
#
[ 3e 00 02 -- ] DTLPWRSOMC Logical unit has not self-configured yet.  
#---------------------------------------------------------  
DEFINE_EVENT 100028 MINOR_WARNING DEFAULT # msg num 45  
#
[ 04 04 02 -- ] DTL----O-- Logical unit not ready, format in progress.  
#---------------------------------------------------------  
DEFINE_EVENT 100029 MAJOR_WARNING DEFAULT # msg num 46  
#
[ 5b 01 06 -- ] DTLPWRSOM- Threshold condition met.  
#---------------------------------------------------------  
DEFINE_EVENT 100130 MAJOR_WARNING DEFAULT # msg num 47  
#
[ 0a 00 06 -- ] DTLPWRSOMC Error log overflow.  
DEFINE_EVENT 100230 MAJOR_WARNING DEFAULT # msg num 48  
[ 5b 02 01 -- ]  
DEFINE_EVENT 100330 MAJOR_WARNING DEFAULT # msg num 49  
[ 5b 02 06 -- ] DTLPWRSOM- Log counter at maximum.  
#
#
#---------------------------------------------------------  
DEFINE_EVENT 100031 CRITICAL  
DEFAULT # msg num 49  
#
[ 5b 03 06 -- ] DTLPWRSOM- Log list codes exhausted.  
#---------------------------------------------------------  
DEFINE_EVENT 100132 CRITICAL  
DEFAULT # msg num 50  
#
[ 2f 00 06 -- ] DTLPWRSOMC Commands cleared by another initiator.  
DEFINE_EVENT 100232 CRITICAL  
DEFAULT # msg num 51  
#
[ 4e 00 06 -- ] DTLPWRSOMC Overlapped commands attempted.  
#---------------------------------------------------------  
DEFINE_EVENT 100133 CRITICAL  
DEFAULT # msg num 52  
#
[ 37 00 06 -- ] DTL-WRSOMC Rounded parameter.  
DEFINE_EVENT 100233 CRITICAL  
DEFAULT # msg num 53  
#
[ 39 00 06 -- ] DTL-WRSOMC Saving parameters not supported.  
DEFINE_EVENT 100333 CRITICAL  
DEFAULT # msg num 54  
#
[ 63 00 06 -- ] -----R---- End of user area encountered on this track.  
#---------------------------------------------------------  
DEFINE_EVENT 100034 CRITICAL  
DEFAULT # msg num 55  
#
[ 45 00 04 -- ] DTLPWRSOMC Select/reselect failure.  
#---------------------------------------------------------  
DEFINE_EVENT 100035 CRITICAL  
DEFAULT # msg num 56  
#
[ 07 00 04 -- ] DTL-WRSOM- Multiple peripheral devices selected.  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#---------------------------------------------------------  
DEFINE_EVENT 100136 CRITICAL  
DEFAULT # msg num 57  
#
[ 12 00 03 -- ] D---W--O-- Address mark not found for id field.  
DEFINE_EVENT 100236 CRITICAL  
DEFAULT # msg num 58  
#
[ 13 00 03 -- ] D---W--O-- Address mark not found for data field.  
#---------------------------------------------------------  
DEFINE_EVENT 100137 CRITICAL  
DEFAULT # msg num 67  
#
[ 0c 02 03 -- ] D---W--O-- Write error - auto reallocation failed.  
DEFINE_EVENT 100237 CRITICAL  
DEFAULT # msg num 60  
#
[ 11 00 03 -- ] DT--WRSO-- Unrecovered read error.  
DEFINE_EVENT 100337 CRITICAL  
DEFAULT # msg num 61  
#
[ 11 01 03 -- ] DT--W-SO-- Read retries exhausted.  
DEFINE_EVENT 100437 CRITICAL  
DEFAULT # msg num 62  
#
[ 11 02 03 -- ] DT--W-SO-- Error too long to correct.  
DEFINE_EVENT 100537 CRITICAL  
DEFAULT # msg num 63  
#
[ 11 04 03 -- ] D---W--O-- Unrecovered read error - auto realloc failed.  
DEFINE_EVENT 100637 CRITICAL  
DEFAULT # msg num 64  
#
[ 11 05 03 -- ] ----WR-O-- L-ec uncorrectable error  
DEFINE_EVENT 100737 CRITICAL  
DEFAULT # msg num 197  
DEFAULT # msg num 65  
DEFAULT # msg num 66  
DEFAULT # msg num 59  
#
[ 11 07 -- -- ]  
DEFINE_EVENT 100837 CRITICAL  
[ 11 0b 03 -- ]  
DEFINE_EVENT 100937 CRITICAL  
[ 11 0c 03 -- ]  
DEFINE_EVENT 101037 CRITICAL  
#
#
#
[ 16 00 03 -- ] D---W--O-- Data synchronization mark error.  
DEFINE_EVENT 101137 CRITICAL DEFAULT # msg num 60  
[ -- -- 03 -- ]  
#
#---------------------------------------------------------  
DEFINE_EVENT 100038 CRITICAL  
DEFAULT # msg num 68  
#
[ 31 00 03 -- ] DT--W--O-- Medium format corrupted.  
#---------------------------------------------------------  
DEFINE_EVENT 100039 CRITICAL DEFAULT # msg num 69  
[ 31 01 03 -- ] D-L----O-- Format command failed.  
#
#---------------------------------------------------------  
DEFINE_EVENT 100140 CRITICAL  
DEFAULT # msg num 70  
#
[ 19 00 03 -- ] D------O-- Defect list error.  
DEFINE_EVENT 100240 CRITICAL  
DEFAULT # msg num 71  
#
[ 19 01 03 -- ] D------O-- Defect list not available.  
DEFINE_EVENT 100340 CRITICAL  
DEFAULT # msg num 72  
#
[ 19 02 03 -- ] D------O-- Defect list error in primary list.  
DEFINE_EVENT 100440 CRITICAL  
DEFAULT # msg num 73  
#
[ 19 03 03 -- ] D------O-- Defect list error in grown list.  
DEFINE_EVENT 100540 CRITICAL  
DEFAULT # msg num 194  
#
[ 1c 01 -- -- ]  
#---------------------------------------------------------  
DEFINE_EVENT 100141 CRITICAL  
DEFAULT # msg num 74  
#
[ 1c 00 03 -- ] D------O-- Defect list not found.  
DEFINE_EVENT 100241 CRITICAL  
DEFAULT # msg num 75  
#
[ 1c 02 03 -- ] D------O-- Grown defect list not found.  
#---------------------------------------------------------  
DEFINE_EVENT 100142 CRITICAL  
DEFAULT # msg num 67  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#
[ 32 00 -- -- ]  
DEFINE_EVENT 100242 CRITICAL  
DEFAULT # msg num 76  
[ 32 01 03 -- ] D---W--O-- Defect list update failure.  
#
DEFINE_EVENT 100342 CRITICAL  
DEFAULT # msg num 76  
#
[ 32 02 03 -- ]  
#---------------------------------------------------------  
DEFINE_EVENT 100143 CRITICAL  
DEFAULT # msg num 78  
#
[ 06 00 03 -- ] D---WR-OM- No reference position (like track 0)found.  
DEFINE_EVENT 100243 CRITICAL  
DEFAULT # msg num 79  
#
[ 14 00 03 -- ] DTL-WRSO-- Recorded entity not found.  
DEFINE_EVENT 100343 CRITICAL  
DEFAULT # msg num 80  
#
[ 14 01 03 -- ] DT--WR-O-- Record not found.  
#---------------------------------------------------------  
DEFINE_EVENT 100044 CRITICAL  
DEFAULT # msg num 81  
#
[ 57 00 03 -- ] -----R---- Unable to recover table-of-contents.  
#---------------------------------------------------------  
DEFINE_EVENT 100045 CRITICAL  
DEFAULT # msg num 82  
#
[ 53 00 04 -- ] DTL-WRSOM- Media load/eject failed.  
#---------------------------------------------------------  
DEFINE_EVENT 100046 CRITICAL  
DEFAULT # msg num 83  
#
[ 00 14 00 -- ] -----R---- Audio play operation stopped due to error.  
#---------------------------------------------------------  
DEFINE_EVENT 100047 CRITICAL  
DEFAULT # msg num 84  
#
[ 5b 00 06 -- ] DTLPWRSOM- Log exception.  
