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IBM TotalStorage® Network Attached Storage 200
Models 201 and 226
ꢀꢁꢂ
User’s Reference
Release 2
GA27-4263-01
Contents
© Copyright IBM Corp. 2001
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Contents
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NAS 200 User’s Reference
About this book
This book provides information necessary to configure and administer the software
for the IBM 5194 TotalStorage Network Attached Storage 200 (Models 201 and
226).
Hereafter, this product is referred to as the NAS 200, unless otherwise noted.
Who should read this book
This book is for administrators of the NAS 200.
Note that although this product is relatively easy to install, configure, and
administer, the NAS 200 administrator should have experience in at least the
following skills, or have access to personnel with experience in the skills:
v Microsoft® Windows®
v Networking and network management
v Disk management
v General technologies of the product (such as storage, RAID, and so on)
v Critical business issues (such as backup, disaster recovery, security)
Frequently used terms
The following terms, used within this document or within the Safety Information,
have these specific meanings:
Term
Definition in this document
Attention
These notices indicate possible damage to programs, devices, or
data. An attention notice is placed just before the instruction or
situation in which damage could occur.
Caution
Danger
These notices indicate situations that can be potentially hazardous
to you. A caution notice is placed just before descriptions of
potentially hazardous procedure steps or situations.
These notices indicate situations that can be potentially lethal or
extremely hazardous to you. A danger notice is placed just before
descriptions of potentially lethal or extremely hazardous procedure
steps or situations.
Notes
These notices provide important tips, guidance, or advice.
Publications
The latest versions of the following product publications are available in softcopy at:
www.ibm.com/storage/support/nas
NAS 200 product library
The NAS 200 library consists of the following publications:
v Hardware Installation Guide GA27-4262
This book describes hardware physical specifications, electrical specifications,
cabling, environmental specifications, and networking specifications for installing
the NAS 200.
v User’s Reference GA27-4263
© Copyright IBM Corp. 2001
xi
This book describes such operational and administrative activities as:
– Using the configuration utilities
– Administering the NAS 200
– Troubleshooting
– Using the Recovery and Supplementary CDs
v Storage Unit Installation and User’s Guide GA27-4259
This book provides instructions for installing and replacing components in your
IBM 5194 TotalStorage Network Attached Storage Storage Unit. It also provides
information on troubleshooting the unit.
Hardcopy publications shipped with the NAS 200
The following publications are shipped in hardcopy and are also provided in
softcopy form at www.ibm.com/storage/support/nas/techdocs:
v Hardware Installation Guide, GA27-4262
v Release Notes
This document provides any changes that were not available at the time this
book was produced.
Related publications
The following publications contain additional information about the NAS 200:
v IBM 5194 TotalStorage Network Attached Storage 200 (Models 201 and 226)
Hardware Installation Guide GA27–4262
v IBM 5194 TotalStorage Network Attached Storage 200 (Models 201 and 226)
Service Guide GA27–0400
v IBM 5194 TotalStorage Network Attached Storage 200 (Models 201 and 226)
Storage Unit Installation and User’s Guide GA27–4259
v The following information is provided on the Documentation CD that came with
the appliance:
– ServeRAID Adapter Installation and User’s Guide
– UM Services User’s Guide
Web sites
The following Web site has additional and up-to-date information about the NAS
200:
v http://www.ibm.com/storage/nas
v http://www.ibm.com/storage/support/nas
xii NAS 200 User’s Reference
Chapter 1. Introduction
With the IBM TotalStorage Network Attached Storage (NAS) 200 (5194 Models 201,
226, and EXP), your enterprise will gain scalable, network-attached storage devices
that deliver excellent value, state-of-the-art systems management capabilities, and
task-optimized operating system technology. These NAS devices provide you with
increased performance, storage capacity, and functionality.
These models have been developed for workgroup or department environments
with file-serving requirements across Windows and NFS clients, e-business, and
small applications. In addition, these devices support Ethernet LAN environments
with large or shared end-user workspace storage, remote running of executables,
remote user data access, and personal data migration.
These new machines replace the IBM 5194 Models 200, 225, and EXU.
Enhancements provided by the new models include:
v Greater granularity in configuring storage size
v Double the maximum storage size
v More options in configuring Ethernet connections
v More options for tape backup
To help provide quick and easy installation, both NAS models have preloaded,
preconfigured, pretuned, and pretested operating systems, supporting system
management, and RAID management software. You can order the models as a
workgroup or department appliance depending on the specific use.
The Workgroup Model (Model 201) features:
v Compact tower configuration
v One 1.133 GHz processor; second (dual) processor optional
v 512 MB of ECC 133 MHz memory standard
v ServeRAID-4Lx, an economical, single-channel RAID controller
v One integrated 10/100 Ethernet connection
v A dual-channel, 160 MB/s Ultra 160 SCSI controller
v Three to six 36.4 GB HDD or 72.8 GB HDD (109.2 GB up to 436.8 GB)
The Departmental Model (Model 226) features:
v Rack-optimized configuration
v Two 1.133 GHz processors
v 1 GB of ECC 133 MHz memory standard
v ServeRAID-4H, a high function, four-channel RAID controller
v One integrated 10/100 Ethernet connection
v A dual-channel, 160 MB/s Ultra160 SCSI controller
v Configurable with three to six 36.4 HDD or three to six 72.8 GB HDD (218.4 GB
up to 436.8 GB)
v Expandable up to 3.49 TB using up to three IBM 5194 NAS Storage Unit Model
EXP
The preloaded software is based on the Windows Powered OS operating system,
which is very similar to Microsoft® Windows® 2000 Advanced Server. Preloaded
software includes:
© Copyright IBM Corp. 2001
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Microsoft Windows 2000 for Network Attached Storage
Enables remote administration of the appliance using a web-based
graphical user interface (GUI)
Microsoft Windows Terminal Services
Enables remote administration of the appliance using its Windows desktop
Microsoft Services for UNIX
Provides file access to UNIX and UNIX-based clients and servers via
Network File System (NFS) protocol
IBM Director Agent and Universal Manageability Server Extensions
Provides system management support based on industry standards (in
conjunction with the IBM Director console application as well as other
management software)
IBM Advanced Appliance Configuration Utility agent
Supports management via the IBM Advanced Appliance Configuration Utility
console application (supports aggregate web-based management of all of
your IBM appliances)
ServeRAID Manager RAID Configuration and Monitoring
Provides configuration tools and RAID management of the ServeRAID-4x
adapter
Intel PROSet II
Provides diagnostics for the Intel Ethernet adapters
Alacritech SLICuser
Provides diagnostics for the Alacritech Quad-port Ethernet adapter
Columbia Data Products® Persistent Storage Manager (PSM)
Provides 250 persistent images of customer data and enables full online
backup of system with Microsoft’s backup applications
Tivoli® Storage Manager Client
Provides data backup/archive support (in conjunction with Tivoli Storage
Manager Server)
Note: Note that both models are generically referred to as NAS 200 in the rest of
this document.
Roadmap for setting up and configuring the NAS 200
The following roadmap presents the requirements and instructions required to set
up and configure the NAS 200. Following these directions and referring to the
appropriate sections of this book will help you in this task.
Configuration and administration tools (“Chapter 2. Configuration and
The NAS 200 has several different methods of configuration depending on
your environment.
Determine how you will manage the device. You can manage the NAS 200
in “headless” mode or with a keyboard, display, and mouse directly attached
to each node. For “headless” management of the NAS 200, you can use
one of the following tools:
v Terminal Services, for remote configuration and management from
another device on the network
v Universal Manageability Services (UMS) for management through a web
browser
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NAS 200 User’s Reference
v Windows 2000 for NAS, a Web-based GUI for those not familiar with the
Windows desktop
v IBM Advanced Appliance Configuration Utility (IAACU) for setup and
configuring multiple devices or other appliances on a single network
Having determined how you will manage the NAS 200, you can begin setup
and configuration of the device.
Configure the NAS 200 to enable access over the network.
First, use DHCP or static addressing to set up one network connection. If
you are running with a keyboard, display, and mouse, set up a network
connection to access the device. If you are running in a headless
environment, you can use one of the following methods:
v If DHCP is installed and the IP address requested can be determined,
you can use this method for initial setup, but you should change this
address to static later in the configuration.
v If you have multiple appliances or cannot determine the DHCP address,
you can install the IAACU utility to identify appliances and define IP
addresses. The tool will also allow you to set static addresses.
The NAS 200 comes with preconfigured storage spanning the internal hard
disk drives:
v A RAID-level 1E array, for the System partition (drive letter will be C:)
v A RAID-level 1E array, for the Maintenance partition (drive letter will be
D:)
v A RAID-level 5 array, comprised of the remaining storage. This array
consists of a single logical unit number (LUN), for the Data drive (drive
letter will be E). The size of this (LUN) depends on the number and size
of hard disk drives that came with your NAS 200.
You can use the preconfigured Data drive, or delete it and configure new
storage.
At this point you can define users and file shares to the NAS 200, to allow
the storage to be accessed by clients and servers on the network.
Additional functions are available for such tasks as backup and creating
persistent images. It is recommended that once you complete the setup and
configuration procedures, you use the Persistent Storage Manager Disaster
up the system configuration in the event of a failure.
Chapter 1. Introduction
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NAS 200 User’s Reference
Chapter 2. Configuration and administration tools
Attention
Changing the preloaded software configuration of this product, including
applying or installing unauthorized service packs or updates to preinstalled
software, or installing additional software products that are not included in
either the preloaded image or on the Supplementary CD, may not be
supported and could cause unpredictable results. For updated compatibility
information, please see
http://www.ibm.com/storage/nas
To correct problems with a preloaded software component, back up your user
and system data. Then use the Recovery CD to restore the preloaded
software image.
The NAS 200 appliance comes with the following configuration programs that you
can use to configure and administer the appliance:
This chapter describes these tools in general and then in detail.
In addition to these primary tools, the NAS 200 offers several secondary
administrative tools:
suggests which tool you can use for specific functions, but does not list all options
or combinations. The administrator training-level or administrator preferences may
determine an alternate approach from that suggested in the table.
Using a keyboard, monitor, and mouse for setup and configuration
It is highly recommended that you directly attach a keyboard, monitor, and mouse to
the NAS 200 when:
v Initially setting up and configuring the device
v Changing or adding to RAID arrays (for example, adding a new array with
ServeRAID Manager, adding a new RAID controller, or adding a storage
expansion unit)
v Troubleshooting the device
© Copyright IBM Corp. 2001
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Table 1. Summary of configuration and administration tools for the NAS 200
Administration Tool Main functions
Windows Domain Controller (not NAS Users and user groups may be defined and authenticated by a Windows
appliance)
Domain Controller, although this is not required.
IBM Advanced Appliance
Configuration Utility
Access a headless NAS 200, particularly for the initial setup of the network
connectivity. (Alternatively, you can attach a keyboard, mouse, and display to
the NAS 200.)
v
v
v
Set time and date
Configure initial network connectivity parameters
Access to Windows 2000 for NAS GUI, Terminal Services (NAS Desktop),
and Universal Manageability Services
Windows 2000 for NAS GUI
Provides ease-of-use administration, but not all the capability of Terminal
Services and IBM NAS Administration
v
v
v
v
Configure networking connectivity
Create and format logical drives
Join domains
Setup access permissions and disk quotas for CIFS, NFS, HTTP, FTP,
Novell® NetWare®, and Apple Macintosh shares
v
Use Persistent Storage Manager
IBM NAS desktop and IBM NAS
Admin program, via a Terminal
Services session or a directly
connected keyboard and display
Provides in-depth administration of all aspects of NAS 200. Provides all of
the Windows 2000 for NAS GUI functions above, plus:
v
Use NAS Backup Assistant, or NTBackup and Restore wizard
Learn detailed inventory information about hardware, OS, and so on, using
Universal Manageability Services.
v
v
v
RAID configuration via ServeRAID Manager
–
–
Create RAID arrays and logical unit numbers (LUNs)
Add additional RAID or storage enclosure after initial purchase
Diagnose system problems
–
–
–
Check 10/100 or Gb Ethernet using PROSet II
Check RAID subsystem using ServeRAID Manager
Check Alacritech® Quad-Port Ethernet Adapter using SLICuser
Disaster Recovery
Recovery CD Set
Restores a previously saved PSM image of the system partition to a failed
machine. This will restore all configuration information on the machine. You
create the recovery boot diskette from the PSM tools in the Windows 2000
for NAS GUI.
Reinstalls the software to the original state as shipped on the machine;
however, does not restore configuration information (so configuration changes
you applied to the original shipped configuration are lost). You must first boot
with the Recovery Enablement Diskette, and then reboot with the Recovery
CD. To create the Recovery Enablement Diskette, run
\DiskImages\Recovdsk.bat on the Supplementary CD.
IBM NAS AutoRaid Diskette
Resets the RAID configuration to its original configuration, or to the
departmental configuration when you change from a workgroup (tower)
configuration to a departmental (rack) configuration.
Integrated System Management
Processor (ISMP) configuration
program
Configures the ISMP that is integrated on the planar. To create this diskette,
run C:\IBM\ASMP\UPDATES\32P0303.EXE on the NAS 200 operating
system volume.
Remote Supervisor Adapter (RSA)
configuration program
Configures the optional RSA. To create this diskette, run
C:\IBM\ASMP\UPDATES\33P2474.EXE on the NAS 200 operating system
volume.
Terminal Services Client
The Terminal Services Client, when installed on a workstation that is
attached to the same network as the NAS 200, enables you to remotely
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NAS 200 User’s Reference
administer the appliance using the NAS 200 desktop. If you are familiar with
administrative tasks using a Windows desktop, you can use Terminal
Services.
page 8 for more information.
IBM Advanced Appliance Configuration Utility (IAACU)
The IBM Advanced Appliance Configuration Utility (IAACU) aids in setting
up and reconfiguring the network configuration on your appliances. The
IAACU agent works with the IAACU Console to automatically detect the
presence of appliances on the network.
Once the appliance is detected by the IAACU Console, you can use the
IAACU to:
v Set up and manage the appliance’s network configuration, including
assigning the IP address, default gateway, network mask, and DNS
server to be used by the appliance.
v Start Universal Manageability Services on the appliance, enabling you to
do more advanced systems-management tasks
information.
Universal Manageability Services
Universal Manageability Services (UM Services) provides point-to-point
remote management of client systems through a Web browser window. You
can use UM Services to:
v Learn detailed inventory information about your computers, including
operating system, memory, network cards and hardware
v Track your computers with features such as power management, event
log, and system monitor capabilities
v Upwardly integrate with Tivoli Enterprise, Tivoli NetView®, Computer
Associates Unicenter, Microsoft SMS, and Intel® LANDesk Management
Suite
In addition, you can link to Windows 2000 for Network Attached Storage
and Terminal Services from UM Services.
Windows 2000 for Network Attached Storage
For administrators who are not familiar with the Windows operating
systems, the NAS 200 provides a Web-based GUI, Microsoft Windows 2000
for Network Attached Storage (Windows 2000 for NAS). Using Windows
2000 for NAS, you navigate through various administrative task categories
by clicking on the appropriate links or buttons, and then selecting a task
from that category.
information.
Detailed information about each of these configuration programs follows.
Chapter 2. Configuration and administration tools
7
Terminal Services and the IBM NAS Administration Console
If you are familiar with Windows operating systems, you can use Terminal Services.
In some cases, you must use Terminal Services to complete administrative tasks.
You can access Terminal Services in two ways:
2. By using the Terminal Services Client software.
To use Terminal Services Client, complete the following steps to install it on the
remote workstation and connect to your NAS 200 appliance:
1. Insert the Supplementary CD into the workstation CD-ROM drive.
2. Click Start → Run.
3. In the Open field, type (with quotes)
"x:\Terminal Services Client\Disk 1\setup.exe"
where x is the drive letter assigned to the CD-ROM drive. Then click OK to
begin the Terminal Services Client Setup program.
4. Accept the defaults in each window that opens or refer to the Microsoft
Windows documentation for more instructions. When the Terminal Services
Client Setup program is completed, proceed to the next step.
5. Check the workstation network TCP/IP protocol configuration settings.
Connecting to the desktop through Terminal Services
To connect to Terminal Services from your workstation, do the following:
1. Click Start → Programs → Terminal Services → Terminal Services Client.
2. In the Server field, select the computer name of the desired NAS 200 . If the
desired NAS 200 is not listed, enter the IP address or the computer name of the
NAS 200. The computer name is predefined as IBM5194-xxxxxxx, where
xxxxxxx is the serial number located in the lower right corner of the bezel on the
front of the appliance. If you have changed the computer name from the
predefined value, use that name instead.
For Size, select a size other than full screen in which the NAS 200 desktop will
appear, then click Connect to start the Terminal Services Client session. A user
log in window displays.
Log in. Type Administrator in the Username field, type password in the
password field, and then click OK to log in. Once you have logged in, you can
begin using Terminal Services Client to configure and manage your NAS 200.
Once you have logged into Terminal Services, you can perform administrative tasks
on the NAS 200, as if your keyboard, mouse, and monitor were directly attached to
it. The NAS 200 desktop contains a shortcut, titled IBM NAS Admin, to a special
console, the IBM NAS Administration console.
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NAS 200 User’s Reference
IBM NAS Administration console
The IBM NAS Administration console contains all of the standard functions that are
contained in the standard Computer Management console available on any
Windows 2000 desktop, plus the following functions specific to the NAS 200, as
v NAS Backup Assistant
v Persistent Storage Manager
v ServeRAID Configuration
Determining who is using the network-attached storage
Occasionally, the administrator may want to know who is using the
network-attached storage. The administrator can determine this information as
follows:
1. Start a Windows Terminal Services session from the administrator’s console to
the NAS 200.
2. Click on the IBM NAS Admin icon on the desktop.
3. In the left plane, click on File Systems, then Shared Folders, then Sessions.
4. The users currently using the storage are displayed. If necessary, you can close
those sessions with a right-click. Before you close a session, you can notify the
user that you are going to close the session by clicking on Start, Programs,
Accessories, Command Prompt, and then issuing the net send hostname
messagetext command.
IBM Advanced Appliance Configuration Utility
The IBM Advanced Appliance Configuration Utility (IAACU) helps you to set up and
reconfigure the network configuration on your NAS 200, as well as other IBM
appliances.
The IAACU agent, preinstalled on your NAS 200, works with the IAACU Console, a
Java™-based application that is installed on a remote workstation. You can use the
agent and console as a systems-management device to automatically detect the
presence of NAS 200 appliances on the network. Once the NAS 200 appliance is
detected by the IAACU Console, use the IAACU to set up and manage the
appliance’s network configuration, including assigning the IP address, default
gateway, network mask, and DNS server to be used by the appliance. You can also
use the IAACU to start Universal Manageability Services (UM Services) on the
appliance, enabling you to perform more advanced systems-management tasks.
For networks that are not currently running DHCP servers, the IAACU is useful for
automatically configuring network settings for newly added appliances, such as the
NAS 200.
However, networks with DHCP servers will also benefit from using the IAACU
because it enables you to reserve and assign the appliance IP address in an
orderly, automated fashion. Even when you use DHCP and do not reserve an IP
address for the appliance, you can still use the IAACU to discover appliances and
to start UM Services Web-based systems-management.
Notes:
1. The Advanced Appliance Configuration configures and reports the TCP/IP
settings of the first adapter on each appliance only. The first adapter is typically
Chapter 2. Configuration and administration tools
9
the built-in Ethernet controller. Be sure to connect the built-in Ethernet connector
to the same physical network as your systems management console.
2. The Advanced Appliance Configuration Utility must be running to configure
newly installed appliances automatically.
3. The system running the Advanced Appliance Configuration Utility console
automatically maintains a copy of its database (ServerConfiguration.dat) in the
Advanced Appliance Configuration Station installation directory. To remove
previous configuration data, close the Advanced Appliance Configuration Utility,
delete this file, and then restart the utility. This deletes all previously configured
Families. However, the Advanced Appliance Configuration Utility will
automatically discover connected appliances and their network settings.
IAACU Agent
Once you connect the NAS 200 to your network, the IAACU agent automatically
reports the appliance’s serial number and type, the MAC address of its onboard
Ethernet controller, and whether DHCP is in use by the appliance. Furthermore, it
will report the hostname, primary IP address, subnet mask, primary DNS server
address, and primary gateway address if these are configured on the system.
The IAACU agent is preinstalled on your NAS 200 appliance.
Note: The IAACU agent periodically broadcasts the appliance IP settings. To
prevent the service from broadcasting this data periodically, stop the
iaaconfig service.
IAACU Console
The IAACU Console is a Java application that you install on one remote workstation
in your network for use as a systems-management console. For information on how
Note: The IAACU creates a private database that is specific to the IP subnetwork
to which it is attached. Therefore, do not install it on more than one
systems-management console residing on the same IP subnetwork.
The IAACU Console enables you to:
v Automatically discover NAS 200 appliances, as well as other IBM appliances,
that run the IAACU agent and are attached to the same physical subnet as the
IAACU Console.
When you start the IAACU Console, it automatically detects all appliances on
your physical subnet that are running the IAACU agent.
v Use a GUI-based application to configure the appliance network settings.
Use the IAACU to assign network parameters such as IP addresses, DNS and
gateway server addresses, subnet masks, and hostnames.
v Group discovered appliances into function-specific Families. Appliances are
added to a Family based on the appliance type. Appliances that perform the
same function appear in the same Family. (Note that all NAS 200 appliances are
in the same family.)
v Start UM Services Web-based systems-management console.
Launch UM Services on your appliances and perform advanced
systems-management tasks on a selected appliance with a single mouse click.
The IAACU Console is divided into two panes:
10 NAS 200 User’s Reference
v The Tree View Pane
The Tree View Pane, located on the left side of the IAACU Console window,
presents a list of all discovered NAS 200 appliances and includes any Families
you have previously defined. The Tree View Pane also includes groups for
appliances that do not fit any of the defined Families, that were not configured
using the IAACU, or that have IP addresses that conflict with other devices on
your network. When you click on any item in the Tree View, information about
that item (and any items that are nested below that item in the tree view)
displays in the Information Pane.
v The Information Pane
The Information Pane, located at the right side of the IAACU Console, displays
information about the item that is currently selected in the Tree View Pane. The
information that displays in the Information Pane varies depending on the item
that is selected. For example, if you select the All Appliances item from the Tree
View Pane, the Information Pane displays configuration information (IP settings,
hostname, serial number, and so on) about each of the NAS 200 appliances that
have been discovered by the IAACU Console. However, if you select a Family,
the Information Pane displays information about the Family settings for the
selected Family.
The IAACU Console also features the following menus:
v File: Use the File menu to import or export the IAACU Console configuration
data, to scan the network, or to exit the program.
v Family: Use the Family menu to add or delete Families, or to move Families up
or down in the tree view.
v Appliance: Use the Appliance menu to remove a previously discovered
appliance from a Family or group, and to add an appliance to the first matching
Family in the tree view.
v Help: Use the Help menu to display product information.
Discovering NAS 200 Appliances
Any NAS 200 appliance, or other IBM appliance, that is running and is connected to
the same subnet as the system running the IAACU Console is automatically
discovered when you start the IAACU Console. Discovered appliances appear in
the IAACU Console tree view (in the left pane of the IAACU Console window). Each
appliance will appear in two locations in the tree view:
1. Every discovered appliance is listed in the tree view under All Appliances.
2. Each discovered appliance will also appear in one of the following portions of
the tree view:
v In a Family
If the discovered appliance fits the requirements of a Family, it will
automatically appear as part of a Family.
Note: If a discovered appliance fits the requirements of more than one
Family, it is automatically added to the first appropriate Family that is
listed in the tree view, starting from the top of the tree. For information
v In the Orphaned Appliances group
If the discovered appliance does not fit a previously configured Family, it is
placed in the Orphaned Appliances group.
v In the Orphaned Externally Configured Appliances group
Chapter 2. Configuration and administration tools 11
Appliances that are running the IAACU agent, but that have a network
configuration that was not set by the IAACU agent or console, will appear in
the Orphaned Externally Configured Appliances group. If an appliance is
contained in the Orphaned Externally Configured Appliances group, you can
use the Adopt By First Matching Family function to add it to a previously
Using Families and Groups in the Tree View
Families are important elements of the IAACU. They specify the parameters that the
IAACU uses to automatically categorize discovered appliances and to configure
them with the appropriate network settings. Family rules are defined solely by
appliance type or purpose. Each Family can contain only one type of appliance.
The only way to automatically apply predetermined network settings to newly
installed and discovered appliances is to create and use Families.
Appliances that match the rules criteria for a Family group can be automatically
configured to use predefined network settings. A Family can be configured to allow
appliances to use DHCP to configure their IP settings, or can be defined to
automatically assign IP settings (such as primary gateway and DNS server
addresses, assigning an IP address from a specified IP address range, and
specifying a subnet mask). Host names for discovered appliances can also be
defined so that they are allocated using either a prefix or appliance serial number.
The IAACU is not the only way to configure network settings. For example, network
settings can be configured using Terminal Services for Windows or by attaching a
keyboard and mouse to the appliance and using Windows Control Panel. If the
appliance network settings have been configured by a method other than using the
IAACU, the appliance will be discovered by the IAACU and it will be added to an
appropriate Family, if one exists. Appliances that have been configured using a
method other than the IAACU for which no appropriate family exists will appear in
the Orphaned Externally Configured Appliances group.
The Tree View Pane contains the following items:
v All Appliances
Every discovered appliance is listed in the tree view under All Appliances.
v Families
The Families group in the Tree View Pane shows all Families that have been
defined, with appliances that have already been assigned to each Family nested
beneath the Family name in the tree view. Families are defined by appliance
purpose, so all appliances that appear in a given family are of the same type. If
you select a Family from the Tree View Pane, a description of the Family and the
rules that are used to define the selected Family display in the Information Pane.
If you select an appliance from a Family in the Tree View Pane, the selected
appliance network settings display in the Information Pane.
If you are not using DHCP, the IAACU automatically assigns one IP address per
appliance, using available addresses within the range defined in the Family rules.
When a Family’s IP address range has been exhausted, the IAACU automatically
searches for other Families that have rules matching the appliance being
configured. If a matching Family with an available address is found, the appliance
will automatically be assigned to the Family that has available IP addresses. This
enables you to define multiple Families, each of which uses a set of
non-contiguous IP address ranges.
When an appliance is discovered on the network, the IAACU automatically
searches all previously defined Families, starting with the first Family listed in the
12 NAS 200 User’s Reference
Families tree view and moving downward. Appliances are automatically added to
the first defined Family that matches the appliance purpose. Therefore, the order
in which Families appear is important. To adjust this search order, right-click on a
Family and then select Move Up or Move Down to adjust its position within the
Families list.
v Orphaned Appliances
Any discovered appliances that have been configured using the IAACU but that
do not meet the rules for any existing Family are automatically added to the
Orphaned Appliances group.
v Orphaned Externally Configured Appliances
Any discovered appliance that has been configured without using the IAACU tool
and that does not meet the rules for any existing Family is automatically added to
the Orphaned Externally Configured Appliances group. Appliances configured
without the IAACU that meet the rules for any existing Family are automatically
added to the matching Family. To add an Orphaned Externally configured
Appliance to an appropriate Family that was created after the orphaned
appliance was discovered, right-click on the orphaned appliance and select
Note: The IAACU will not change manually configured network settings of
discovered appliances. If the manually configured IP and Subnet
addresses fit an existing Family, the IAACU will place that appliance into
that Family, but will not change any other settings (such as Host Name,
DNS, or gateway addresses).
v Conflicting Network Addresses
Any discovered appliance that has the same IP address as a previously
discovered appliance will be listed in the Conflicting Network Addresses group.
Creating a Family: To create a Family:
1. Select Create Family from the Family menu.
The IAACU Family Setup window displays.
2. Select the Appliance Family Rules.
The Appliance Family Rules determine what purpose an appliance must serve
to be included in the Family. You can select one of the following values:
v IBM TotalStorage NAS Appliances
v IBM xSeries 130 and 135
You should select IBM TotalStorage NAS Appliances for a family that is to
include your NAS 200.
3. Specify a Family name.
In the Family Name field type the name that will be used for this Family.
4. Specify network resources to be used by members of the Family.
You can use the IAACU to assign network resources for members of this
Family, or you can use a DHCP server to assign network resources.
v To use the IAACU to assign network resources, uncheck the Use DHCP
checkbox and fill in the following fields:
Min IP Address
The lowest IP address in a range of IP addresses that can be
assigned to an appliance that is a member of this Family
Chapter 2. Configuration and administration tools 13
Max IP Address
The highest IP address in a range of IP addresses that can be
assigned to an appliance that is a member of this Family
Subnet Mask
The subnet mask value that will be used by appliances that are
members of this Family
Default Gateway
The IP address of the default gateway that will be used by appliances
that are members of this Family (optional)
DNS The IP address of the DNS server that will be used by appliances
that are members of this Family (optional)
v To use a DHCP server to assign network resources, check the Use DHCP
checkbox. This will allow a DHCP server on your network to assign an IP
address and subnet mask and to specify the default gateway address and
address of the DNS server that will be used by appliances that are members
of this Family.