#---------------------------------------------------------  
DEFINE_EVENT 100048 CRITICAL  
DEFAULT # msg num 85  
#
[ 5c 02 06 -- ] D------O-- Spindles not synchronized.  
#---------------------------------------------------------  
DEFINE_EVENT 100049 CRITICAL  
DEFAULT # msg num 86  
#
[ 4c 00 06 -- ] DTLPWRSOMC Logical unit failed self-configuration.  
#---------------------------------------------------------  
DEFINE_EVENT 100150 CRITICAL  
DEFAULT # msg num 88  
#
[ 2c 00 06 -- ] DTLPWRSOMC Command sequence error.  
DEFINE_EVENT 100250 CRITICAL  
DEFAULT # msg num 87  
#
[ 4a 00 06 -- ] DTLPWRSOMC Command phase error.  
#---------------------------------------------------------  
DEFINE_EVENT 100151 CRITICAL  
DEFAULT # msg num 89  
#
[ 1b 00 06 -- ] DTLPWRSOMC Synchronous data transfer error.  
DEFINE_EVENT 100251 CRITICAL  
DEFAULT # msg num 166  
#
[ -- -- 04 -- ]  
#---------------------------------------------------------  
DEFINE_EVENT 100152 CRITICAL  
[ 00 06 06 -- ]  
DEFINE_EVENT 100252 CRITICAL  
DEFAULT # msg num 91  
DEFAULT # msg num 90  
#
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#
[ 4b 00 06 -- ] DTLPWRSOMC Data phase error.  
#---------------------------------------------------------  
DEFINE_EVENT 100053 CRITICAL  
DEFAULT # msg num 92  
#
[ 10 00 04 -- ] D---W--O-- Id crc or ecc error.  
#---------------------------------------------------------  
DEFINE_EVENT 100054 CRITICAL  
DEFAULT # msg num 93  
#
[ 2b 00 06 -- ] DTLPWRSO-C Copy cannot execute; host cannot disconnect.  
#---------------------------------------------------------  
DEFINE_EVENT 100055 CRITICAL  
DEFAULT # msg num 94  
#
[ 11 0a 04 -- ] DT-----O-- Miscorrected error.  
#---------------------------------------------------------  
DEFINE_EVENT 100056 CRITICAL  
DEFAULT # msg num 95  
#
[ 11 03 04 -- ] DT--W-SO-- Multiple read errors.  
#---------------------------------------------------------  
DEFINE_EVENT 100057 CRITICAL  
DEFAULT # msg num 96  
#
[ 44 00 04 -- ] DTLPWRSOMC Internal target failure.  
#---------------------------------------------------------  
DEFINE_EVENT 100158 CRITICAL  
DEFAULT # msg num 97  
#
[ 15 01 04 -- ] DTL-WRSOM- Mechanical positioning error.  
DEFINE_EVENT 100258 CRITICAL  
DEFAULT # msg num 97  
#
[ 3b 00 -- -- ]  
#---------------------------------------------------------  
DEFINE_EVENT 100059 CRITICAL  
[ 15 02 04 -- ] DT--WR-O-- Positioning error detected by read of medium.  
#---------------------------------------------------------  
DEFAULT # msg num 98  
#
DEFINE_EVENT 100060 CRITICAL  
DEFAULT # msg num 99  
#
[ 15 00 04 -- ] DTL-WRSOM- Random positioning error.  
#---------------------------------------------------------  
DEFINE_EVENT 100061 CRITICAL  
DEFAULT # msg num 100  
#
[ 01 00 04 -- ] D---W--O-- No index/sector signal.  
#---------------------------------------------------------  
DEFINE_EVENT 100062 CRITICAL  
DEFAULT # msg num 101  
#
[ 02 00 04 -- ] D---WR-OM- No seek complete.  
#---------------------------------------------------------  
DEFINE_EVENT 100063 CRITICAL  
DEFAULT # msg num 102  
#
[ 03 00 04 -- ] DTL-W-SO-- Peripheral device write fault.  
#---------------------------------------------------------  
DEFINE_EVENT 100064 CRITICAL  
DEFAULT # msg num 103  
#
[ 09 00 06 -- ] DT--WR-O-- Track following error.  
#---------------------------------------------------------  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
DEFINE_EVENT 100065 CRITICAL  
DEFAULT # msg num 104  
#
[ 09 01 06 -- ] ----WR-O-- Tracking servo failure.  
#---------------------------------------------------------  
DEFINE_EVENT 100166 CRITICAL  
DEFAULT # msg num 105  
#
[ 09 02 06 -- ] ----WR-O-- Focus servo failure.  
DEFINE_EVENT 100266 CRITICAL  
DEFAULT # msg num 106  
#
[ 09 03 04 -- ] ----WR-O-- Spindle servo failure.  
#---------------------------------------------------------  
DEFINE_EVENT 100067 CRITICAL  
DEFAULT # msg num 107  
#
[ 42 00 06 -- ] D--------- Power-on or self-test failure.  
#---------------------------------------------------------  
DEFINE_EVENT 100068 CRITICAL  
DEFAULT # msg num 108  
#
[ 40 00 06 -- ] D--------- Ram failure -- should use 40 nn.  
#---------------------------------------------------------  
DEFINE_EVENT 100069 CRITICAL DEFAULT # msg num 109  
[ 40 00 06 -- ] D--------- Ram failure -- should use 40 nn.  
#
#---------------------------------------------------------  
DEFINE_EVENT 100170 CRITICAL  
DEFAULT # msg num 110  
#
[ 47 00 06 -- ] DTLPWRSOMC Scsi parity error.  
DEFINE_EVENT 100270 CRITICAL  
DEFAULT # msg num 110  
#
[ 47 00 0b -- ]  
#---------------------------------------------------------  
DEFINE_EVENT 100171 CRITICAL  
DEFAULT # msg num 111  
#
[ 46 00 0b -- ] DTLPWRSOMC Unsuccessful soft reset.  
DEFINE_EVENT 100271 CRITICAL  
DEFAULT # msg num 111  
#
[ -- -- 0b -- ]  
#---------------------------------------------------------  
DEFINE_EVENT 100172 CRITICAL  
DEFAULT # msg num 112  
#
[ 04 00 02 -- ] DTLPWRSOMC Logical unit not ready, cause not reportable.  
DEFINE_EVENT 100272 CRITICAL  
DEFAULT # msg num 113  
#
[ 04 01 02 -- ] DTLPWRSOMC Logical unit is in process of becoming ready.  
DEFINE_EVENT 100372 CRITICAL  
DEFAULT # msg num 115  
#
[ 04 02 02 -- ] DTLPWRSOMC Logical unit not ready, init command required.  
DEFINE_EVENT 100472 CRITICAL  
DEFAULT # msg num 116  
#
[ 04 03 02 -- ] DTLPWRSOMC Logical unit not ready, manual fix required.  
DEFINE_EVENT 100572 CRITICAL  
DEFAULT # msg num 120  
#
[ 08 01 04 -- ] DTL-WRSOMC Logical unit communication time-out.  
DEFINE_EVENT 100672 CRITICAL  
DEFAULT # msg num 183  
#
[ 25 01 05 -- ]  
DEFINE_EVENT 100772 CRITICAL  
DEFAULT # msg num 117  
#
[ 29 00 06 -- ] DTLPWRSOMC Power on, reset, or bus device reset occurred.  
DEFINE_EVENT 100872 CRITICAL  
[ 48 00 0b -- ]  
DEFINE_EVENT 100972 CRITICAL  
[ 5d 00 01 -- ]  
DEFINE_EVENT 101072 CRITICAL  
[ -- -- 02 -- ]  
DEFAULT # msg num 112  
DEFAULT # msg num 182  
DEFAULT # msg num 165  
#
#
#
#---------------------------------------------------------  
DEFINE_EVENT 100173 CRITICAL  
DEFAULT # msg num 118  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#
[ 04 00 05 -- ]  
DEFINE_EVENT 100273 CRITICAL  
DEFAULT # msg num 118  
[ 08 00 04 -- ] DTL-WRSOMC Logical unit communication failure.  
#
DEFINE_EVENT 100373 CRITICAL  
DEFAULT # msg num 114  
#
[ 41 00 04 -- ] D--------- Data path failure -- should use 40 nn.  
#---------------------------------------------------------  
DEFINE_EVENT 100074 CRITICAL  
DEFAULT # msg num 119  
#
[ 05 00 04 -- ] DTL-WRSOMC Logical unit does not respond to selection.  