5. Select a Host Name Allocation Type.
The Host Name Allocation Type enables you to automatically specify a Host
Name that members of this Family will use. You can select one of the following
Host Name Allocation Types:
No Allocation
No preconfigured host name format will be assigned to appliances that
are members of this family.
Use Serial Number
The Serial Number of the discovered appliance will be used as a host
name for the appliance.
Use Prefix Name
A user-specified prefix, along with an incremental number for each
appliance, will be used for the host name of each appliance that is a
member of this Family. Type the desired prefix in the Host Name Prefix
field.
6. Click OK to save this Family.
Removing Appliances from Families: Use the Remove Appliance function to
delete an appliance from the IAACU Console database and view pane. Removing
an appliance that is no longer in use allows the IP address that was assigned to the
appliance to be allocated to another appliance. You can also remove an appliance
from a family and then rescan the network to add it to an appropriate Family that
appears higher in the Tree View pane.
To remove an appliance, right-click on the appliance, and then select Remove
Appliance from the pop-up menu.
v If the IAACU is unable to communicate with the selected appliance (because, for
example, it has been removed from the network or has failed), the appliance is
removed immediately.
v If the IAACU is able to communicate with the selected appliance, you will be
asked to confirm removal of the appliance before the appliance removal task is
completed. This helps prevent accidental removal of an active and functional
appliance.
Using the Adopt by First Matching Family Function: Use this function to:
14 NAS 200 User’s Reference
v Add an Orphaned Externally Configured Appliance to an appropriate Family.
Appliances that have been configured without using the IAACU tool and that do
not meet the rules for any existing Family are automatically added to the
Orphaned Externally Configured Appliances group. If, after the orphaned
appliance is discovered, you create a Family that is appropriate for the orphaned
appliance, right-click on the orphaned appliance and select Adopt by First
Matching Family to move the appliance from the Orphaned Externally
Configured Appliances group to the newly created Family.
v Move an appliance from one Family to another appropriate Family that occurs
higher in the list of previously defined Families. If there is more than one
appropriate Family for a newly discovered appliance, it automatically appears in
the first appropriate Family in the list of Families. If you want to move a
discovered appliance from one appropriate Family to another appropriate Family:
1. Right-click on the Family that you want the appliance moved to.
2. Select Move Up in List to move the selected Family up in the list of families.
Repeat steps 1 and 2 until the Family that you want to add the appliance to
displays above the Family that currently contains the appliance.
3. Right-click on the appliance that you want to move to another Family and
then select Adopt by First Matching Family.
Universal Manageability Services
The Universal Manageability Services (UM Services) GUI enhances the local or
remote administration, monitoring, and maintenance of IBM systems. UM Services
is a lightweight client that resides on each managed computer system. With UM
Services, you can use a Web browser and UM Services Web console support to
inventory, monitor, and troubleshoot IBM systems on which UM Services is
installed.
This “point-to-point” systems-management approach, in which you use a Web
browser to connect directly to a remote client system, enhances support and
enables you to effectively maintain IBM systems without requiring the installation of
additional systems-management software on your administrator console.
In addition to point-to-point systems-management support, UM Services also
includes support for UM Services Upward Integration Modules. These modules
enable systems-management professionals who use any supported
systems-management platform (including Tivoli Enterprise, CA Unicenter TNG
Framework, and Microsoft Systems Management Server [SMS]) to integrate
portions of UM Services into their systems-management console. Because it was
designed to use industry-standard information-gathering technologies and
messaging protocols, including Common Information Model (CIM), Desktop
Management Interface (DMI), and Simple Network Management Protocol (SNMP),
UM Services adds value to any of these supported workgroup or enterprise
systems-management platforms.
Complete documentation on how to use UM Services is included on the
Documentation CD that came with the appliance.
System requirements
The UM Services client is preinstalled on the NAS 200 appliance. However, you
must have a Web browser installed on your systems-management console. It is
recommended that you set Microsoft Internet Explorer 5.x (or later) as the default
browser.
Chapter 2. Configuration and administration tools 15
Notes:
1. You must install the optional Java Virtual Machine (VM) support to access a
client system running UM Services.
2. If you reinstall Internet Explorer after installing UM Services, you must reapply
the Microsoft VM update. The UM Services client requires Microsoft VM Build
3165 or later. Download the latest Microsoft VM from:
http://www.microsoft.com/java
3. If you install UM Services before you install Microsoft Management Console
(MMC) 1.1 (or a later version), you will not have an icon for Microsoft
Management Console in the IBM Universal Manageability Services section of
your Start menu.
Starting UM Services
You can use IAACU or Terminal Services Client to configure the network setting
remotely, or you can attach a keyboard and mouse to your appliance and configure
the Network settings using the Windows Control Panel. Once you have configured
the network settings for your appliance, you are ready to use UM Services.
To start UM Services:
1. Start your Web browser and then, in the Address or Location field of the
browser, enter:
http://ip_address:1411
where ip_address is the IP address of the NAS 200 and then press Enter.
Or, type:
http://computer_name:1411
where computer_name is the computer name of the NAS 200. The computer
name is predefined as: IBM5194-xxxxxxx, where xxxxxxx is the serial number
located in the lower right corner of the bezel on the front of the appliance.
If you have changed the computer name from the predefined value, use that
name instead. After you have entered the computer name, press Enter.
2. A user log in window displays. Type Administrator in the Username field, and
type password in the Password field. You can leave the Domain field blank.
Make sure the “Save this password in your password list ” checkbox is not
checked, and then click OK.
Note: To ensure system security, change the Administrator password from
“password” to something else. Once you do, or if you create another user
in the Administrator group in the future, use your new
username/password combination instead of the default
username/password combination.
The first time you connect you may be prompted to install XML and Swing
components. Follow the on-screen instructions to install these components and
then close and restart Internet Explorer before you proceed.
3. You are now connected to the NAS 200 through UM Services. In addition to the
standard UM Services functionality, your appliance includes functionality for
administering the appliance, available from the Appliances tab in the left pane of
the UM Services browser. The default view (in the right pane of the UM
Services browser) when you connect to your appliance is Windows 2000 for
16 NAS 200 User’s Reference
NAS. The other selectable view in the Appliances tab is Windows 2000 Terminal
Services, which displays a Terminal Services Web Connection page.
To start Windows 2000 for NAS, click Administer this server appliance in the
right pane of the UM Services browser. To connect to the NAS 200 and manage
it as though you were running Terminal Services Client from your desktop,
select Terminal Services in the Appliances tab of the UM Services browser,
and then follow the instructions for connecting to the NAS 200 using Terminal
Launching UM Services from the configuration utility
You can use the IAACU to launch UM Services on your NAS 200 appliance.
Note: The selected appliance must be running Universal Manageability (UM)
Services as a UM Services client. Also, the systems-management console
(the system that is running the IAACU Console) must use a Web browser
that is supported for use with UM Services. If you have not used UM
Services from this system, you will need to install several plug-ins before
proceeding. If you are using an unsupported browser, or if your browser
does not have the necessary plug-ins, you will be notified when you attempt
to launch UM Services on the appliance. For more information on UM
Services, go to:
http://www.ibm.com/pc/ww/software/applications/ums/library.html
To use the IAACU Console to start UM Services on an appliance:
1. Click on the appliance in the IAACU Console Tree View Pane.
When you select the appliance from the tree view, information about the
selected appliance displays in the Information Pane. A Start Web-Based
Management button displays as well.
2. Click Start Web-Based Management.
Your default Web browser starts, loading the UM Services browser
automatically.
instructions.
For more information on using UM Services to manage your appliances, see the
Universal Manageability Services User’s Guide, included on the Documentation CD
that came with the appliance.
Windows 2000 for Network Attached Storage
You can perform the appliance administration tasks with the Windows 2000 for
Network Attached Storage GUI. You navigate through various administrative task
categories by clicking on the appropriate links on pages or buttons at the top of the
page, and then selecting the task from that category.
Online help is available for Windows 2000 for NAS. This online help can be
accessed in two ways:
1. By clicking the Help button at the top of any Web page. This will display a table
of contents which you can navigate to find help for any Windows 2000 for NAS
task.
2. By clicking the question mark (?) button at the top of any Web page. This will
display context-sensitive help for the task you are currently performing.
Chapter 2. Configuration and administration tools 17
While you can perform most administrative tasks using Windows 2000 for NAS,
there are some advanced tasks for which you must use Terminal Services Client.
more information.
You can start Windows 2000 for NAS in one of three ways:
2. From a Web browser, by entering http://ip_address:8099 or
http://computer_name:8099 and then logging on to the NAS 200.
3. From the NAS 200 desktop while using Terminal Services Client and starting a
browser.
Telnet Server support
CAUTION:
When you Telnet to another machine, your user name and password are sent
over the network in plain, unencrypted, text.
The NAS 200 includes Telnet server capability. The Telnet server provides limited
administrative capability for the NAS 200. This may be useful in cases where you
need to remotely administer the NAS 200, but do not have access to a
Windows-based workstation (from which you could remotely administer the
appliance via a supported Web browser or Terminal Services Client).
You can access the NAS 200 from any Telnet client by specifying the IP address or
hostname of the NAS 200, then logging in using an ID and password (defined on
the NAS 200) with administrative authority. Once you have logged in, you will be
presented with a command-line interface similar to that of a DOS command prompt
in Windows (in fact, it will start at the C:\ prompt). From this interface, you can issue
DOS-like commands (such as dir and cd), and some UNIX-like commands (such
as grep and vi). You can launch some applications, but only character-mode
applications are supported.
By default, the Telnet server is disabled. To enable the Telnet server, from the
Windows 2000 for NAS user interface, go to the Network task group, then select
Telnet. On the Telnet Administration Configuration page that appears, put a check
in the Enable Telnet access to this appliance check box. Later, if you wish to
disable Telnet access, you can uncheck Enable Telnet access to this appliance. If
you do not require Telnet access to the NAS 200, then it is recommended that you
leave the Telnet server disabled.
SNMP support
Support for the Simple Network Management Protocol (SNMP) is enabled. In order
to manage the NAS 200 from your SNMP-capable management application, you will
need to install the Management Information Base (MIB) files for various
components of the NAS 200 on the management application workstation, so that
the application can recognize those SNMP elements (values, alerts, etc.) supported
by the components. Go to www.storage.ibm.com/nas for information on MIB files
that are supported by the NAS 200.
18 NAS 200 User’s Reference
Chapter 3. Getting started
This chapter presents a recommended minimal procedure to quickly set up,
configure, and administer your appliance. These instructions refer specifically to a
base configuration as shipped and do not cover the setup of additional storage
units, which are purchased separately.
Methods for setting up your NAS 200
The following sections detail how to set up your NAS 200. You first need to ensure
that the network recognizes the new appliance. The appropriateness of the method
you use to do this depends on several conditions:
v If you are operating in “headless” mode (that is, without a keyboard, monitor, and
mouse directly attached to the unit), you can use one of the following methods:
– Windows Terminal Services
If DHCP is installed and the IP address requested can be determined, you
can use this method for initial setup, but you should change the address to
static later in the configuration. This condition is most appropriate for use of
Windows Terminal Services for operation of the NAS 200.
– IBM Advanced Appliance Configuration Utility
If you have multiple appliances or cannot determine the DHCP address, you
can install the IAACU to identify appliances and define IP addresses. The tool
will also allow you to set static addresses.
v Using a keyboard, display, and mouse is most appropriate when there is a single
or few appliances in the network and you use static setup and definition.
Installing the IBM Advanced Appliance Configuration Utility
These instructions assume that you have installed and powered on the appliance
according to the installation guide procedures. You are now ready to install the IBM
Advanced Appliance Configuration Console application from the Supplementary CD.
Note: The Advanced Appliance Configuration Utility creates a private database that
is specific to the IP subnetwork to which it is attached. Therefore, do not
install it on more than one systems management console residing on the
same IP subnetwork.
Install the Advanced Appliance Configuration console application from the
Supplementary CD onto a Windows NT 4.0 (or more recent version) or Windows
2000 workstation that is attached to the same IP subnetwork to which the appliance
is attached. The Advanced Appliance Configuration icon will be placed on the
workstation desktop.
For information on how to install the Advanced Appliance Configuration Utility
© Copyright IBM Corp. 2001
19
After you have installed the Advanced Appliance Configuration console application,
the following steps will take you to the point where you can administer the
appliance.
1. Start the Advanced Appliance Configuration console application by clicking its
icon.
2. On the left pane of the Advanced Appliance Configuration console, select the
appliance you want to administer. Initially, the appliance will be named
IBM5194-serial number, which is located in the lower right corner of the bezel
on the front of the appliance.
3. Click the Start Web Management button at the bottom of the right pane of the
Advanced Appliance Configuration console to start the Universal Manageability
(UM) Services browser. This will open a separate Web browser.
To read more information on the Advanced Appliance Configuration Utility, see
Accessing Universal Management Services
1. You will be prompted to authenticate with administrative user name
(“Administrator”) and password (initially “password”, but you will need to change
this later).
If this is the first time you have accessed the UM Services browser (on any
appliance) from this workstation, you will also be prompted to install the Swing
and XML Java libraries in your Web browser.
2. The UM Services browser will start. In the left pane, Microsoft Windows 2000
for Network Attached Storage will be automatically selected, on the Appliance
tab. In the right pane, Windows 2000 for Network Attached Storage will start.
3. Again, you will be prompted to authenticate with administrative user name
(“Administrator”) and password (initially “password”, but you will need to change
this later).
4. Click Administer this server appliance to bring up the Microsoft Windows
2000 for Network Attached Storage GUI.
You are now ready to begin administering the appliance. Details for this task are
Initial setup and configuration
This section provides details on the initial setup and configuration of the NAS 200.
Note that if you are administering the NAS 200 without a keyboard, monitor, and
mouse (“headless” mode), there are one of two methods that you can use:
v Windows 2000 for Network Attached Storage, which provides a subset of the full
In general, you administer the appliance by adjusting information contained in the
following task groups:
Note: In this example, you access the task groups through the Windows 2000 for
Network Attached Storage Web-based GUI.
20 NAS 200 User’s Reference
Although you can modify multiple appliance and network attributes in each task
group, the information given here is the minimum you need to know to administer
the appliance and network.
You can find more information on administration elsewhere in this book and in the
online help.
Note that the icons for the task groups on the administration home page are not in
the same order as presented here.
You can access these task groups in one of three ways:
1. Click the Home tab and then select the task group link.
2. Click the top tab associated with that task group.
3. Click the Back button on your browser until you arrive Home and then select
the task group link.
Maintenance (Date and Time)
In the Maintenance task group, you will need to change the date and time. To do
so, click on Date and Time or the green arrow. (Remember that you can also
access all of these task groups by clicking on the titled tabs at the top of the page.)
The Set Date and Time page appears to allow you adjust information as necessary.
Network Setup
Note: All appliances have an initial default User Name of “administrator” and
Password of “password”.