#---------------------------------------------------------  
DEFINE_EVENT 100075 CRITICAL  
DEFAULT # msg num 121  
#
[ 08 02 04 -- ] DTL-WRSOMC Logical unit communication parity error.  
#---------------------------------------------------------  
DEFINE_EVENT 100176 CRITICAL  
[ 00 06 0b -- ]  
DEFINE_EVENT 100276 CRITICAL  
DEFAULT # msg num 187  
DEFAULT # msg num 122  
#
#
[ 1a 00 05 -- ] DTLPWRSOMC Parameter list length error.  
DEFINE_EVENT 100376 CRITICAL DEFAULT # msg num 123  
[ 20 00 05 -- ] DTLPWRSOMC Invalid command operation code.  
#
DEFINE_EVENT 100476 CRITICAL  
DEFAULT # msg num 123  
#
[ 21 00 05 -- ] DT--WR-OM- Logical block address out of range.  
DEFINE_EVENT 100576 CRITICAL  
DEFAULT # msg num 162  
#
[ 21 01 05 -- ] --------M- Invalid element address.  
DEFINE_EVENT 100676 CRITICAL  
DEFAULT # msg num 125  
#
[ 22 00 05 -- ] D--------- Illegal function for device type  
DEFINE_EVENT 100776 CRITICAL  
DEFAULT # msg num 126  
#
[ 24 00 05 -- ] DTLPWRSOMC Invalid field in cdb. Check fld ptr in sense.  
DEFINE_EVENT 100876 CRITICAL  
DEFAULT # msg num 127  
#
[ 25 00 05 -- ] DTLPWRSOMC Logical unit not supported.  
DEFINE_EVENT 100976 CRITICAL  
DEFAULT # msg num 128  
#
[ 26 00 05 -- ] DTLPWRSOMC Invalid field in param list -- chk fld ptr.  
DEFINE_EVENT 101076 CRITICAL  
DEFAULT # msg num 129  
#
[ 26 01 05 -- ] DTLPWRSOMC Parameter not supported -- chk fld ptr.  
DEFINE_EVENT 101176 CRITICAL  
DEFAULT # msg num 130  
#
[ 26 02 05 -- ] DTLPWRSOMC Parameter value invalid -- chk fld ptr.  
DEFINE_EVENT 101276 CRITICAL  
DEFAULT # msg num 130  
#
[ 26 03 05 -- ] DTLPWRSOMC Threshold parameters not supported.  
DEFINE_EVENT 101376 CRITICAL  
DEFAULT # msg num 184  
DEFAULT # msg num 188  
DEFAULT # msg num 185  
DEFAULT # msg num 132  
#
[ 27 00 05 -- ]  
DEFINE_EVENT 101476 CRITICAL  
[ 2c 00 0b -- ]  
DEFINE_EVENT 101576 CRITICAL  
[ 3a 00 05 -- ]  
DEFINE_EVENT 101676 CRITICAL  
#
#
#
[ 3d 00 05 -- ] DTLPWRSOMC Invalid bits in identify message.  
DEFINE_EVENT 101776 CRITICAL DEFAULT # msg num 133  
[ 43 00 05 -- ] DTLPWRSOMC Message error.  
#
DEFINE_EVENT 101876 CRITICAL  
DEFAULT # msg num 189  
#
[ 43 00 0b -- ]  
DEFINE_EVENT 101976 CRITICAL  
DEFAULT # msg num 134  
#
[ 49 00 05 -- ] DTLPWRSOMC Invalid message error.  
DEFINE_EVENT 102076 CRITICAL  
[ 4e 00 0b -- ]  
DEFINE_EVENT 102176 CRITICAL  
DEFAULT # msg num 190  
#
DEFAULT # msg num 135  
#
[ 58 00 05 -- ] -------O-- Generation does not exist.  
DEFINE_EVENT 102276 CRITICAL DEFAULT # msg num 136  
[ 64 00 05 -- ] -----R---- Illegal mode for this track.  
#
DEFINE_EVENT 102376 CRITICAL  
DEFAULT # msg num 186  
#
[ 80 01 06 -- ]  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
DEFINE_EVENT 102476 CRITICAL  
[ -- -- 05 -- ]  
DEFINE_EVENT 102576 CRITICAL  
[ -- -- 09 -- ]  
DEFINE_EVENT 102676 CRITICAL  
[ -- -- -- 02 ]  
DEFAULT # msg num 133  
DEFAULT # msg num 169  
DEFAULT # msg num 174  
#
#
#
#---------------------------------------------------------  
DEFINE_EVENT 100077 INFORMATION  
DEFAULT # msg num 137  
#
[ 00 01 06 -- ] -T-------- Filemark detected.  
#---------------------------------------------------------  
DEFINE_EVENT 100078 INFORMATION  
DEFAULT # msg num 138  
#
[ 00 02 06 -- ] -T----S--- End-of-partition/medium detected.  
#---------------------------------------------------------  
DEFINE_EVENT 100079 INFORMATION  
DEFAULT # msg num 139  
#
[ 00 03 06 -- ] -T-------- Setmark detected.  
#---------------------------------------------------------  
DEFINE_EVENT 100080 INFORMATION  
DEFAULT # msg num 140  
#
[ 00 04 06 -- ] -T----S--- Beginning-of-partition/medium detected.  
#---------------------------------------------------------  
DEFINE_EVENT 100081 INFORMATION  
DEFAULT # msg num 141  
#
[ 00 05 04 -- ] -T----S--- End-of-data detected.  
#---------------------------------------------------------  
DEFINE_EVENT 100082 CRITICAL  
DEFAULT # msg num 142  
#
[ 03 01 04 -- ] -T-------- No write current.  
#---------------------------------------------------------  
DEFINE_EVENT 100083 CRITICAL  
DEFAULT # msg num 143  
#
[ 03 02 04 -- ] -T-------- Excessive write errors.  
#---------------------------------------------------------  
DEFINE_EVENT 100084 CRITICAL  
DEFAULT # msg num 144  
#
[ 0c 00 03 -- ] -T----S--- Write error -- sense key -> whether recovered.  
#---------------------------------------------------------  
DEFINE_EVENT 100185 CRITICAL  
DEFAULT # msg num 145  
#
[ 11 08 03 -- ] -T-------- Incomplete block read (postamble not found).  
DEFINE_EVENT 100285 CRITICAL  
DEFAULT # msg num 146  
#
[ 11 09 03 -- ] -T-------- No gap found.  
DEFINE_EVENT 100385 CRITICAL  
DEFAULT # msg num 147  
#
[ 14 02 03 -- ] -T-------- Filemark or setmark not found.  
DEFINE_EVENT 100485 CRITICAL  
DEFAULT # msg num 148  
#
[ 14 03 03 -- ] -T-------- End-of-data not found.  
DEFINE_EVENT 100585 CRITICAL  
DEFAULT # msg num 149  
#
[ 14 04 03 -- ] -T-------- Block sequence error.  
DEFINE_EVENT 100685 CRITICAL  
DEFAULT # msg num 150  
#
[ 2d 00 03 -- ] -T-------- Overwrite error on update in place.  
DEFINE_EVENT 100785 CRITICAL  
DEFAULT # msg num 191  
#
[ 30 01 03 -- ]  
DEFINE_EVENT 100885 CRITICAL  
DEFAULT # msg num 151  
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Hardware Monitor Configuration Files  
Monitor-Specific and Global Configuration Files  
#
[ 33 00 03 -- ] -T-------- Tape length error.  
DEFINE_EVENT 100985 CRITICAL DEFAULT # msg num 155  
[ 50 00 03 -- ] -T-------- Write append error.  
#
DEFINE_EVENT 101085 CRITICAL  
DEFAULT # msg num 158  
#
[ 51 00 03 -- ] -T-----O-- Erase failure.  
DEFINE_EVENT 101185 CRITICAL  
DEFAULT # msg num 159  
#
[ 52 00 03 -- ] -T-------- Cartridge fault.  
#---------------------------------------------------------  
DEFINE_EVENT 100186 CRITICAL  
DEFAULT # msg num 152  
#
[ 3b 01 03 -- ] -T-------- Tape position error at beginning-of-medium.  
DEFINE_EVENT 100286 CRITICAL  
DEFAULT # msg num 153  
#
[ 3b 02 03 -- ] -T-------- Tape position error at end-of-medium.  