In the Network Setup task group, you are required to change the administrator
password. Optionally, you can configure the properties of each network interface
that resides on the appliance.
To change the administrator password, click on Change Administrator Password
or the green arrow. The Change Administrator Password page appears to allow you
to change the password. Note the warning on the page that any information you
enter can be viewed by others on the network. To prevent others from seeing your
information, set up a secure administration Web site as described in the online help.
To optionally change interface properties such as IP addresses, click on Interfaces
or the green arrow. The Network Adapters on Server Appliance page appears. You
would use this page primarily to change IP addresses from dynamic (DHCP, which
is the system default) to static.
You can then select the network adapter you want to modify, and then choose one
of the following tasks related to that adapter:
v IP, to modify IP configurations
v DNS, to modify DNS configurations
v WINS, to modify WINS configurations
Enabling National Language Support (NLS)
Through the Windows 2000 for NAS GUI or the Windows desktop, you can set up
the NAS 200 interface to display in any of the following languages:
Chapter 3. Getting started 21
v French
v German
v Japanese
v Spanish
Using Windows 2000 for NAS, open the Maintenance task group, select Language,
pick one of the four languages noted above, and then restart the machine.
Using the desktop, select: Start → Settings → Control Panel → Regional Settings.
22 NAS 200 User’s Reference
Chapter 4. Storage configuration
This chapter gives the details for setting up and configuring the NAS 200 storage.
ServeRAID configuration
This section gives details on configuring the ServeRAID adapter.
RAID technology
RAID technology allows you to group several physical drives into an array that you
can define as one or more logical drives. Each logical drive appears to the
operating system as a single drive. This grouping technique greatly enhances
logical-drive capacity and performance beyond the physical limitations of a single
physical drive.
For an overview of RAID technology, see Chapter 3 ″Understanding RAID
technology″ in the ServeRAID-4x Ultra160 SCSI Controller publication, which is
included on the Documentation CD that came with your appliance.
Table 2. Standard features of ServeRAID-4Lx and ServeRAID-4H
Feature
ServeRAID-4Lx (Model 201) ServeRAID-4H (Model 226)
Arrays (maximum)
Battery-backup cache
Cache memory
8
8
No
Yes
16 MB
128 MB
Logical drives (maximum)
SCSI channels
8
8
1
4
SCSI transfer speed
(maximum)
160 MB/sec
160 MB/sec
Supported RAID levels
0, 1, 5, Enhanced-1 (1E),
0, 1, 5, Enhanced-1 (1E) and
and Enhanced-5 (E5), 00, 10, Enhanced-5 (E5), 00, 10,
1E0, 50
1E0, 50
System PCI data bus
64–bit at 33 MHz
64–bit at 33 MHz
Updating the ServeRAID BIOS, firmware, and device drivers
The NAS 200 preloaded software ships with the required BIOS, firmware and
device drivers. You do not need to load or update any of these items. Should
replacement software be required, it will be available online as described in the
Storage Unit Installation and User’s Guide GA27-4259.
Attention: Because the NAS 200 hardware and software is preconfigured as a
high-performance network-attached storage appliance, you should not update the
BIOS, firmware, or device drivers using the procedures described in the
ServeRAID-4x Ultra160 SCSI Controller publication.
Functionality not needed and not supported in the NAS 200
Because the ServeRAID hardware and software is used in several IBM products,
note that the ServeRAID-4x Ultra160 SCSI Controller publication refers to the
following items that are not applicable and not supported on the NAS 200:
© Copyright IBM Corp. 2001
23
v Failover
v Clustering
v Other operating systems
Solving ServeRAID problems
For a complete description of how to diagnose ServeRAID problems see Chapter
18, “Solving ServeRAID problems” in the ServeRAID-4x Ultra160 SCSI Controller
publication.
If you need help on your NAS 200, you should follow the support instructions as
described in the Storage Unit Installation and User’s Guide GA27-4259 appendix.
Because the NAS 200 is a preconfigured system, do not use the information
described in Chapter 19 of the ServeRAID-4x Ultra160 SCSI Controller publication.
Initial storage configuration of the NAS 200
The NAS 200 comes with preconfigured storage, formatted as follows:
v A RAID-level 1E array, for the System partition (drive letter will be C:)
v A RAID-level 1E array, for the Maintenance partition (drive letter will be D:)
v A RAID-level 5 array, comprised of the remaining storage. This array consists of
a single LUN, for the Data drive (drive letter will be E). The size of this LUN
depends on the number and size of hard disk drives that came with your NAS
200.
Attention: Note that although you will be using files in the System and
Maintenance drives, it is strongly recommended that you do not repartition them.
Doing so could wipe out important data and seriously impair the functioning of your
system. Repartitioning is advised ONLY for the Data drive.
You can use the preconfigured Data drive, or delete it and configure new storage. If
the preconfigured storage is agreeable with your requirements, you can proceed
need to complete the steps in this chapter.
Creating arrays and logical drives
You configure RAID disk arrays and logical drives on your NAS 200 using the
ServeRAID Manager. With ServeRAID Manager, you can configure and manage the
storage mounted in the NAS 200 itself (the internal hard disk drives), in addition to
the storage mounted in any IBM 5194 TotalStorage NAS 200 Storage Unit
enclosures.
To start ServeRAID Manager, click the IBM NAS Admin icon, and then open the
Storage folder and double-click ServeRAID Manager.
For details on how to use the ServeRAID Manager, see the following sections in
Chapter 4, “Understanding RAID technology” in the ServeRAID-4x Ultra160 SCSI
Controller publication:
v Configuring the ServeRAID controller
v Using the ServeRAID manager program
Considerations for configuring the arrays and logical drives for the NAS 200:
24 NAS 200 User’s Reference
1. It is recommended that all arrays used for data drives are RAID-5, though other
RAID levels are supported.
2. All disk drives in a single array must be of the same size (36.4 GB and 72.8 GB
disk drives are supported by the NAS 200, but the two sizes cannot be mixed in
a single array).
3. The preconfigured arrays for the System (C:) and Maintenance (D:) drives (both
RAID-1E) must not be deleted.
Format the logical drives
Attention: Disk 0 and Disk 1 that appear in the Disk Management application
described in the following procedure represent the System and Maintenance
partitions described earlier in this chapter. As a further reminder, do not delete or
reformat these partitions.
Follow this procedure to format logical drives:
1. Open IBM NAS Admin and select Disk Management (Local), in the Storage
folder.
2. You will see a Write Signature and Upgrade Disk Wizard pop up on the screen.
Click Cancel.
3. Right-click on the area in the bottom of the right pane, where it says Disk 2,
and select Write Signature.
4. Repeat the previous step for all other data disks (Disk 3, Disk 4, and so on).
5. On each data disk:
a. Right-click and select Create Partition and click Next.
b. Select Primary Partition and click Next.
c. Select the entire disk size and click Next.
d. Specify NTFS as the file system, and specify whatever name you want to
assign to the partition.
e. Click Finish. Do not enable disk compression, and select Finish.
6. Assign a drive letter of E for the first drive, G for the second drive, H for the
third drive, and so on. Drive letter F will remain assigned to the CD-ROM drive.
Chapter 4. Storage configuration 25
26 NAS 200 User’s Reference
Chapter 5. Completing setup
This chapter gives the details for setting up the NAS 200 so clients and servers on
your network can access the storage.
v If Windows clients and servers will access your storage, follow the steps in
v If UNIX and UNIX-based clients and servers will access your storage, follow the
v If both Windows and UNIX clients and servers will access your storage, you will
Defining Windows users and groups
This section describes how to set up Windows users and groups who will access
the NAS 200 storage.
You may define Windows users and groups locally on the NAS 200. Alternatively,
you can add the NAS 200 to an existing Windows domain that is controlled by a
Primary Domain Controller (PDC), and define new users and groups on the PDC
who can access the NAS 200 storage and/or allow existing users and groups to
access the NAS 200 storage.
Defining local Windows users and groups
If you are defining local Windows users and groups, you may use the Windows
2000 for Network Attached Storage user interface. In the Users task group, you
create and manage local users and groups on the NAS 200. Clicking on Users
takes you to the Users page. From this page you can create, edit, and delete local
users and groups on the NAS 200 by clicking either Local Users or Local Groups.
To create new local users, do the following:
1. Click Local Users.
2. Click New...
3. Fill in user name, password, and description (optional).
4. Click OK. The new user name should appear in the list of user names.
6. When you are finished adding new users, click Back to return to the Users and
Groups page.
To create new local groups, do the following:
1. Click Local Groups.
2. Click New....
3. Fill in group name and description (optional).
4. Click Members.
5. For each user you wish to add to the group, select the user name from the list
of users, and then click Add.
© Copyright IBM Corp. 2001
27
6. Click OK. The new group name should appear in the list of group names.
If your storage is also going to be accessed by UNIX or UNIX-based clients and
Giving storage access to Windows domain users and groups
You must first join the NAS 200 to the Windows domain. You may use the Windows
2000 for Network Attached Storage user interface to do this. Start the Windows
2000 for Network Attached Storage user interface, then do the following:
v Click Network.
v Click Identification.
v Select the radio button labeled Domain, and specify the name of the domain
being joined.
v Specify a user name and password that can be used to log on to the domain.
v Click OK.
v Shut down and restart the NAS 200.
Users and groups already defined in the domain can now be given access to any
file shares that you create on the NAS 200. If you need to add new users and
groups to the domain, consult the online documentation on the PDC for information
on performing this procedure, or if you are not the administrator of the domain
(PDC), contact the domain administrator to have the users and groups defined.
If your storage is also going to be accessed by UNIX or UNIX-based clients and
Defining UNIX users and groups
This section describes how to set up UNIX users and groups who will access the
NAS 200 storage via the Network File System (NFS) protocol.
Support for NFS is provided in the NAS 200 by a preloaded and preconfigured
software component, Microsoft Services for UNIX. The levels of NFS supported by
Services for UNIX, and in turn the NAS 200, are NFS Versions 2 and 3. Any client
or server that is using an NFS software stack supporting NFS Version 2 or NFS
Version 3, regardless of the operating system, should be able to connect to the
NAS 200 and access its storage via NFS.
You administer NFS file shares and other attributes with standard Windows
administration tools, including those provided as part of the IBM NAS desktop, and
the Microsoft Windows 2000 for NAS user interface. Additional configuration of the
User Name Mapping component of Services for UNIX, which maps the UNIX user
name space to the Windows user name space, is required to support NFS security.
You can define a local UNIX name space on the NAS 200 by configuring the Server
for PCNFS component of Services for UNIX. Alternately, you can point Services for
UNIX to an existing Network Information Service (NIS) domain which defines the
UNIX name space. In both cases, you will need to configure the User Name
Mapping component to map the UNIX name space you select to the Windows
name space, since file shares and individual file/directory permissions on the NAS
200 are defined in the context of the Windows name space.
28 NAS 200 User’s Reference
Using a local UNIX name space
This procedure should only have to be performed once. You may have to add more
groups and users in the Server for PCNFS page if you add more users and groups
to your UNIX environment and NAS 200 or Windows domain at a later time.
1. Open the IBM NAS Administration console by double-clicking the IBM NAS
Admin icon on the NAS desktop.
2. In the left pane, click the plus sign (+) next to File Systems, then click the plus
sign next to Services for UNIX.
3. In the left pane, click Server for NFS.
4. In the right pane, in the Computer name: field, enter localhost.
5. In the left pane, click Server for PCNFS.
6. In the right pane, click Groups.
7. On the Groups page, you will need to add the groups from your UNIX host to
which all of your UNIX users belong. You will need to know both the group
name and the group ID (GID) number. This information can be found in the
/etc/group file on most UNIX systems.
As an example, on an AIX system, in the following line from an /etc/group file,
the fields are separated by a colon (:). The first field (″staff″) is the group
name; the third column (″1″) is the GID:
staff:!:1:pemodem,ipsec,netinst,protcs
You add a group by entering the group name and GID number in the Group
name and Group number (GID) fields, respectively, and then clicking New.
8. When you have finished adding groups, click Apply.
9. Click Users.
10. On the Users page, you will need to add all of the UNIX users who will be
accessing and storing files on the NAS 200 through an NFS share. For each
user you will need to know the Windows user name, the UNIX user name, the
primary group, and the user ID (UID) number. This information can be found in
the /etc/passwd and /etc/group files on most UNIX systems.
As an example, on an AIX system, in the following line from an /etc/passwd
file, the fields are separated by a colon (:). The first field (″user1″) is the user
name; the third field (″3135″) is the UID, and the fourth field (″1″) is the GID of
the user’s primary group. This will correspond to a line in the /etc/group file,
where you can find the primary group name corresponding to the GID.
user1:!:3135:1:User 1:/home/user1:/bin/ksh
You add a user by clicking New, entering the required information, and then
clicking OK.
11. When you have finished adding users, click Apply.
12. In the left pane, click User Name Mapping.
13. In the right pane, click the radio button next to Personal Computer Network
File System (PCNFS).
14. In the Password file path and name field, enter
c:\winnt\system32\drivers\etc\passwd.
Chapter 5. Completing setup 29
15. In the Group file path and name field, enter
c:\winnt\system32\drivers\etc\group, then click Apply.
16. Click Maps.
17. On the Maps page, you can configure simple maps or advanced maps.
Configure simple maps if the Windows user name and UNIX user name is the
same for each UNIX user to be mapped, and the Windows group name and
UNIX group name is the same for each UNIX group to be mapped. Otherwise,
you should configure advanced maps.
To configure simple maps, check the Simple maps checkbox and continue with
and continue with Step 19.
18. Under the Simple maps checkbox, select the Windows domain name from the
are defined locally on the NAS 200, select the entry containing the computer
name of the NAS 200, preceded by two backslash characters (“\\”). Otherwise,
select the name of the Windows domain where the users are defined from the
list.)
19. Under Advanced maps, do the following:
a. Define user mappings as follows:
1) Click Show user maps.
2) Select the Windows domain name from the drop-down list. (If your
Windows users are defined locally on the NAS 200, select the entry
containing the computer name of the NAS 200, preceded by two
backslash characters (“\\”). Otherwise, select the name of the Windows
domain where the users are defined from the list.)
3) Click Show Windows Users to display all of the Windows user names
in the Windows domain you selected.
4) Click Show UNIX Users to display all of the UNIX user names in the
NIS domain you selected.
5) Enter a Windows user name, or select one from the list of Windows
user names.
6) Enter a UNIX user name to be mapped to the Windows user name you
specified, or select one from the list of UNIX user names.
7) Click Add to add the mapping between the UNIX user name and
Windows user name to the list of maps.
8) If multiple Windows user names are mapped to one UNIX user name,
you must select one Windows user name to be the primary user name.
Select the mapping corresponding to the primary user name from the
list of maps, and then click Set Primary.
b. Define group mappings as follows:
1) Click Show group maps.
2) Select the Windows domain name from the drop-down list. (If your
Windows users are defined locally on the NAS 200, select the entry
containing the computer name of the NAS 200, preceded by two
backslash characters (“\\”). Otherwise, select the name of the Windows
domain where the users are defined from the list.)
3) Click Show Windows Groups to display all of the Windows group
names in the Windows domain you selected.
4) Click Show UNIX Groups to display all of the UNIX group names in
the NIS domain you selected.
5) Enter a Windows group name, or select one from the list of Windows
group names.
6) Enter a UNIX group name to be mapped to the Windows group name
you specified, or select one from the list of UNIX group names.
30 NAS 200 User’s Reference
7) Click Add to add the mapping between the UNIX group name and
Windows group name to the list of maps.
8) If multiple Windows group names are mapped to one UNIX group
name, you must select one Windows group name to be the primary
group name. Select the mapping corresponding to the primary group
name from the list of maps, and then click Set Primary.
20. Click Apply.
Using the UNIX name space on an NIS domain
The following procedure applies whether your NIS server is UNIX-based or
Windows-based (implemented as a Windows domain controller running Microsoft’s
Server for NIS).
1. Open the IBM NAS Administration console by double-clicking the IBM NAS
Admin icon on the NAS desktop.
2. In the left pane, click the plus sign (+) next to File Systems, then click the plus
sign next to Services for UNIX.
3. In the left pane, click Server for NFS.
4. In the right pane, in the Computer name: field, enter localhost.
5. In the left pane, click User Name Mapping.
6. In the right pane, click the radio button next to Network Information Services
(NIS), then click Maps.
7. On the Maps page, you can configure simple maps or advanced maps.
Configure simple maps if the Windows user name and UNIX user name is the
same for each UNIX user to be mapped, and the Windows group name and
UNIX group name is the same for each UNIX group to be mapped. Otherwise,
you should configure advanced maps. To configure simple maps, check the
maps, uncheck the Simple maps checkbox and continue with Step 9.
8. Under the Simple maps checkbox, do the following:
a. Select the Windows domain name from the drop-down list. (If your
Windows users are defined locally on the NAS 200, select the entry
containing the computer name of the NAS 200, preceded by two backslash
characters (“\\”). Otherwise, select the name of the Windows domain where
the users are defined from the list.)
b. In the NIS domain box, enter the NIS domain name. You may also enter
the name of a specific NIS server in the NIS server box.
9. Under Advanced maps, do the following:
a. Define user mappings as follows:
1) Click Show user maps.
2) Select the Windows domain name from the drop-down list. (If your
Windows users are defined locally on the NAS 200, select the entry
containing the computer name of the NAS 200, preceded by two
backslash characters (“\\”). Otherwise, select the name of the Windows
domain where the users are defined from the list.)
3) In the NIS domain field, enter the NIS domain name. You may also
enter the name of a specific NIS server in the NIS server field.
4) Click Show Windows Users to display all of the Windows user names
in the Windows domain you selected.
5) Click Show UNIX Users to display all of the UNIX user names in the
NIS domain you selected.
Chapter 5. Completing setup 31
6) Enter a Windows user name, or select one from the list of Windows
user names.
7) Enter a UNIX user name to be mapped to the Windows user name you
specified, or select one from the list of UNIX user names.
8) Click Add to add the mapping between the UNIX user name and
Windows user name to the list of maps.
9) If multiple Windows user names are mapped to one UNIX user name,
you must select one Windows user name to be the primary user name.
Select the mapping corresponding to the primary user name from the
list of maps, and then click Set Primary.
b. Define group mappings as follows:
1) Click Show group maps.
2) Select the Windows domain name from the drop-down list. (If your
Windows users are defined locally on the NAS 200, select the entry
containing the computer name of the NAS 200, preceded by two
backslash characters (“\\”). Otherwise, select the name of the Windows
domain where the users are defined from the list.)
3) In the NIS domain field, enter the NIS domain name. You may also
enter the name of a specific NIS server in the NIS server field.
4) Click Show Windows Groups to display all of the Windows group
names in the Windows domain you selected.
5) Click Show UNIX Groups to display all of the UNIX group names in
the NIS domain you selected.
6) Enter a Windows group name, or select one from the list of Windows
group names.
7) Enter a UNIX group name to be mapped to the Windows group name
you specified, or select one from the list of UNIX group names.
8) Click Add to add the mapping between the UNIX group name and
Windows group name to the list of maps.
9) If multiple Windows group names are mapped to one UNIX group
name, you must select one Windows group name to be the primary
group name. Select the mapping corresponding to the primary group
name from the list of maps, and then click Set Primary.
10. Click Apply.
Creating shares
To create new file shares on the NAS 200, do the following:
1. Start the Windows 2000 for Network Attached Storage user interface.
2. Click the Shares tab.
3. Click the Shares task.
4. Click New....
5. Specify the share name (the name which clients and servers will use to access
the share).
6. Specify the share path, and check the Create folder if it does not already exist
checkbox.
7. By default, the Microsoft Windows (CIFS) and UNIX (NFS) checkboxes are
checked (enabled). If this share is not to be accessed by Windows clients and
servers, uncheck (disable) the Microsoft Windows (CIFS) checkbox. If this
share is not to be accessed by UNIX clients and servers, uncheck the UNIX
(NFS) checkbox.
8. If this share is to be accessed by
32 NAS 200 User’s Reference
v Windows clients and servers, then click CIFS Sharing and specify access
permissions as desired. (Note that by default, every user has full access to
all files and directories under the shared folder.)
v UNIX clients and servers, then click NFS Sharing and specify access
permissions as desired. (Note that by default, every user has full access to
all files and directories under the shared folder.)
9. Click OK. The new share should appear in the list of shares.
create.
Chapter 5. Completing setup 33
34 NAS 200 User’s Reference
Chapter 6. Additional administrative functions
This chapter describes the additional administrative functions that you can do on
the NAS 200.
The following functions are available:
Network Attached Storage user interface
Alacritech SLICuser
NAS Backup Assistant
The NAS Backup Assistant is a preloaded utility that helps you create and schedule
backup batch files, and maintain log files. It can be used for backing up either the
NAS 200 operating system or user data.
You invoke the NAS Backup Assistant by clicking on the IBM NAS Admin desktop
icon to open the IBM NAS Administration console. Select Backup and Restore to
expand that tree, then select IBM NAS Backup Assistant. Once you have selected
this option, a logon prompt appears. You will need to log on as a user who has
backup operator privilege (that is, as an administrator or backup administrator).
Because NAS Backup Assistant only creates and launches scripts, and is not a
comprehensive backup application, it does not support interactive error messages.
To check status of jobs, you must either view the Backup Logs or view the Windows
Event Viewer. If a logon prompt does not appear, right-click on the IBM NAS
Backup Assistant link, and select refresh. Once you log on, the main panel
appears.
There are four tabs on the main panel:
Backup Operations
The main window where you create and schedule backup batch jobs.
Scheduled Jobs
Displays a list of backup batch jobs that you scheduled.
Backup Logs
Displays a list of log files for each backup that has run.
Displayed Logs
Displays the text contained in the log files that you can select from the
Backup Logs tab.
All of the options on each tab are described in detail in the online help. To access
the online help, click on the IBM NAS Admin icon, then expand the Backup and
Restore directory, then select IBM NAS Backup Assistant Help and log in.
Restoring using the NT Backup panel
To restore backups, use the following procedure:
1. Note these two conditions:
v If you are restoring a backup that you created using the standard backup
method, go to step 2 on page 36.
© Copyright IBM Corp. 2001
35
v If you are restoring a backup that you created using Persistent Images in
the NAS Backup Assistant, the NT Backup file (*.BKF) was created for the
persistent image virtual drive letter instead of the original drive letter. For
example, if you selected drive C for backup, a persistent image was created
on the next available drive letter in the system, and that drive was backed
up instead of drive C. If you do not remember the original drive letter, you
can view the backup log files in NAS Backup Assistant. The top section of
the log file gives you the original drive letter, and the bottom section gives
you the persistent image drive letter. Now that you have the original drive
letter, go to step 2.
2. Click on the Restore using NT Backup link in the Backup and Restore
section of the IBM NAS Admin console to open the backup GUI.
3. Click Restore Wizard, then click Next.
4. You are asked what you want to restore. Select the appropriate media that you
are restoring from.
5. If you are restoring from tape, expand the backup media pool name, and then
double-click on the media (this will normally be named media created on {date
- time}). This action will read the set list from the tape.
If you are restoring from file, click the Import File... button, then click Browse
and find the .BKF file created for this backup. If you do not know the .BKF file
name, refer to the backup log in NAS Backup Assistant. Click OK. You will now
have a Media created on {date - time} listed under file. Click on the plus sign
(+) to the left of this media to see the set list. You may be prompted to enter
the path to the file you want to catalog; if so, select the same file that you just
imported. This will build a set list.
6. Select the files and directories you want to restore by placing a check in the
corresponding check box.
7. In the bottom left corner of the window, there is an option called Restore files
to:. Using the pull-down, select Alternate Location. In the alternate location
window, select the root directory of the original backup drive letter you
determined in step on page 35.
8. If desired, select Tools from the menu bar at the top of the window, then
select Options to change restore options. Refer to NTBackup online help (see
Restore files from a file or a tape) for use of these options.
9. Once you have selected the files or directories for restore, the alternate
location, and options, click the Start Restore button in the lower right corner.
10. You will now be prompted to confirm that you want to begin the restore. You
can click the Advanced button to select advanced options (see the NTBackup
online help for details), then click OK to begin the restore.
Persistent Images
A persistent image is a copy you make of one or more file system volumes at a
specific time. The Persistent Images function allows the recovery of a file or volume
to the state it was in at the time you created the persistent image. Persistent
images are maintained in a way that minimizes the storage required to keep a
second (or third or fourth, and so on) copy of the volume. This is done by using a
copy-on-write technique that uses, for each volume, an area of pre-allocated
storage (the PSM cache file) that keeps only those data blocks which have been
written since the time you made a persistent image of the volume.
Persistent Storage Manager (PSM) allows you to create and preserve images of the
NAS 200 drives. You can take a persistent image immediately or schedule
36 NAS 200 User’s Reference
persistent images as one-time events or regularly repeated events. You can access
the PSM tasks in the Disks/Persistent Storage Manager task group within the
Windows 2000 for Network Attached Storage user interface, in one of two ways:
v By going to the IBM NAS Admin console on the appliance desktop (via Terminal
Services or directly-attached keyboard, monitor, and mouse) and selecting
Persistent Storage Manager (this automatically launches the Windows 2000 for
Network Attached Storage user interface and brings up the Disks/Persistent
Storage Manager page containing the PSM tasks).
v By starting the Windows 2000 for Network Attached Storage user interface
directly
Once you create a persistent image, it appears as a directory on the original drive.
Access rights and permissions from the original drive are inherited by the persistent
image. Persistent images are used in the same way as conventional drives.
However, unlike conventional drives, persistent images are records of the content of
the original drive at the time you created the persistent image. Persistent images
are retained following shutdown and reboot.
There are six PSM tasks in the Disks/Persistent Storage Manager group:
v Global Settings
v Volume Settings
v Persistent Images
v Schedules
v Restore Persistent Images
v Disaster Recovery
Each of these tasks are described in the following sections. More detailed
descriptions and instructions for each of the control panels and topics are contained
in the online help.
Global Settings
On this panel you can configure the following attributes of the persistent image
function:
Attribute:
Default value:
250
Maximum number of persistent images
Inactive period
5 seconds
15 minutes
Inactive period wait timeout
Volume Settings
This panel displays statistics for each volume, such as total volume capacity, free
space, and cache file size and usage. You can also select any volume and
configure volume-specific PSM attributes for that volume, such as:
Attribute:
Default value:
80 percent full
90 percent full
Cache-full warning threshold
Cache-full persistent image deletion threshold
Cache size
15 percent (of the total volume
capacity)
Chapter 6. Additional administrative functions 37
Persistent Images
This panel lists all of the persistent images that exist on all volumes. On this panel
you can:
v Create a new persistent image immediately (without scheduling it via the
Schedules panel).
v Delete an existing persistent image.
v Modify properties of an existing persistent image, including read-only or
read-write, and retention value.
When you create the persistent image, you can specify properties for the persistent
image, including:
Volume(s)
The persistent image can contain a single volume
or multiple volumes. To select multiple volumes,
hold down the Ctrl key while clicking on the
volumes you wish to select. For multi-volume
persistent images, a virtual directory containing data
for a volume will appear under the persistent image
directory in the top level of each volume in the
persistent image (the name of the persistent image
directory is configured in the Global Settings panel).
Name
You can name the persistent image. This will be the
name of the virtual directory containing the
persistent image, underneath the persistent image
directory in the top level of the volume (the name of
the persistent image directory is configured in the
Global Settings panel).
Read-only or read-write
A persistent image is read-only by default, so no
modifications can be made to it. However, you can
set the persistent image to read-write, which
permits you to modify it. When a persistent image is
written, the modifications made are also persistent
(they survive a reboot of the system). Changing a
persistent image from read-write to read-only resets
the persistent image to its state at the time you took
the persistent image, as does selecting Undo
Writes for a read-write persistent image from the
Persistent Images panel.
Retention value
A persistent image can be given a relative retention
value or weight. This is important when PSM needs
to delete some persistent images for a volume
because the cache file for the volume for which the
persistent image was taken capacity has reached a
certain threshold, as described later in this section.
If the volume cache file completely fills, then all
persistent images for that volume are deleted
regardless of the retention values. By default, a
new persistent image is assigned a “Normal”
retention value (there are other higher and lower
values which can be selected).
38 NAS 200 User’s Reference
Schedules
Use this panel to schedule persistent images to be taken at specific times (this is
independent of the scheduled backup function via NAS Backup Assistant described
earlier). Each PSM schedule entry defines a set of persistent images to be taken
starting at a specified time and at a specified interval, with each image having the
set of properties defined in the entry. This allows you to customize scheduled
persistent images on a per-volume basis.
For instance, you could set a persistent image for one volume to occur every hour,
and for another volume to occur only once a day. The set of properties you can
define are the same properties described in the Persistent Images panel description
above; when you define these properties, all persistent images created according to
this schedule entry will be given those properties. Once a scheduled persistent
image is created, certain properties of that persistent image can be modified via the
Persistent Images panel, independently of other persistent images created
according to the schedule.
Once a schedule entry is created, it appears in the list of scheduled persistent
images. Subsequently you can modify the properties of an existing entry, such as
start time, repetition rate, the volume(s), and so on. For a schedule you can name
the persistent images based on a pattern you configure; format specifiers (defined
on the New Persistent Image Schedule panel under the Persistent image name(s)
entry field) allow you to customize variable portions of the name.