#---------------------------------------------------------  
DEFINE_EVENT 100187 CRITICAL  
DEFAULT # msg num 154  
#
[ 3b 08 04 -- ] -T-------- Reposition error.  
DEFINE_EVENT 100287 CRITICAL  
DEFAULT # msg num 156  
#
[ 50 01 04 -- ] -T-------- Write append position error.  
DEFINE_EVENT 100387 CRITICAL  
DEFAULT # msg num 156  
#
[ 50 02 04 -- ] -T-------- Position error related to timing.  
#---------------------------------------------------------  
DEFINE_EVENT 100088 CRITICAL  
DEFAULT # msg num 160  
#
[ 53 01 03 -- ] -T-------- Unload tape failure.  
#---------------------------------------------------------  
DEFINE_EVENT 100089 INFORMATION  
DEFAULT # msg num 161  
#
[ 28 01 06 -- ] DTLPWRSOMC Not-ready to ready transition. Medium changed.  
#---------------------------------------------------------  
DEFINE_EVENT 100190 CRITICAL  
DEFAULT # msg num 163  
#
[ 3b 0d 05 -- ] --------M- Medium destination element full.  
DEFINE_EVENT 100290 CRITICAL  
DEFAULT # msg num 164  
#
[ 3b 0e 05 -- ] --------M- Medium source element empty.  
#---------------------------------------------------------  
DEFINE_EVENT 100091 CRITICAL  
[ -- -- 06 -- ]  
DEFAULT # msg num 167  
#
#---------------------------------------------------------  
DEFINE_EVENT 100092 CRITICAL  
[ -- -- 08 -- ]  
DEFAULT # msg num 168  
#
#---------------------------------------------------------  
DEFINE_EVENT 100193 CRITICAL  
[ -- -- 0a -- ]  
DEFINE_EVENT 100293 CRITICAL  
[ -- -- 0d -- ]  
DEFAULT # msg num 170  
DEFAULT # msg num 172  
#
#
#---------------------------------------------------------  
DEFINE_EVENT 100194 CRITICAL  
[ 1d 00 -- -- ]  
DEFINE_EVENT 100294 CRITICAL  
DEFAULT # msg num 173  
DEFAULT # msg num 173  
#
#
[ -- -- 0e -- ]  
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Monitor-Specific and Global Configuration Files  
#---------------------------------------------------------  
DEFINE_EVENT 100095 INFORMATION  
[ -- -- -- 10 ]  
DEFAULT # msg num 177  
#
#---------------------------------------------------------  
DEFINE_EVENT 100096 INFORMATION  
[ -- -- -- 14 ]  
DEFAULT # msg num 177  
#
#---------------------------------------------------------  
DEFINE_EVENT 100097 MAJOR_WARNING DEFAULT # msg num 179  
#
[ -- -- -- 18 ]  
#---------------------------------------------------------  
DEFINE_EVENT 100098 INFORMATION  
[ -- -- -- 22 ]  
DEFAULT # msg num 180  
#
#---------------------------------------------------------  
DEFINE_EVENT 100099 MAJOR_WARNING DEFAULT # msg num 181  
#
[ -- -- -- 28 ]  
#---------------------------------------------------------  
DEFINE_EVENT 100100 MAJOR_WARNING DEFAULT # msg num 176  
#
[ -- -- -- 08 ]  
#---------------------------------------------------------  
DEFINE_EVENT 100299 CRITICAL DEFAULT # msg num 255  
[ -- -- -- -- ] DTLPWRSOMC Error info is not recognized.  
#
#---------------------------------------------------------  
Sample Monitor-Specific Configuration File  
The following is a sample of a device configuration file.  
#****************************************************************************#  
#* fw_disk_array.cfg  
#*  
: monitor configuration statements for all  
events handled by the fw_disk_array monitor  
*#  
*#  
#****************************************************************************#  
#****************************************************************************#  
#* These items will appear in the global config file, but are repeated  
#* here for documentation purposes. They could also appear here to override*#  
#* the global values. *#  
#****************************************************************************#  
*#  
# POLL_INTERVAL  
# REPEAT_FREQUENCY  
60  
1440  
# polling interval in minutes  
# in minutes, for one day  
#****************************************************************************#  
#* This list of default actions for each severity also appears in the  
#* global configuration file, and should not generally appear here.  
#* It is shown for documentation purposes.  
*#  
*#  
*#  
#****************************************************************************#  
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Monitor-Specific and Global Configuration Files  
SEVERITY_ACTION  
SEVERITY_ACTION  
SEVERITY_ACTION  
SEVERITY_ACTION  
SEVERITY_ACTION  
INFORMATION  
MINOR_WARNING  
MAJOR_WARNING  
SERIOUS  
NOTIFY  
NOTIFY  
NOTIFY  
NOTIFY  
NOTIFY  
CRITICAL  
#****************************************************************************#  
#* *#  
#* cfg-verb event# --severity--- action- ---------description------------- *#  
#* *#  
#****************************************************************************#  
DEFINE_EVENT  
DEFINE_EVENT  
DEFINE_EVENT  
DEFINE_EVENT  
DEFINE_EVENT  
DEFINE_EVENT  
3
4
6
7
8
9
INFORMATION  
INFORMATION  
INFORMATION  
CRITICAL  
CRITICAL  
CRITICAL  
SERIOUS  
CRITICAL  
CRITICAL  
CRITICAL  
CRITICAL  
CRITICAL  
SERIOUS  
DEFAULT # Target Operating conditions changed  
DEFAULT # Microcode has been changed  
DEFAULT # Inquiry data has changed  
DEFAULT # Failed write operation  
DEFAULT # Auto reallocation failed  
DEFAULT # Reconstruction Failed (write)  
DEFAULT # Reconstruction failed (read)  
DEFAULT # Unrecovered Read/write error  
DEFAULT # Deferred error caused drive warning  
DEFAULT # Hardware component diag failure  
DEFAULT # Failed testUnit ready command  
DEFAULT # Format unit command failed  
DEFAULT # Mode select command failed  
DEFAULT # Drive failed because deferred error  
DEFAULT # Drive replacement error  
DEFINE_EVENT 10  
DEFINE_EVENT 11  
DEFINE_EVENT 12  
DEFINE_EVENT 13  
DEFINE_EVENT 14  
DEFINE_EVENT 15  
DEFINE_EVENT 16  
DEFINE_EVENT 17  
DEFINE_EVENT 18  
DEFINE_EVENT 19  
DEFINE_EVENT 20  
DEFINE_EVENT 21  
DEFINE_EVENT 22  
DEFINE_EVENT 23  
DEFINE_EVENT 24  
DEFINE_EVENT 25  
DEFINE_EVENT 26  
DEFINE_EVENT 27  
DEFINE_EVENT 28  
SERIOUS  
CRITICAL  
MAJOR_WARNING DEFAULT # Excessive Media error rate  
MAJOR_WARNING DEFAULT # Excessive Seek Error rate  
MAJOR_WARNING DEFAULT # Excessive grown defects  
SERIOUS  
SERIOUS  
SERIOUS  
CRITICAL  
DEFAULT # No response from a drive  
DEFAULT # Communication errors  
DEFAULT # No drive present when it should be  
DEFAULT # Subsystem component failure  
MINOR_WARNING DEFAULT # AC power fail. On battery.  
CRITICAL  
DEFAULT # AC power fail. 2 minutes to shutdown  
DEFAULT # AC power fail, DC power gone.  
INFORMATION DEFAULT # AC power was lost, now back  
CRITICAL  
DEFINE_EVENT  
29  
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Hardware Monitor Configuration Files  
Startup Configuration File  
Startup Configuration File  
Each hardware event monitor has its own startup configuration file which contains the monitoring requests  
currently defined for the monitor. At startup, following the execution of the IOSCAN utility (performing a  
real/hard ioscan), or when using the Hardware Monitoring Request Manager (monconfig) to manage  
monitoring requests, the entries in the startup configuration file are used to create monitoring requests for  
the monitor.  
Each monitoring request in the startup configuration file is applied to all instances of the monitor's hardware  
resources. An identical set of default requests are included in the startup configuration file for each monitor.  
You modify the contents of the startup configuration file using the Hardware Monitoring Request Manager.  
When you use the Hardware Monitoring Request Manager to create or manage monitoring requests, the  
results are stored as an entry in the monitor's startup configuration file. If you have selected the All Monitors  
option for the request, an entry will be made in the startup configuration file for all the monitors.  
NOTE  
When Do Changes Made to a Startup Configuration File Take Effect?  
Changes made to a startup configuration file are invoked when the system is restarted,  
following the execution of the IOSCAN utility (performing a real/hard ioscan), or when the  
Hardware Monitoring Request Manager is used to manage monitoring requests. For example,  
when you add, delete, or modify a monitoring request using the Hardware Monitoring Request  
Manager, the changes to the startup configuration file will take effect immediately.  
File Names  
The file naming convention for the startup configuration files is:  
/var/stm/config/tools/monitor/monitorname.sapcfg  
monitornameis the name of the monitor executable.  
File Format  
Entries in the startup configuration file use the following conventions:  
The startup configuration file contains monitoring request entries identifying the notification method and  
reporting criteria for the monitor. Each entry contains records consisting of a keyword, followed by a colon  
(:), followed by the value assigned to the keyword. For example, Criteria Threshold: INFORMATION  
'MONITOR' must be the first keyword found in each entry, but the remaining records in the entry are not  
order-dependent. For example:  
MONITOR: /storage/events/disk_arrays/FW_SCSI  
Comments begin with the pound character (#) and continue until the end of the line. A comment may  
occur on a line by itself or after a blank space following the value for a keyword.  
For example, either of the following are valid comments:  
# Default monitoring entries  
Target Type: SYSLOG  
# Send events to syslog  
Table 5-2 identifies the keywords that make up each entry in the startup configuration file. Each entry must  
contain the keywords identified as required.  
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Startup Configuration File  
Considerations for Modifying the Startup Configuration File Settings  
While you can edit the contents of the startup configuration file directly, the better approach is to use the  
Hardware Monitoring Request Manager (monconfig) to create and manage your monitoring requests. Using  
the monitoring request manager you can create requests for multiple monitors simultaneously. And the  
Hardware Monitoring Request Manager ensures that all request entries are formatted correctly.  
The only benefit that editing the configuration file offers is that you can use the COMMENTsetting to add  
information that will be included with the event.  
Table 5-2  
Startup Configuration File Entries  
Keyword  
MONITOR (required)  
Values  
Description  
A valid event monitor  
resource path  
Identifies the hardware  
event monitor to which  
the entry applies. All  
entries must use the  
resource path for the  
monitor being  
configured.  
Note: This must the first  
keyword in each entry  
Criteria Threshold (required) Valid values include:  
Defines the severity  
level used as the  
notification criteria  
threshold.  
CRITICAL  
SERIOUS  
MAJOR_WARNING  
MINOR_WARNING  
INFORMATIONAL  
Criteria Operator (required)  
Valid operators are:  
This value identifies the  
arithmetic operator  
used with the criteria  
threshold to control  
what events are  
reported. The operator  
treats each severity  
level as a numeric value  
assigned as follows:  
%< (less than)  
%<= (less than or equal to  
)
> (greater than)  
>= (greater than or equal  
to)  
! (not equal to)  
Critical = 5  
Serious = 4  
Major warning = 3  
Minor warning = 2  
Informational = 1  
The event severity  
received is the left  
operand and the  
Criteria Threshold value  
is the right operand.  
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Startup Configuration File  
Table 5-3  
Startup Configuration File Entries  
Keyword  
Values  
Description  
Target Type (required)  
Valid values include:  
Identifies the method of  
notification used.  
UDP  
TCP  
OPC  
SNMP  
TEXTLOG  
SYSLOG  
EMAIL  
CONSOLE  
Target Type Modifier  
(required for the following target types)  
UDP  
Target UDP Host - hostname of the machine to which UDP event messages will be sent  
Target UDP Port - port number on the host that will be used for the network connection  
TCP  
Target TCP Host - hostname of the machine to which TCP event messages will be sent  
Target TCP Port - port number on the host that will be used for the network connection  
USERLOG  
Target USERLOG - name of the log file to which TCP event messages will be sent  
EMAIL  
Target EMAIL Address - email address of the recipient of the event messages  
Comment: (Optional)  
Any text string.  
An optional field which will be  
presented as user data in each  
event meeting this criteria.  
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Hardware Monitor Configuration Files  
Startup Configuration File  
Default File Entries  
The following default monitoring requests illustrate the structure of the entries in the startup configuration  
file.  
Table 5-4  
Default Monitoring Requests  
Description  
Entry  
MONITOR: /storage/events/disk_arrays/FW_SCSI  
Criteria Threshold: INFORMATION  
Criteria Operator: >=  
Entry to send all  
events to textlog  
Target Type: TEXTLOG  
Target TEXTLOG File: /var/opt/resmon/log/event.log  
MONITOR: /storage/events/disk_arrays/FW_SCSI  
Criteria Threshold: SERIOUS  
Criteria Operator: >=  
Entry to send  
SERIOUS and  
CRITICAL events to  
syslog  
Target Type: SYSLOG  
MONITOR: /storage/events/disk_arrays/FW_SCSI  
Criteria Threshold: SERIOUS  
Criteria Operator: >=  
Target Type: EMAIL  
Target EMAIL address: root  
Entry to send  
SERIOUS and  
CRITICAL events to  
email  
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Peripheral Status Monitor (PSM) Configuration File  
Peripheral Status Monitor (PSM) Configuration File  
Interaction between the PSM and a hardware event monitor is controlled by a PSM configuration file. This  
file defines what severity levels will result in DOWN status being reported, and what action, if any, is  
required to return the hardware to UP status. Any hardware event monitor that does not include a PSM  
configuration file will not be monitored by the PSM.  
NOTE  
When Do Changes Made to a PSM Configuration File Take Effect?  
The PSM checks its configuration files every 10 seconds, so any changes will be invoked when  
the file is checked. If the hardware configuration has changed and the PSM is communicating  
with all the monitors to determine what their resources are, it may take a few minutes for any  
changes to a configuration file to take effect.  
File Names  
The file naming convention for the PSM configuration files is:  
/var/stm/config/tools/monitor/monitorname.psmcfg  
monitornameis the name of the monitor executable.  
File Format  
The PSM configuration file contains a single entry using the following conventions:  
The entry consists of keywords defining the characteristic to be configured, followed by a value assigned  
to the keyword.  
There must be at least one space between the keyword and each value.  
Comments begin with the pound character (#) and continue until the end of the line. A comment may  
occur on a line by itself or after a blank space following the value for a keyword.  
Table 5-5 identifies the keywords that make up the entry in the PSM configuration file. The entry must  
contain the keywords identified as required.  
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Peripheral Status Monitor (PSM) Configuration File  
Considerations for Modifying the PSM Configuration File  
The only change you should consider making to the PSM configuration file is redefining the severity  
levels which cause a change to DOWN status. By default, SERIOUS and CRITICAL events will result in  
a DOWN status. If you want to include lower level events, or restrict the status change to just CRITICAL  
events, you can do so using the DOWN_SEVERITY_THRESHOLDand DOWN_SEVERITY_OPERATORsettings.  
NOTE  
Do not attempt to change the value of MONITOR_STATE_HANDLING. Changing this value may  
result in unpredictable results when attempting to reset the hardware status of the resource to  
UP.  
It is recommended that you not lower the severity levels that can cause a DOWNstatus. If you do,  
events that do not warrant a status of DOWNmay cause it to occur.  
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Peripheral Status Monitor (PSM) Configuration File  
Table 5-5  
PSM Configuration File Fields  
Keyword  
Values  
Description  
MONITOR_RESOURCE_NAME  
(required)  
A valid event  
monitor  
resource path  
name  
Identifies the hardware  
event monitor to which  
the entry applies Note:  
This must the first  
keyword in the file.  
PSM_RESOURCE_NAME  
(Optional)  
A valid PSM  
(status)  
resource path  
name  
This value should be  
related to  
MONITOR_RESOURCE_  
NAME.  
If not specified, the  
default will be created by  
replacing the word  
“events” in the  
MONITOR_RESOURCE_  
NAME with the word  
“status”.  
MONITOR_STATE_HANDLING  
(Optional)  
Identifies the type of state handling the  
monitor performs.  
Valid values include:  
NO_UP_CONTROL (Default) - the monitor  
uses the severity mapping of events to  
control the DOWN state as well as calling  
the appropriate API routines to send  
DOWN state messages to the PSM. The UP  
state will be controlled by the set_fixed(1m)  
command.  