Restore Persistent Images
On this panel, you can select an existing persistent image and quickly restore the
volume contained in the image back to the state it was in at the time the selected
persistent image was taken. This is useful if you need to recover an entire volume,
as opposed to just a few files. This volume restore function is available for the data
volumes, but not the system volume.
Disaster Recovery
PSM provides a disaster recovery solution for the system drive. This extends the
volume restore function of PSM to provide disaster recovery in the event that the
system drive is corrupted to the point where the file system is corrupt, or the
operating system is unbootable. Note that while disaster recovery is also supported
via the Recovery CD-ROM and backup and restore capability, that is a two-step
process. In contrast, the method supported by PSM allows you to restore the
system drive from a single image, without having to go through the entire recovery
procedure and then additionally having to restore a system drive backup.
Use the Disaster Recovery panel to schedule and create backup images of the
system drive, and to create a bootable diskette which will allow you to restore the
system drive from a backup image (located on the maintenance partition, or
network drive). The remainder of this section provides additional information on how
to perform backup and recovery operations for the NAS 200.
Note: Restoration of a PSM backup image over the network is not supported for
the Gigabit Ethernet Adapter. If you have only Gigabit Ethernet adapters
installed, it is recommended that you perform PSM backup of each NAS 200
to its maintenance partition (D: drive), which would allow you to recover if the
system volume is corrupt and/or unbootable. Should the hard disk drive fail
completely, you would need to use the Recovery CD as described in “Using
Chapter 6. Additional administrative functions 39
restore the NAS 200 to its original (factory) configuration.
Backing up the system drive
On the Disaster Recovery panel you will find status information for backup
operations, both scheduled and immediate, as well as buttons for starting and
stopping a backup operation, for configuring backup, and for creating a recovery
diskette.
Click the Modify Settings button to open the Disaster Recovery Settings page.
Modify the settings for backup as you desire. Note that you must not include spaces
in the Backup name field. When you have modified the settings, click the OK button
to save the changes.
On the Disaster Recovery page, click the Start Backup button to begin the backup.
The backup process will first create a persistent image of the system drive (C:),
named System Backup. Then it will create the backup images from that persistent
image, and then delete that persistent image once the backup operation is
complete.
Creating a recovery disk
You will now create a bootable recovery diskette which, when used to boot up the
NAS 200, will use the backup location settings you configured on the Disaster
Recovery Settings page to locate the backup image and restore it to the system
drive of the NAS 200.
1. Insert a blank, formatted diskette in the diskette drive of the NAS 200.
2. On the Disaster Recovery page, click Create Disk.
3. Click OK on the Create Recovery Disk page to create the diskette. The diskette
drive LED will turn off when the creation is complete. The diskette creation
should take no more than two minutes.
4. One of the files that is copied onto the diskette is a utility to make it DOS
bootable, called fixboot.exe. From a command prompt, either via the desktop of
the NAS 200 itself (with the diskette still in the diskette drive of the NAS 200), or
on another system with the diskette in its diskette drive, type a:\fixboot.exe and
answer the prompts.
Note: Once you have run fixboot.exe for the diskette, the diskette remains
bootable unless you format it again (without specifying an option to make
it bootable), so if you later erase files on the diskette you do not need to
run fixboot.exe again.
5. Remove the diskette from the diskette drive (of the NAS 200 itself, or other
system if you used that system to run the fixboot utility). You should label the
diskette appropriately and keep it in a safe place.
You may create additional copies of the diskette using the above procedure for
each new copy. Note that if you change the backup location or logon settings using
the Disaster Recovery Settings page, you will need to rebuild the recovery
diskette(s) for that NAS 200 to reflect the new backup location and/or logon settings
for that NAS 200.
Static IP addressing
If you do not have a DHCP server on your network, and you must access a backup
image that is only accessible via the network (for example, no backup image is
located on the maintenance partition [D: drive] of the NAS 200 to be recovered),
40 NAS 200 User’s Reference
then you must configure the recovery diskette so that it will use a static IP address
and subnet mask when accessing the network.
On the recovery diskette, edit the file a:\net_sets.bat. Near the top of this file are
two lines that begin with rem (comment lines) that, when you uncomment them, set
the IPAddress and SubnetMask environment variables. Change these lines as
follows:
1. Uncomment both lines by removing rem from the beginning of both lines.
2. For each line, what follows the equals sign (=) is an IP address expressed as a
set of four space-separated numbers (an IP address without the dots [.]).
Change the SubnetMask value to match the subnet mask your network uses.
Change the IPAddress value to match the IP address you want to assign to the
NAS 200, during the recovery operation. Do not insert dots between the
numbers (octets) in either value.
As an example, here is how the lines would look for a NAS 200 using IP address
192.168.1.200, and subnet mask 255.255.255.0:
set SubnetMask=255 255 255 0
set IPAddress=192 168 1 200
If you later want to reconfigure the recovery diskette to use DHCP to obtain an IP
address instead of static IP addressing, you must reinsert rem in front of the
SubnetMask and IPAddress lines to disable static IP addressing, as follows (based
on the previous example):
REM set SubnetMask=255 255 255 0
REM set IPAddress=192 168 1 200
If you have multiple 10/100 Ethernet adapters
If your NAS 200 has more than one 10/100 Ethernet adapter, then you must
configure the recovery diskette to select the 10/100 Ethernet adapter to be used for
disaster recovery over the network (the network over which the network drive(s)
containing backup image(s) can be accessed). On the recovery diskette, edit the file
a:\net_sets.bat, and add the following line:
set SLOT=slotvalue
where slotvalue is one of the following, depending on the PCI slot (on the rear of
the NAS 200) in which the desired 10/100 Ethernet adapter is installed:
v 0x0009 for PCI slot 1
v 0x000a for PCI slot 2
v 0x0026 for PCI slot 4
v 0x0027 for PCI slot 5
Restoring the system drive
If you need to restore the system drive from a backup image created via the PSM
Disaster Recovery panel as described above, you must use a recovery diskette
created via the Disaster Recovery panel. If you did not create a recovery diskette
to its original (factory) configuration.
To restore the system drive:
1. Set the write-protect tab of the recovery diskette to the write-protect position.
(This is a protection feature to prevent accidental initiation of the recovery
process (by booting the NAS 200 with the recovery diskette in the diskette
drive).
Chapter 6. Additional administrative functions 41
2. Insert the recovery diskette in the diskette drive of the NAS 200, and restart the
NAS 200.
3. The recovery process begins. The recovery diskette software will locate the first
backup image it can find, based on the backup locations specified on the
Disaster Recovery Settings panel in Microsoft Windows 2000 for NAS when the
diskette was created. Once it has located a backup image it will begin restoring
the system drive from the image. During the restore operation the hard disk
drive LEDs (on the front right of each hard disk drive) will flash green or stay
nearly solid green; this indicates write activity to the system volume.
Note: If the hard disk drive LEDs stay off for at least 10 minutes since you
restarted the NAS 200, then there is a problem with the recovery
procedure and it will not be able to restore the system volume from a
backup image. Should this occur, you will need to use the Recovery CD
4. When the restore operation completes, the hard disk drive LEDs will turn off,
and a short song will play periodically (every 15 seconds). Remove the diskette,
set the write-enable tab back to the write-enabled position, and reinsert the
diskette. The log file results.htm will be written to the diskette; this log file can
be viewed with any Web browser to examine the results of the restore
operation.
5. Once the log file is written, another song will play (continuously). Remove the
diskette and restart the NAS 200. If the restore was successful, the NAS 200
will come back up in the state it was in at the time you created the backup
image used for the recovery operation.
Note: The persistent image that was created on the system drive (named System
Backup) by the backup process is restored by the restore process as it is
preserved in the backup image. It is recommended that you now delete that
persistent image as it is no longer needed. On the Persistent Images panel,
select the persistent image named System Backup on drive C: from the list
of persistent images, then click Delete, then click OK on the Delete
Persistent Image panel that appears.
If the restore was unsuccessful, then you must use the Recovery CD as described
Granting user access to persistent image files
You can give end-users access to files in the persistent images. For example, this
would be helpful to a user who has accidentally corrupted a file and needs to get an
uncorrupted copy of that file.
To enable end-user access to persistent image files, go into Terminal Services.
Once you are in Terminal Services, click the My Computer icon. Next, click the
volume on which you want to enable persistent image access. Then, go into the
persistent images directory and right-click the mouse on your desired persistent
image mount point, select Sharing, then specify sharing as desired. If you want to
enable the same access to all persistent images on the volume, you can right-click
on the persistent images directory (from the top level of the volume), select
Sharing, and then specify sharing as desired.
42 NAS 200 User’s Reference
Note: The share settings are maintained in a persistent image. Therefore, granting
access to all end-users only permits those users to access files and
directories within the persistent image that they would have been able to
access originally on the actual drive.
PSM notes
1. As mentioned, you can take and keep a maximum of 250 persistent images.
These can be taken on local drives, or drives on the external storage that are
logically local.
Note that on various panels, such as the New Persistent Image Schedule panel,
you will see a field, Keep the last: (number of persistent images). The total
number of persistent images that you enter in these fields will not override the
maximum number of persistent images that you set in the Global Settings panel.
For example, if your maximum number of persistent images is 10, and you enter
in numbers in other fields that add up to greater than 10, only 10 persistent
images will be taken.
2. You cannot take a persistent image of the maintenance drive (D:). Hence, you
will not see it as a choice in either the New Persistent Image Schedule panel or
the Create Persistent Image panel.
3. PSM stores the cache file for each drive on the drive itself. The first persistent
image created on a particular drive will take a significant amount of time
because the PSM cache file must be created (pre-allocated) for that drive.
The time required for creation depends on the configured size of the cache file
(15 percent of the total drive size by default). Creation takes roughly three to
four minutes per gigabyte. For example, a 10 GB cache file would take 30 to 40
minutes to create. You should create a persistent image for a drive before
scheduling any persistent images for that drive, to build the cache file. You may
then delete the persistent image that you just created if you do not need to keep
it.
After the creation of the first persistent image on a volume, future persistent
images on that volume will complete faster.
4. As mentioned, the default size of the cache file per drive is 15 percent of the
total drive capacity. In most cases, that should be sufficient.
However, it is possible that it will not be enough to maintain the number of
persistent images you wish to keep concurrently on the drive, given the amount
of file-write activity to the drive. PSM will automatically take action to prevent the
cache file from overflowing, because if that occurred, PSM would be forced to
automatically delete all persistent images on the drive (once it cannot keep track
of changes made to the drive, it cannot maintain a valid persistent image).
PSM takes the following actions as the cache file usage approaches a full
condition:
v Once the cache file usage exceeds the warning threshold (configured in the
PSM Volumes panel for the drive; the default value is 80 percent), PSM
generates a warning message to the system event log (viewable via the
Windows 2000 Event Viewer in the IBM NAS Admin console), and to the alert
log in the Microsoft Windows 2000 for Network Attached Storage user
interface. The name of the source for the message will be psman5.
Additionally, while the cache file usage is above the warning threshold, PSM
prohibits any attempt to create a new persistent image, and logs an error
message (to the system log and alert log). The text of the error message that
is logged in the system event log (from psman5) is “A persistent image could
not be created due to error 0xe000102b”.
Chapter 6. Additional administrative functions 43
v Once the cache file usage exceeds the automatic deletion threshold (also
configured in the PSM Volumes panel for the drive; the default value is 90
percent), PSM automatically selects a persistent image on the volume and
deletes it to reduce the cache file usage. It selects the persistent image with
the lowest retention value (as described above in the Persistent Images panel
section). If more than one persistent image has the same (lowest) retention
value, then the oldest image will be selected for deletion. If this deletion does
not reduce the cache file usage below the automatic deletion threshold, then
it will continue to select and delete persistent images until the cache file
usage is reduced below the automatic deletion threshold. For each deletion,
PSM generates an error message to the system event log and to the
Windows 2000 for Network Attached Storage alert log indicating that a
persistent image was deleted.
You should periodically check the system event log or Windows 2000 for
Network Attached Storage alert log to ensure that the cache file usage is not
consistently high, forcing existing persistent images to be deleted and
preventing new persistent images from being created. If you find that this is the
case, you can increase the size of the cache file using the PSM Volumes page,
but you will need to delete all persistent images currently on that volume as
dynamic cache file resizing is not supported in this release.
5. Volume restore of the system volume (C: drive) is not supported. If you attempt
to restore a persistent image containing the system volume, the restore
operation will not take place.
6. Volume restore of a data volume may require a reboot of the node. You will be
notified by the Restore Persistent Images panel whether a reboot is required
after a restore operation is initiated.
Attention: The recovery process invalidates persistent images and leaves them in
an inconsistent state. So, if you plan to use the Recovery CD, it is recommended
that you first delete all persistent images to ensure a clean reload of the system
Ethernet adapter teaming
This section describes how to enable adapter teaming on the Intel and Alacritech
Ethernet adapters.
Intel Ethernet adapter teaming
The Ethernet adapters (Gb Ethernet SX and 10/100 Ethernet) that you install in the
PCI slots of the NAS 200 support adapter teaming. With adapter teaming, two or
more PCI Ethernet adapters can be physically connected to the same IP
subnetwork and then logically combined into an adapter team. Such a team can
support one of the following functional modes:
Fault tolerance
In fault tolerance mode, only one adapter in the team is fully active on the
Ethernet network (for example, sending and receiving data) at any point in
time, while the other adapters are in standby mode (receiving data only). If
that adapter detects a link failure or fails completely, another adapter in the
team automatically and rapidly takes over as the active adapter, and all
Ethernet traffic being handled by the failing adapter is seamlessly switched
to the new active adapter, with no interruption to network sessions (for
example, file transfers) in progress at the time of the failover.
44 NAS 200 User’s Reference
Load balancing
In load balancing mode, all adapters in the team are active, increasing the
total transmission throughput over the common IP subnetwork. If any
adapter in the team fails (link failure or complete failure), the other adapters
in the team continue to share the network transmission load, although total
throughput is decreased. Load balancing is only supported for adapter
teams consisting of only one type of adapter; different types of adapters
cannot be combined in a load balancing team.
You configure adapter teaming with Intel PROSet II, which is preloaded on the NAS
200, as follows:
1. On the NAS 200, physically connect the adapters that you wish to team to the
same IP subnetwork.
2. Access the NAS 200 desktop by directly attaching a keyboard, mouse, and
monitor, or over the network by starting Terminal Services on another
workstation. (For instructions on how to invoke Terminal Services, see
“Terminal Services and the IBM NAS Administration Console” in Chapter 3 of
the User’s Reference.
3. From the NAS 200 desktop, go to the Start menu, then select Settings, then
select Control Panel.