UP_STATE_CONTROL- the monitor uses  
the severity mapping of events to control  
the DOWN state as well as calling the  
appropriate API routines to send DOWN  
state messages to the PSM. The monitor  
itself controls the UP state by calling the  
appropriate API routines to send UP state  
messages to the PSM.  
ALL_STATE_CONTROL - the monitor itself  
controls both states by calling the  
appropriate API routines to send UP and  
DOWN state messages to the PSM.  
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Peripheral Status Monitor (PSM) Configuration File  
Table 5-5  
PSM Configuration File Fields (Continued)  
Keyword  
Values  
Description  
DOWN_SEVERITY_THRESHOLD  
(Optional. This value is required if  
DOWN_SEVERITY_OPERATOR is  
specified)  
Valid values  
include:  
Defines the event severity  
level used with  
DOWN_SEVERITY_OPE  
RATOR  
CRITICAL  
SERIOUS (De  
fault)  
MAJOR_WAR  
NING  
MINOR_WAR  
NING  
INFORMATIO  
NAL  
DOWN_SEVERITY_OPERATOR  
(Optional)  
Valid values  
include:=  
!=  
Defines the operator used  
with the event severity  
and  
<
<=  
DOWN_SEVERITY_THR  
ESHOLD as operands.  
>
The event severity  
received is the left  
operand and the  
>= (Default)  
DOWN_SEVERITY_THR  
ESHOLD value is the  
right operand.  
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Peripheral Status Monitor (PSM) Configuration File  
Example File Entries  
The following examples illustrate the various types of file entries that can be made for the PSM monitor.  
Example 1: Use all default values. SERIOUS and CRITICAL event will cause DOWN status.  
MONITOR_RESOURCE_NAME: /storage/events/disks/default  
Example 2: Change the entry so MAJOR_WARNING events will also cause DOWN status.  
MONITOR_RESOURCE_NAME: /storage/events/disks/default  
DOWN_SEVERITY_THRESHOLD:  
DOWN_SEVERITY_OPERATOR: >=  
MAJOR_WARNING  
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Hardware Monitor Configuration Files  
Pushing EMS Hardware Monitors configuration to multiple systems  
Pushing EMS Hardware Monitors configuration to multiple systems  
To push EMS Hardware Monitors configuration to multiple systems, do the following:  
Do the configuration on one system via monconfig (creates appropriate  
/var/stm/config/tools/monitor/*.sapcfg)  
Do additional manual edits, if any, in the other configuration files:  
/var/stm/config/tools/monitor/*.cfg, default_*.clcfg  
/var/stm/config/tools/monitor/Global.cfg  
/var/stm/data/tools/monitor/  
NOTE  
The default values in these files work; it would only be if you had specific configurations  
you wanted to change and push out that you would need this step.  
For each system where the new configuration is desired, copy all /var/stm/config/tools/monitor/*.cfg,  
default_*.clcfg, *.sapcfg to new system except any file with the name “predictive” or “rst” (ISEE) or “ovfn”  
(HPEN) in it. Execute /etc/opt/resmon/lbin/startcfg_client to enable the new configuration.  
NOTE  
If OPC (OpenView) configuration is desired, the initial configuration must be done on a  
system where OPC is installed. Otherwise, it will not be available for use in monconfig.  
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Special Procedures  
6 Special Procedures  
This chapter describes the special procedures required for the Fibre Channel Arbitrated Loop Monitor  
(dm_fc_hub), and for the Fibre Channel Switch Monitor (dm_fc_sw).  
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Special Procedures  
Fibre Channel Arbitrated Loop Hub Monitor  
Fibre Channel Arbitrated Loop Hub Monitor  
History  
IPR 9902: Initial release  
Supported Products  
Fibre Channel Arbitrated Loop Hub Model A3724A  
Fibre Channel Arbitrated Loop Hub Model A4839A  
Special Requirements  
The FC-AL Hub monitor requires:  
Device Firmware revisions:  
Device Agent Firmware revision 2.14 or greater  
Hub Controller Firmware revision 3.06 or greater  
Firmware and installation instructions are available at http://www.software.hp.com  
C++ runtime support patches:  
10.20 PHSS_16585 (supersedes PHSS_14262)  
11.00 PHSS_16587 (supersedes PHSS_14577)  
Before using the hub monitor, edit the monitor configuration file,  
/var/stm/config/tools/monitor/dm_fc_hub.cfg, to indicate what hubs will be monitored. See  
Resource Path  
Event monitoring: /connectivity/events/hubs/FC_hub  
Status monitoring: /connectivity/status/hubs/FC_hub  
Executable File  
/usr/sbin/stm/uut/bin/tools/monitor/dm_fc_hub  
Monitor Behavior  
The monitor uses polling only with a default interval of 60 minutes.  
At initial startup the monitor does not retrieve any log information from the hub.  
PSM State Control  
The monitor does not support automatic state control. The set_fixedutility must be used to return a  
hardware resource to the UP state following a failure. See “Configuring the FC-AL Monitor Configuration  
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Special Procedures  
Fibre Channel Arbitrated Loop Hub Monitor  
Initial Monitor Configuration  
Unlike the other EMS Hardware Monitors, the FC-AL hub monitor requires some initial configuration before  
it will function. Because a FC-AL hub is not part of the host's configuration, the host cannot detect any hubs  
during startup. You must tell the hub monitor what hubs you want it to monitor. This is done by defining two  
settings in the hub monitor configuration file, HUB_COUNTand HUB_X_IP_ADDRESS.  
Configuring the FC-AL Monitor Configuration File  
To configure the FC-AL monitor configuration file complete the following steps:  
Step 1. Determine which hubs you want the monitor to be responsible for. Record the IP address for each of  
these hubs.  
Step 2. Open file /var/stm/config/tools/monitor/dm_fc_hub.cfgin an ASCII text editor.  
Step 3. Add the following line to the file:  
HUB_COUNT n  
Replace “n” with the value that reflects the number of hubs for which the monitor will be  
responsible. For example, the following line would monitor 5 hubs:  
HUB_COUNT 5  
Step 4. Add the following line to file:  
HUB_X_IP_ADDRESS nn.nn.nnn.nnn  
Change the placeholder “X” to the number 1, and replace the “nn” fields with the IP address of the  
hub that will be designated as hub 1.  
The completed line will look similar to the following:  
HUB_1_IP_ADDRESS 15.43.214.101  
Step 5. If multiple hubs will be monitored, replicate the line from step 4 for each hub, changing the hub  
number and IP Address for each. When you are done, the number of lines should equal the number  
defined in the HUB_COUNTsetting. For example, the following lines would configure the monitor for  
three hubs:  
HUB_COUNT 3  
HUB_1_IP_ADDRESS 15.43.214.101  
HUB_2_IP_ADDRESS 15.43.214.171  
HUB_3_IP_ADDRESS 15.43.214.184  
Step 6. Save the file.  
Step 7. To invoke the changes made to the hub configuration file, you must use the Enable Monitoring  
option of the Hardware Monitoring Request Manager, even if monitoring is already enabled. The  
Enable Monitoring option runs the startup client, which reads the contents of the configuration file  
and starts the hub monitor to begin monitoring of the FC-AL hubs. See “Enabling Hardware Event  
There are other settings in the configuration file that can be changed to customize the operation of the FC-AL  
hub monitor. These settings are defined in Chapter 5, “Hardware Monitor Configuration Files.”  
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Fibre Channel Arbitrated Loop Hub Monitor  
Adding or Removing an FC-AL Hub  
Adding or removing a hub from the monitor configuration involves changing the same configuration file  
settings described in the preceding procedure, HUB_COUNTand HUB_X_IP_ADDRESS.  
Changing the FC-AL Hub Monitoring Configuration  
To change the FC  
Step 1. Determine the IP address for each hub your are adding or deleting.  
Step 2. Open file /var/stm/config/tools/monitor/dm_fc_hub.cfgin an ASCII text editor.  
Step 3. Locate the following line in the file and change value “n” to reflect the new number of hubs to be  
monitored:  
HUB_COUNT n  
Step 4. If you are adding a hub, add the following line to file:  
HUB_X_IP_ADDRESS nn.nn.nnn.nnn  
Change the placeholder “X” to the number you want assigned to the hub (typically the next  
sequential number available), and replace the “nn” fields with the IP address of the hub.  
The completed line will look similar to the following:  
HUB_5_IP_ADDRESS 15.43.214.101  
Repeat this step for each hub you are adding.  