4. Double-click the Intel PROSet II icon in the Control Panel to start Intel PROSet
II.
5. You will see a list of all adapters for each slot and type supported under
Network Components.
6. Under Network Components, you will see a list of resident and non-resident
adapters for each slot and type supported under Network Components. Drivers
are preset for all supported adapter configurations, but will be loaded only for
resident adapters.
7. Identify which adapters you are going to team. You do this by left-clicking the
adapter under Network Components, and selecting one of the adapters that
will be part of the teaming.
8. Right click the adapter, then select Add to Team, then select Create New
Team....
9. Select the type of team you wish to create.
10. Select the adapters for the team you are creating by selecting the check box
for the appropriate adapters in the list, and then select Next.
11. Verify that these settings are correct, and then select Finish.
The procedure creates a device named Intel Advanced Network Services Virtual
Adapter. It also binds all network protocols that were bound to the physical adapters
that were added to the team to this virtual adapter, and unbinds those protocols
from the physical adapters. If you delete the team, the settings will return to the
state prior to creating the team.
For complete help on adapter teaming, from Intel PROSet II click Network
Components, and then select Help from the Help menu.
Alacritech Ethernet adapter teaming
The Quad-port 10/100 Ethernet Adapter supports the Cisco Fast EtherChannel
(FEC) technology across the four ports on the adapter. You can configure it by
clicking successively on Control Panel→Network→Adapter→Properties→Teaming in
the Windows interface.
Chapter 6. Additional administrative functions 45
Fast Etherchannel (FEC) is a proprietary technology developed by Cisco. With FEC,
you can create a team of two to four ports on the Quad-port 10/100 Ethernet PCI
Adapter in to increase transmission and reception throughput. This feature may also
be referred to as load balancing, port aggregation, or trunking. When you configure
this feature, the adapter ports comprising the FEC team or group create a single
high-speed, fault-tolerant link between the engine and the Ethernet switch sharing
one IP address. With FEC, fault tolerance and load balancing is provided for both
outbound and inbound traffic, unlike other load balancing schemes that only
balance outbound traffic.
FEC requires an Ethernet switch with FEC capability. The FEC implementation on
the Quad-port 10/100 Ethernet Adapter does not support the optional Port
Aggregation Protocol (PAgP) feature of FEC-capable Ethernet switches.
46 NAS 200 User’s Reference
Chapter 7. Troubleshooting
This chapter provides basic troubleshooting information to help you resolve some
common problems that might occur with your NAS 200. The chapter is divided into:
If you cannot locate and correct the problem using the information in this section,
information.
Engine troubleshooting and diagnostics
This section gives troubleshooting information for the IBM 5187 Network Attached
Storage Model 6RZ (engine).
Engine diagnostic tools overview
The following tools are available to help you identify and resolve hardware-related
problems:
v POST beep codes, error messages, and error logs
The power-on self-test (POST) generates beep codes and messages to indicate
v Diagnostic programs and error messages
The diagnostic programs are stored in upgradable read-only memory (ROM) on
the system board. These programs are the primary method of testing the major
more information.
v Light-path diagnostics
Your appliance has light-emitting diodes (LEDs) to help you identify problems
with appliance components. These LEDs are part of the light-path diagnostics
that are built into your appliance. By following the path of lights, you can quickly
page 50 for more information.
v Intel® PROSet II
v Troubleshooting charts
These charts list problem symptoms, along with suggested steps to correct the
v Support
You can register with the following support site to subscribe to e-mail notification
of new technical tips and frequently asked questions, obtain downloads, and join
forum discussions:
http://www.ibm.com/storage/support/nas
© Copyright IBM Corp. 2001
47
Identifying problems using LEDs
The LEDs are part of the light-path diagnostics built into the NAS 200 engine. The
LEDs help you identify the type of system error that occurred. See the following
sections for more information.
Power-supply LEDs
The AC and DC power LEDs on the power supply provide status information about
the power supply.
Note: The minimum configuration required for the DC good light to come on is:
v Power supply
v Power backplane
v System board (with pins 2 and 3 on J23 extension cable connected
together to bypass the power switch.
48 NAS 200 User’s Reference
Table 3. Power-supply LEDS
AC Good
LED
DC Good
LED
Description
FRU/action
Off
Off
No power to system
or AC problem.
1. Check AC power to system.
2. Power supply
On
Off
Standby mode or DC
problem.
1. Check system board cable
connectors J32, J33, and J35.
Move jumper on J32’s extension
cable to pins 2-3 to bypass
power control. If the DC Good
LED comes on, press
Ctrl+Alt+Delete. Watch the
screen for any POST errors.
Check the System Event/Error
Log for any listed problems. If
the system powers up with no
errors:
a. Power switch assembly
b. System board
2. Remove the adapters and
disconnect the cables and power
connectors to all internal and
external devices. Power-on the
system. If the DC Good LED
comes on, replace the adapters
and devices one at a time until
you isolate the problem.
3. Power supply
4. Power backplane
5. System board
On
On
Power is OK.
N/A
Chapter 7. Troubleshooting 49
Light-path diagnostics
You can use the light-path diagnostics built into the NAS 200 engine to identify the
type of system error that occurred. Any LEDs that are illuminated remain illuminated
during a shutdown as long as the AC power source is good and the power supplies
can supply +5V DC current to the NAS 200 engine. This feature helps you isolate
Diagnostics panel
You can use the light path diagnostics to quickly identify the type of system error
that occurred. The diagnostics panel is under the “wind tunnel”. Any LEDs that are
On, remain On when the NAS 200 shuts down as long as the AC power source is
stable and the power supplies can provide +5V DC current. This feature helps
isolate the problem if an error causes the NAS 200 to shut down.
to remove the top cover to view the LEDs.
LEDs.
MEM PS1
CPU PS2
PCI A PS3
PCI B NON
PCI C OVER
VRM NMI
DASD TEMP
SP FAN
REMIND
Figure 1. Diagnostics panel LEDs
Light-path diagnostics
LED is turned on when an error is detected. If the system error LED (an amber “!”
on the lower right corner) is on, remove the cover and check the diagnostic panel
Notes:
1. If a diagnostic panel LED is on and the information LED panel system error LED
is off, there is probably an LED problem. Run LED diagnostics.
2. Check the System Error Log for additional information before replacing a FRU.
3. The DIMM error LEDs, processor error LEDs, and VRM error LEDs turn off
when the system is powered off.
50 NAS 200 User’s Reference
Table 4. Descriptions of light-path diagnostics LEDs
LED
Meaning
PS1
Power supply 1 failure
PS2
Power supply 2 failure
PS3
Power supply 3 failure
NON
OVER
NMI
Non-redundant power
The system has exceeded the power capabilities of the installed power supplies
Non-maskable-interrupt occurred
TEMP
FAN
System temperature exceeded maximum rating
A fan failed or is operating slowly
MEM
CPU
PCI A
PCI B
PCI C
VRM
DASD
SP
Memory failure. One or more memory DIMMs have failed
Microprocessor failure. One or both microprocessors have failed
Error on PCI channel A or system board. Note: PCI bus A is often referred to as PCI bus 0
Error on PCI channel B or system board. Note: PCI bus B is often referred to as PCI bus 1
Error on PCI channel C or system board. Note: PCI bus C is often referred to as PCI bus 2
VRM Error on voltage regulator module or on integrated voltage regulator
A hot-swap disk drive, backplane, or other part of SCSI channel A has failed
Integrated System Management Processor detected an error
Remind button: You can use the remind button to place the front panel
system-error light into a remind mode. By pressing the button, you acknowledge the
failure but indicate that you will not take immediate action. If a new error occurs, the
LED will be on again.
In the remind mode, the system-error LED flashes every 2 seconds. The
system-error LED remains in remind mode until one of the following situations
occurs:
1. All known problems are resolved
2. The system is restarted
3. A new problem occurs
You can use the remind button to delay maintenance. Also, resetting the
system-error LED enables the LED to react to another error. If the LED is still
blinking from the first error, it will mask additional errors.
Chapter 7. Troubleshooting 51
Engine troubleshooting charts
symptoms.
on page 98 to test the appliance. If you have run the diagnostic test programs or if
running the tests does not reveal the problem, call for service.
The symptom appears in the left column of the table. Instructions and probable
solutions to the problem are in the right column. If you have just added new
software or a new option and your appliance is not working, do the following before
using the troubleshooting charts:
v Remove the software or device that you just added.
v Run the diagnostic tests to determine if your appliance is running correctly.
v Reinstall the new software or new device.
Table 5. Engine troubleshooting symptoms and suggested actions
Device/Problem
CD-ROM drive
Symptom
Suggested action
CD-ROM drive is not
recognized.
Verify that:
1. The primary IDE channel is enabled in the
Configuration/Setup Utility program.
2. All cables and jumpers are installed correctly.
3. The correct device driver is installed for the CD-ROM drive.
If the problem remains, call for service.
Diskette drive
Diskette drive in-use
light stays on, or the
system bypasses the
diskette drive.
If there is a diskette in the drive, verify that:
1. The diskette drive is enabled in the Configuration/Setup Utility
program.
2. The diskette is good and not damaged. (Try another diskette if
you have one.)
3. The diskette contains the necessary files to start the
appliance.
4. Your software program is OK.
If the diskette drive in-use light stays on, or the system continues
to bypass the diskette drive, call for service.
Expansion enclosure SCSI expansion
Verify that:
problems
enclosure used to work, 1. The cables for all external SCSI options are connected
but does not work now.
correctly.
2. The last option in each SCSI chain, or the end of the SCSI
cable, is terminated correctly.
3. Any external SCSI option is turned on. You must turn on an
external SCSI option before turning on the appliance.
For more information, see your SCSI and expansion enclosure
documentation.
General problems
Problems such as
broken cover locks or
indicator lights not
working.
Call for service.
52 NAS 200 User’s Reference
Table 5. Engine troubleshooting symptoms and suggested actions (continued)
Device/Problem Symptom Suggested action
Intermittent problems A problem occurs only Verify that:
occasionally and is
difficult to detect.
1. All cables and cords are connected securely to the rear of the
appliance and attached options.
2. When the appliance is turned on, air is flowing from the rear
of the appliance at the fan grill. If there is no air flow, the fan
is not working. This causes the appliance to overheat and shut
down.
3. Ensure that the SCSI bus and devices are configured correctly
and that the last external device in each SCSI chain is
terminated correctly.
If the items above are correct, call for service.
Keyboard, mouse, or All or some keys on the 1. Make sure that the keyboard cable is properly connected to
pointing-device
problems (if
attached).
keyboard do not work.
the appliance.
2. Make sure that the appliance and the monitor are turned on.
3. Try using another keyboard.
If the items above are correct, call for service.
The mouse or pointing 1. Verify that the mouse or pointing-device cable is securely
device does not work.
connected and the device drivers are installed correctly.
2. Try using another mouse or pointing device.
If the problem remains, call for service.
Memory problems
The amount of memory Verify that:
displayed is less than
1. The memory modules are seated properly.
the amount of memory 2. You have installed the correct type of memory.
installed.
3. If you changed the memory, you updated the memory
configuration with the Configuration/Setup Utility program.
4. All banks of memory on the DIMMs are enabled. The
appliance might have automatically disabled a DIMM bank
when it detected a problem or a DIMM bank could have been
manually disabled.
If the above items are correct, run the memory diagnostic
program. The system might have detected a bad memory module
and automatically reallocated memory to enable you to continue
to operate. If the memory tests fail, call for service or replace the
failing DIMM.
Microprocessor
problems
The appliance emits a
continuous tone during
POST.
The startup (boot) microprocessor is not working properly.
Verify that the startup microprocessor is seated properly. If it is,
replace the startup microprocessor.
If the problem remains, call for service.
Chapter 7. Troubleshooting 53
Table 5. Engine troubleshooting symptoms and suggested actions (continued)
Device/Problem
Monitor
Symptom
Suggested action
Testing the monitor.
Some IBM monitors have their own self-tests. If you suspect a
problem with your monitor, refer to the information that comes
with the monitor for adjusting and testing instructions.
If you still cannot find the problem, call for service.
The screen is blank.
Verify that:
1. The appliance power cord is plugged into the appliance and a
working electrical outlet.
2. The monitor cables are connected properly.
3. The monitor is turned on and the Brightness and Contrast
controls are adjusted correctly.
If the items above are correct and the screen remains blank, call
for service.
Only the cursor
appears.
Call for service.
The monitor works
when you turn on the
appliance, but goes
blank when you start
some application
programs.
Verify that:
1. The primary monitor cable is connected to the video port.
2. You installed the necessary device drivers for the applications.
If the items above are correct and the screen remains blank, call
for service.
Wavy, unreadable,
If the monitor self-tests show the monitor is OK, consider the
rolling, distorted screen, location of the monitor. Magnetic fields around other devices
or screen jitter.
(such as transformers, appliances, fluorescent lights, and other
monitors) can cause screen jitter or wavy, unreadable, rolling, or
distorted screen images. If this happens, turn off the monitor.
(Moving a color monitor while it is turned on might cause screen
discoloration.) Then move the device and the monitor at least 305
mm (12 in.) apart. Turn on the monitor.
Notes:
1. To prevent diskette drive read/write errors, be sure the
distance between monitors and diskette drives is at least 76
mm (3 in.).
2. Non-IBM monitor cables might cause unpredictable problems.
3. An enhanced monitor cable with additional shielding is
available for the 9521 and 9527 monitors. For information
about the enhanced monitor cable, see your IBM reseller or
IBM marketing representative.
If the problem remains, call for service.
Wrong characters
appear on the screen.
If the wrong language is displayed, update the BIOS with the
correct language.
If the problem remains, call for service.
54 NAS 200 User’s Reference
Table 5. Engine troubleshooting symptoms and suggested actions (continued)
Device/Problem
Option problems
Symptom
Suggested action
An IBM option that was Verify that:
just installed does not
work.
1. The option is designed for the appliance. Refer to the
hardware installation guide that came with this appliance for a
list of supported options.
2. You followed the installation instructions that came with the
option.
3. The option is installed correctly.
4. You have not loosened any other installed options or cables.
5. You updated the configuration information in the
Configuration/Setup Utility program. Whenever memory or an
option is changed, you must update the configuration.
If the problem remains, call for service.
An IBM option that
Verify that all of the option hardware and cable connections are
used to work does not secure.
work now.
If the option comes with its own test instructions, use those
instructions to test the option.
If the failing option is a SCSI option, verify that:
1. The cables for all external SCSI options are connected
correctly.
2. The last option in each SCSI chain, or the end of the SCSI
cable, is terminated correctly.
3. Any external SCSI option is turned on. You must turn on an
external SCSI option before turning on the appliance.
If the problem remains, call for service.
Power problems
The appliance does not Verify that:
power on.