Step 5. If you are removing a hub, locate the HUB_X_IP_ADDRESSline for the hub to be removed and delete  
it from the file. If you deleting multiple hubs, delete the line for each one.  
Step 6. Save the file.  
Step 7. To invoke the changes immediately, run the Hardware Monitoring Request Manager and select the  
(E)nable Monitoring option. This option runs the startup client, which will cause the changes to the  
hub monitoring to take effect immediately. See “Enabling Hardware Event Monitoring” on page 42  
for more information.  
Alternatively you can do nothing and the changes will be made at the next hub polling interval  
when the monitor recognizes the changes and launches the startup client to invoke them  
Configuration Files  
Startup Configuration File  
File name: /var/stm/config/tools/monitor/dm_fc_hub.sapcfg  
Default Entries: The monitor uses the standard default monitor request entries shown in Table 5-4 on page  
100.  
Monitor Configuration File  
File name: /var/stm/config/tools/monitor/dm_fc_hub.cfg  
Default settings:  
Polling Interval: 60 minutes  
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Repeat Frequency: 1 day (1440 minutes)  
Severity Action: Notify for all levels  
The hub monitor also uses the following settings to configure the SNMP environment used by the hub. Note  
that two of these settings (HUB_COUNTand HUB_X_IP_ADDRESS) are required to indicate to the monitor what  
hubs should monitored. Changes that involve adding or deleting hubs to the configuration file while the  
monitor is running will be invoked at the next polling interval, or following the selection of the (E)nable  
Monitoring option from the Hardware Monitoring Request Manager (monconfig).  
Table 6-1  
PSM Configuration File Fields  
Default  
Value  
Setting  
Description  
HUB_COUNT value  
none  
Identifies the number of hubs (value) the monitor will  
be responsible for monitoring.  
This setting is required.  
HUB_X_IP_ADDRESS IP_address  
none  
Identifies the IP address for each hub the monitor will  
monitor. The “X” placeholder is replaced by the number  
assigned to the hub, and “IP_address” is replaced by the  
IP address of the hub. There must be a separate setting  
for each hub.  
This setting is required.  
SITE_SNMP_GET_COMMUNITY  
text  
HUB_X_SNMP_GET_COMMUNITY  
text  
public  
none  
none  
These settings define the SNMP community assigned to  
the hubs being monitored. The SITE setting is used for  
all hubs, unless overridden by a HUB_X setting for the  
specific hub identified by X.  
The text string cannot contain embedded spaces.  
SITE_LOCATION text  
HUB_X_LOCATION text  
These settings define the text string used to identify the  
hub location in log messages. The SITE setting is used  
for all hubs, unless overridden by a HUB_X setting for  
the specific hub identified by X.  
The text string cannot contain embedded spaces.  
SITE_CONTACT text  
HUB_X_CONTACT text  
These settings define the text string used to identify the  
contact person in log messages. The SITE setting is  
used for all hubs, unless overridden by a HUB_X setting  
for the specific hub identified by X.  
The text string cannot contain embedded spaces.  
SITE_SNMP_RETRY value  
HUB_X_SNMP_RETRY value  
3
2
These settings define the SNMP retry value in seconds.  
The SITE setting is used for all hubs, unless overridden  
by a HUB_X setting for the specific hub identified by X.  
Valid values are 1 - 5.  
SITE_SNMP_TIMEOUT value  
HUB_X_SNMP_ TIMEOUT value  
These settings define the SNMP timeout value in  
seconds. The SITE setting is used for all hubs, unless  
overridden by a HUB_X setting for the specific hub  
identified by X.  
Valid values are 1 - 5.  
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Special Procedures  
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Table 6-1  
PSM Configuration File Fields (Continued)  
Default  
Value  
Setting  
Description  
HUB_X_IS_MONITORED value  
1 (Yes)  
This setting determines if the indicated hub will be  
monitored.  
Valid values are 0 (No) and 1 (Yes).  
HUB_X_SYSNAME text  
none  
Identifies the hub's sysname if the hub's  
system.sysName value is not set.  
PSM Configuration File  
File name: /var/stm/config/tools/monitor/dm_fc_hub.psmcfg  
Default settings:  
PSM Resource Name: /connectivity/status/hubs/FC_hub  
State Handling: Requires the use of set_fixed to set UP state.  
DOWN state mapping: Serious and Critical map to DOWN.  
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Special Procedures  
Fibre Channel Switch Monitor  
Fibre Channel Switch Monitor  
History  
IPR 9904: Initial release  
Supported Products  
Gigabit Fibre Channel Switch Model A5223A  
Special Requirements  
The FC Switch monitor requires:  
C++ runtime support patches:  
10.20 PHSS_16585 (supersedes PHSS_14262)  
11.00 PHSS_16587 (supersedes PHSS_14577)  
Before using the switch monitor, edit the monitor configuration file,  
/var/stm/config/tools/monitor/dm_fc_sw.cfg, to indicate what switches will be monitored. See  
Resource Path  
Event monitoring: /connectivity/events/switches/FC_switch  
Status monitoring: /connectivity/status/switches/FC_switch  
Executable File  
/usr/sbin/stm/uut/bin/tools/monitor/dm_fc_sw  
Monitor Behavior  
The monitor uses polling only with a default interval of 60 minutes.  
At initial startup the monitor does not retrieve any log information from the switch.  
PSM State Control  
The monitor does not support automatic state control. The set_fixedutility must be used to return a  
hardware resource to the UP state following a failure. See “Using the set_fixed Utility to Restore Hardware  
UP State” on page 91, for more information.  
Initial Monitor Configuration  
Unlike the other EMS Hardware Monitors, the FC switch monitor requires some initial configuration before  
it will function. Because a FC switch is not part of the host's configuration, the host cannot detect any  
switches during startup. You must tell the switch monitor what switches you want it to monitor. This is done  
by defining two settings in the switch monitor configuration file, SW_COUNTand SW_X_IP_ADDRESS.  
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Special Procedures  
Fibre Channel Switch Monitor  
Configuring the FC Switch Monitor Configuration File  
To configure the FC switch monitor configuration file complete the following steps:  
Step 1. Determine which switches you want the monitor to be responsible for. Record the IP address for  
each of these switches.  
Step 2. Open file /var/stm/config/tools/monitor/dm_fc_sw.cfgin an ASCII text editor.  
Step 3. Add the following line to the file:  
SW_COUNT n  
Replace “n” with the value that reflects the number of switches for which the monitor will be  
responsible. For example, the following line would monitor 5 switches:  
SW_COUNT 5  
Step 4. Add the following line to file:  
SW_X_IP_ADDRESS nn.nn.nnn.nnn  
Change the placeholder “X” to the number 1, and replace the “nn” fields with the IP address of the  
switch that will be designated as switch 1.  
The completed line will look similar to the following:  
SW_1_IP_ADDRESS 15.43.214.101  
Step 5. If multiple switches will be monitored, replicate the line from step 4 for each switch, changing the  
switch number and IP Address for each. When you are done, the number of lines should equal the  
number defined in the SW_COUNTsetting. For example, the following lines would configure the  
monitor for three switches:  
SW_COUNT 3  
SW_1_IP_ADDRESS 15.43.214.101  
SW_2_IP_ADDRESS 15.43.214.171  
SW_3_IP_ADDRESS 15.43.214.184  
Step 6. Save the file.  
Step 7. To invoke the changes made to the switch configuration file, you must use the Enable Monitoring  
option of the Hardware Monitoring Request Manager, even if monitoring is already enabled. The  
Enable Monitoring option runs the startup client, which reads the contents of the configuration file  
and starts the switch monitor to begin monitoring of the FC switches. See “Enabling Hardware  
There are other settings in the configuration file that can be changed to customize the operation of the FC  
switch monitor. These settings are defined in Chapter 5, “Hardware Monitor Configuration Files.”  
Adding or Removing an FC Switch  
Adding or removing a switch from the monitor configuration involves changing the same configuration file  
settings described in the preceding procedure, SW_COUNTand SW_X_IP_ADDRESS.  
Changing the FC Switch Monitoring Configuration  
To change the FC switch monitoring configuration compete the following steps:  
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Special Procedures  
Fibre Channel Switch Monitor  
Step 1. Determine the IP address for each switch you are adding or deleting.  
Step 2. Open file /var/stm/config/tools/monitor/dm_fc_sw.cfgin an ASCII text editor.  
Step 3. Locate the following line in the file and change value “n” to reflect the new number of switches to be  
monitored:  
SW_COUNT n  
Step 4. If you are adding a switch, add the following line to file:  
SW_X_IP_ADDRESS nn.nn.nnn.nnn  
Change the placeholder “X” to the number you want assigned to the switch (typically the next  
sequential number available), and replace the “nn” fields with the IP address of the switch.  
The completed line will look similar to the following:  
SW_5_IP_ADDRESS 15.43.214.191  
Repeat this step for each switch you are adding.  
Step 5. If you are removing a switch, locate the SW_X_IP_ADDRESSline for the switch to be removed and  
delete it from the file. If you deleting multiple switches, delete the line for each one.  
Step 6. Save the file.  
Step 7. To invoke the changes immediately, run the Hardware Monitoring Request Manager and select the  
(E)nable Monitoring option. This option runs the startup client, which will cause the changes to the  
switch monitoring to take effect immediately. See “Enabling Hardware Event Monitoring” on  
page 42.  
Alternatively you can do nothing and the changes will be made at the next switch polling interval  
when the monitor recognizes the changes and launches the startup client to invoke them.  
Configuration Files  
Startup Configuration File  
File name: /var/stm/config/tools/monitor/dm_fc_sw.sapcfg  
Default Entries: The monitor uses the standard default monitor request entries shown in Table on page 120.  
Monitor Configuration File  
File name: /var/stm/config/tools/monitor/dm_fc_sw.cfg  
Default settings:  
Polling Interval: 60 minutes  
Repeat Frequency: 1 day (1440 minutes)  
Severity Action: Notify for all levels  
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Special Procedures  
Fibre Channel Switch Monitor  
The switch monitor also uses the following settings to configure the SNMP environment used by the switch.  
Note that two of these settings (SW_COUNTand SW_X_IP_ADDRESS) are required to indicate to the monitor  
what switches should monitored. Changes that involve adding or deleting switches to the configuration file  
while the monitor is running will be invoked at the next polling interval, or following the selection of the  
(E)nable Monitoring option from the Hardware Monitoring Request Manager (monconfig).  
Table 6-2  
PSM Configuration File Fields  
Default  
Setting  
Value  
none  
Description  
SW_COUNT value  
Identifies the number of switches (value) the  
monitor will be responsible for monitoring.  
This setting is required.  
SW_X_IP_ADDRESS IP_address  
none  
public  
none  
none  
Identifies the IP address for each switch the monitor  
will monitor. The “X” placeholder is replaced by the  
number assigned to the switch, and “IP_address” is  
replaced by the IP address of the switch. There must  
be a separate setting for each switch.  
This setting is required.  
SITE_SNMP_GET_COMMUNITY text  
SW_X_SNMP_GET_COMMUNITY text  
These settings define the SNMP community  
assigned to the switches being monitored. The SITE  
setting is used for all switches, unless overridden by  
a SW_X setting for the specific switch identified by  
X.  
The text string cannot contain embedded spaces.  
SITE_LOCATION text  
SW_X_LOCATION text  
These settings define the text string used to identify  
the switch location in log messages. The SITE  
setting is used for all switches, unless overridden by  
a SW_X setting for the specific switch identified by  
X.  
The text string cannot contain embedded spaces.  
SITE_CONTACT text  
SW_X_CONTACT text  
These settings define the text string used to identify  
the contact person in log messages. The SITE  
setting is used for all switches, unless overridden by  
a SW_X setting for the specific switch identified by  
X.  
The text string cannot contain embedded spaces.  
SITE_SNMP_RETRY value  
SW_X_SNMP_RETRY value  
1
1
These settings define the SNMP retry value in  
seconds. The SITE setting is used for all switches,  
unless overridden by a SW_X setting for the specific  
switch identified by X.  
Valid values are 1 - 5.  
SITE_SNMP_TIMEOUT value  
SW_X_SNMP_ TIMEOUT value  
These settings define the SNMP timeout value in  
seconds. The SITE setting is used for all switches,  
unless overridden by a SW_X setting for the specific  
switch identified by X.  
Valid values are 1 - 5.  
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Table 6-2  
PSM Configuration File Fields (Continued)  
Default  
Setting  
Value  
Description  
SW_X_IS_MONITORED value  
1 (Yes)  
This setting determines if the indicated switch will  
be monitored.  
Valid values are 0 (No) and 1 (Yes).  
SW_X_SYSNAME text  
none  
Identifies the switch's sysname if the switch's  
system.sysName value is not set.  
PSM Configuration File  
File name: /var/stm/config/tools/monitor/dm_fc_sw.psmcfg  
Default settings:  
PSM Resource Name: /connectivity/status/switches/FC_sw  
State Handling: Requires the use of set_fixed to set UP state.  
DOWN state mapping: Serious and Critical map to DOWN.  
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Index  
A
running, 41  
adding event monitoring requests, 46  
adding PSM monitoring requests, 82  
asynchronous event detection, 62, 67, 68  
default, 43  
defined, 39  
C
deleting, 56  
changing device status, 91  
checking detailed monitoring status, 54  
client configuration files, 95, 96  
configuration files  
modifying, 52  
client, 95, 96  
global, 94, 103, 115  
modifying, 102  
modifying PSM, 122  
modifying startup, 118  
monitor, 62  
monitor-specific, 94, 115, 116  
PSM, 121  
polling, 69  
startup, 63, 117, 120  
configuration files for hardware monitoring, 93  
configuring MC/Service Guard package dependencies  
modifying the configuration file, 81  
using SAM, 80  
console notification in EMS, 86  
copying PSM monitoring requests, 87  
creating event monitoring requests, 46  
creating PSM monitoring requests, 82  
supported by monitors, 33  
D
Fibre Channel Switch monitor, 133  
files involved in hardware monitoring, 64  
default event monitoring requests, 43  
deleting event monitoring requests, 56  
detailed description of hardware monitoring, 60  
devices  
G
glossary of terms, 21  
requirements for monitoring, 30  
supported, 30  
disabling hardware monitoring, 57, 66  
disk arrays supported by monitors, 30  
disks supported by monitors, 30  
benefits, 18  
E
configuration files, 93  
email notification in EMS, 85  
EMS monitoring requests, 82  
EMS monitoring requests parameters, 83  
notification comment, 86  
notification protocols, 84  
notify, 83  
polling interval, 84  
EMS notification protocol  
console, 86  
supported hardware, 19  
email, 85  
ITO, 84  
SNMP, 85  
syslog, 86  
TCP and UDP, 85  
textlog, 86  
enabling hardware monitoring, 42  
event decoding, 67  
event messages  
installing hardware monitoring, 28  
interface cards  
retrieving, 55  
event monitoring request manager, 61  
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Index  
L
startup configuration files, 63, 117, 120  
startup process for hardware monitoring, 65  
supported hardware, 19  
listing event monitoring requests, 44  
supported system configuration, 28  
syslog notification in EMS, 86  
system resources  
M
MC/Service Guard package dependencies, 79  
memory  
supported by monitors, 33  
memory monitor polling, 69, 71  
modifying configuration files, 102  
for PSM, 122  
for startup, 118  
modifying event monitoring requests, 52  
modifying PSM monitoring requests, 88  
monitor configuration files, 62  
monitor descriptions  
U
Fibre Channel Arbitrated Loop Hub, 128  
Fibre Channel Switch, 133  
supported by monitors, 33  
O
V
overview of PSM, 74  
verifying event monitoring requests, 53  
viewing event monitoring requests, 45  
viewing PSM monitoring requests, 90, 91  
P
package dependencies, 80  
polling  
event, 69, 70  
FC-AL Hub, 69  
memory monitoring, 69, 71  
PSM  
components, 77  
configuration files, 121  
configuration states, 77  
configuring MC/Service Guard package  
dependencies, 79  
how it works, 75  
overview, 74  
resource paths, 77  
using set_fixed utility, 91  
PSM monitoring requests  
copying, 87  
creating using EMS, 82  
modifying, 88  
parameters, 83  
removing, 89  
viewing, 90  
R
removing hardware monitors, 29  
removing PSM monitoring requests, 89  
request manager, 61  
requirements for monitoring, 30  
resdata, 55  
resource paths  
PSM, 77  
retrieving event messages, 55  
running event monitoring request manager, 41  
S
set_fixed utility, 91  
SNMP traps in EMS, 85  
140  
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