1. The power cables are properly connected to the appliance.
2. The electrical outlet functions properly.
3. The type of memory installed is correct.
4. If you just installed an option, remove it, and restart the
appliance. If the appliance now powers on, you might have
installed more options than the power supply supports.
5. The LEDs on the power supply are on.
If the problem remains, call for service.
Serial port problems
The number of serial
ports identified by the
operating system is
less than the number of
serial ports installed.
Verify that:
1. Each port is assigned a unique address by the
Configuration/Setup Utility program and none of the serial
ports are disabled.
Note: The management C connector is the same as a serial
port connector, but it is used only by the ISMP, and is not
available for use by the operating system. This port does not
appear in the Configuration/Setup Utility program menus; it
can be configured using Netfinity Manager.
2. The serial-port adapter, if you installed one, is seated properly.
If the problem still exists, call for service.
Chapter 7. Troubleshooting 55
Table 5. Engine troubleshooting symptoms and suggested actions (continued)
Device/Problem
Symptom
Suggested action
A serial device does not Verify that:
work.
1. The device is compatible with the appliance.
2. The serial port is enabled and is assigned a unique address.
3. Make sure that the device is not connected to the
management port C.
Note: The management C connector is the same as a serial
port connector, but it is used only by the ISMP, and is not
available for use by the operating system. This port does not
appear in the Configuration/Setup Utility program menus; it
can be configured using Netfinity Manager.
If the problem still exists, call for service.
Service processor
problems
Netfinity Service
Processor Manager
reports a general
monitor failure
Disconnect the appliance from all electrical sources, wait for 30
seconds, reconnect the appliance to the electrical sources, and
restart the appliance.
If a problem remains, call for service.
Software problem
Suspected software
problem.
To determine if problems are caused by the software, verify that:
1. Four appliance has the minimum memory requirements
needed to use the software. For memory requirements, refer
to the information that comes with the software.
Note: If you have just installed an adapter or memory, you
might have a memory address conflict.
2. The software is designed to operate on your appliance.
3. Other software works on your appliance.
4. The software that you are using works on another system.
If you received any error messages when using the software
program, refer to the information that comes with the software for
a description of the messages and solutions to the problem.
If the items above are correct and the problem remains, contact
your place of purchase.
Universal Serial Bus
(USB) port problems
A USB device does not Verify that:
work. 1. You are not trying to use a USB device during POST if you
have a standard (non-USB) keyboard attached to the
keyboard port.
Note: If a standard (non-USB) keyboard is attached to the
keyboard port, then the USB is disabled and no USB device
will work during POST.
2. The correct USB device driver is installed.
3. Your operating system supports USB devices.
If the problem still exists, call for service.
56 NAS 200 User’s Reference
Power problems
Power problems can be difficult to troubleshoot. For example, a short circuit can
exist anywhere on any of the power distribution busses. Usually a short circuit
causes the power subsystem to shut down because of an overcurrent condition.
A general procedure for troubleshooting power problems is as follows:
1. Power off the system and disconnect the AC cord(s).
2. Check for loose cables in the power subsystem. Also check for short circuits, for
example, if there is a loose screw causing a short circuit on a circuit board.
3. Remove adapters and disconnect the cables and power connectors to all
internal and external devices until the NAS 200 engine is at minimum
configuration required for power on.
4. Reconnect the AC cord and power on the NAS 200 engine. If the engine
powers up successfully, replace adapters and devices one at a time until the
problem is isolated. If the engine does not power up from minimal configuration,
replace FRUs of minimal configuration one at a time until the problem is
isolated.
Table 6. Power error messages
Message
Action
Power supply ″X″ current share fault
(level-critical; excessive current demand on
power supply ″X″)
Power supply ″X″ DC good fault
(level-critical; power good signal not detected
for power supply ″X″)
1. Replace power supply ″X″
Power supply ″X″ temperature fault
1. Replace fan ″X″
Power supply ″X″ removed
1. No action required - information only
1. Replace power supply ″X″
Power supply ″X″ fan fault (level-critical;
fan fault in power supply ″X″)
Power supply ″X″ 12V fault (level-critical;
overcurrent condition detected)
Power supply ″X″ 3.3V fault (level-critical;
3.3V power supply ″X″ had an error)
Power supply ″X″ 5V fault (level-critical; 5V
power supply ″X″ had an error)
System over recommended ″X″ current
(level-non-critical; system running too much
current on that voltage)
System running non-redundant power
(level-non-critical; system does not have
redundant power)
1. Add another power supply
2. Remove options from system
3. System can continue to operate without redundancy protection if 1
and 2 above are not followed.
System under recommended voltage for
″X″ v (level-warning; indicated voltage
supply under nominal value; value for ″X″
can be +12, -12, or +5)
1. Check connections to power subsystem
2. Replace power supply
3. Replace power backplane
Chapter 7. Troubleshooting 57
Table 6. Power error messages (continued)
Message
Action
System under recommended voltage on
3.3 v (level-warning; 3.3 volt supply under
nominal value)
1. Check connections to power subsystem
2. Replace power supply
3. Replace power backplane
System under recommended X current
(level-non-critical; system drawing less
current than recommended on voltage ″X″)
″X″ V bus fault (level-critical; overcurrent
condition on ″X″ voltage bus)
1. Check for short circuit on ″X″ voltage bus
12V ″X″ bus fault (level-critical; overcurrent
condition on 12 volt ″X″ voltage bus)
1. Check for short circuit on 12 volt ″X″ voltage bus
5V fault (level-critical; overcurrent condition
on 5 V subsystem)
1. Check for short circuit on 5 v bus
240 VA fault (level-critical; overcurrent or
overvoltage condition in power subsystem)
Recovering BIOS
If your BIOS has become corrupted, such as from a power failure during a flash
update, you can recover your BIOS using the recovery boot block and a BIOS flash
diskette.
Note: Note: You can obtain a BIOS flash diskette from one of the following
sources:
v Download a BIOS flash diskette from the Web site at
http://www.ibm.com/storage/support/nas
v Contact your IBM service representative.
The flash memory contains a protected area that cannot be overwritten. The
recovery boot block is a section of code in this protected area that enables the NAS
200 to start up and to read a flash diskette. The flash utility recovers the system
BIOS from the BIOS recovery files on the diskette.
To recover the BIOS:
1. Power off the NAS 200 and peripheral devices. Disconnect all external cables
and power cords. Remove the cover.
3. Place a jumper on pins 2 and 3 to enable the BIOS backup page.
4. Insert the BIOS flash diskette into the diskette drive.
5. Restart the NAS 200.
6. When the NAS 200 completes POST, select 1 -- Update POST/BIOS from the
menu that contains various flash (update) options.
7. When you are asked if you would like to move the current POST/BIOS image
to the backup ROM location, type N. Attention: Typing Y will copy the
corrupted BIOS into the secondary page.
8. When you are asked if you would like to save the current code on a diskette,
select N.
58 NAS 200 User’s Reference
9. You will be asked to choose the language you wish to use. Select your
language (0-7) and press Enter to accept your choice. You will be prompted to
remove the diskette and press Enter to restart the system. Remove the flash
diskette from the diskette drive.
10. Power off the NAS 200.
11. Remove the jumper on the boot-block jumper block, or move it to pins 1 and 2
to return to normal startup mode.
12. Restart the NAS 200. It should start up normally.
Figure 2 shows the location of the boot block jumper on the system board.
System board
Switch block (SW1)
SW1
Flash boot block
recovery jumper (J16)
Figure 2. Boot block jumper location
Replacing the battery
IBM has designed this product with your safety in mind. The lithium battery must be
handled correctly to avoid possible danger. If you replace the battery, you must
adhere to the following instructions.
Note: In the U.S., call 1-800-IBM-4333 for information about battery disposal.
If you replace the original lithium battery with a heavy-metal battery or a battery with
heavy-metal components, be aware of the following environmental consideration.
Batteries and accumulators that contain heavy metals must not be disposed of with
normal domestic waste. They will be taken back free of charge by the manufacturer,
distributor, or representative, to be recycled or disposed of in a proper manner.
To order replacement batteries, call 1-800-772-2227 within the United States, and
1-800-465-7999 or 1-800-465-6666 within Canada. Outside the U.S. and Canada,
call your IBM reseller or IBM marketing representative.
Note: After you replace the battery, you must reconfigure your appliance and reset
the system date and time.
Chapter 7. Troubleshooting 59
CAUTION:
When replacing the lithium battery, use only IBM Part Number 10L6432 or an
equivalent type battery recommended by the manufacturer. If your system has a
module containing a lithium battery, replace it only with the same module type made
by the same manufacturer. The battery contains lithium and can explode if not
properly used, handled, or disposed of.
Do not:
v
v
v
Throw or immerse into water.
Heat to more than 100 C (212 F)
Repair or disassemble
Dispose of the battery as required by local ordinances or regulations.
Note: For translations of the safety notice, refer to the multilingual Safety Information on the
Documentation CD that came with the appliance.
To replace the battery:
1. Review the information in the section “Before you begin” in the hardware
installation guide that came with this appliance, and any special handling and
installation instructions supplied with the replacement battery.
2. Turn off the appliance and peripheral devices and disconnect all external cables
and power cords; then, remove the appliance cover.
3. Remove the battery:
a. Use one finger to lift the battery clip over the battery.
b. Use one finger to slightly slide the battery from its socket. The spring
mechanism behind the battery will push the battery out toward you as you
slide it from the socket.
c. Use your thumb and index finger to pull the battery from under the battery
clip.
d. Ensure that the battery clip is touching the base of the battery socket by
pressing gently on the clip.
Figure 3. Battery removal
4. Insert the new battery:
a. Tilt the battery so that you can insert it into the socket, under the battery
clip.
b. As you slide it under the battery clip, press the battery down into the socket.
60 NAS 200 User’s Reference
Figure 4. Battery replacement
5. Reinstall the appliance cover and connect the cables.
Note: Wait approximately 20 seconds after you plug the power cord of your
appliance into an electrical outlet for the Power Control button to become
active.
6. Turn the appliance on.
7. Start the Configuration/Setup Utility program and set configuration parameters.
v Set the system date and time.
v Set the power-on password.
v Reconfigure your appliance.
Chapter 7. Troubleshooting 61
Adapter troubleshooting and diagnostics
This section presents information on troubleshooting and diagnosing the following
engine adapters:
v 10/100 integrated Ethernet adapter
v IBM 10/100 PCI Ethernet adapter
v IBM Gigabit Ethernet SX adapter
v Intel PRO 1000 XT Server Adapter
v Alacritech Quad-Port Ethernet Adapter
v IBM ServeRAID-4Lx and 4H SCSI Controller
v Integrated System Management Processor (ISMP)
v Remote Supervisor Adapter (RSA)
v IBM Fast/Wide Ultra SCSI Adapter
v IBM PCI Ultra 160 SCSI Adapter
Integrated Ethernet adapter
This section provides troubleshooting information for problems that might occur with
the 10/100 Mbps integrated Ethernet adapter.
Network connection problems
If the Ethernet adapter cannot connect to the network, check the following:
v Make sure that the cable is installed correctly.
The network cable must be securely attached at all connections. If the cable is
attached but the problem persists, try a different cable.
If you set the Ethernet adapter to operate at 100 Mbps, you must use Category 5
cabling.
If you directly connect two workstations (without a hub), or if you are not using a
hub with X ports, use a crossover cable.
Note: To determine whether a hub has an X port, check the port label. If the
label contains an X, the hub has an X port.
v Determine if the hub supports auto-negotiation. If not, try configuring the
integrated Ethernet adapter manually to match the speed and duplex mode of the
hub.
v Check the Ethernet adapter lights on the operator information panel.
These lights indicate whether a problem exists with the connector, cable, or hub.
– The Ethernet Link Status light is On when the Ethernet adapter receives a
LINK pulse from the hub. If the light is Off, there might be a bad connector or
cable, or a problem with the hub.
– The Ethernet Transmit/Receive Activity light is On when the Ethernet adapter
sends or receives data over the Ethernet Network. If the Ethernet
Transmit/Receive Activity light is Off, make sure that the hub and network are
operating and that the correct device drivers are loaded.
v Make sure that you are using the correct device drivers, supplied with the NAS
200 engine.
v Check for operating system-specific causes for the problem.
v Make sure that the device drivers on the client and the NAS 200 engine are
using the same protocol.
v Test the Ethernet adapter by running the diagnostic program.
62 NAS 200 User’s Reference
Integrated Ethernet adapter troubleshooting chart
that have definite symptoms.
Table 7. Integrated Ethernet adapter troubleshooting chart
Ethernet adapter problem
Suggested Action
Ethernet Link Status light is
not On.
Check the following:
v
v
v
Ensure that the hub is powered on.
Check all connections at the Ethernet adapter and the hub.
Check the cable. A crossover cable is required unless the hub has an X
designation.
v
v
Use another port on the hub.
If the hub does not support auto-negotiation, manually configure the Ethernet
adapter to match the hub.
v
v
If you manually configured the duplex mode, ensure that you also manually
configure the speed.
Run diagnostics on the LEDs.
the diagnostic programs.
The Ethernet
Check the following:
Transmit/Receive Activity light Note: The Ethernet Transmit/Receive Activity LED is On only when data is sent to or
is not On.
by this Ethernet adapter.
v
v
v
v
Ensure that you have loaded the network device drivers.
The network might be idle. Try sending data from this workstation.
Run diagnostics on the LEDs.
The function of this LED can be changed by device driver load parameters. If
necessary, remove any LED parameter settings when you load the device drivers.
Data errors
Check the following:
v
Ensure that you are using Category 5 cabling when operating the NAS 200 engine
at 100 Mbps.
v
Make sure that the cables do not run close to noise-inducing sources like
fluorescent lights.
The Ethernet adapter stopped Check the following:
working when another
adapter was added to the
NAS 200 engine.
v
v
v
v
Ensure that the cable is connected to the Ethernet adapter.
Ensure that the PCI system BIOS is current.
Reseat the adapter.
Ensure that the adapter you are testing is supported by the NAS 200 engine.
The Ethernet adapter stopped Check the following:
working without apparent
cause.
v
v
v
Run diagnostics for the Ethernet adapter.
Try a different connector on the hub.
Reinstall the device drivers. Refer to your operating-system documentation and to
the User’s Reference information.
the diagnostic programs.
Chapter 7. Troubleshooting 63
Troubleshooting the 10/100 PCI Ethernet adapter
that have definite symptoms.
on testing the adapter.
Table 8. 10/100 PCI Ethernet adapter troubleshooting chart
Ethernet adapter problem
Suggested Action
The adapter cannot connect
to the network.
Check the following:
1. Ensure that the network cable is installed correctly. The cable must be securely
attached at both RJ-45 connections (adapter and hub). The maximum allowable
distance from adapter to the hub is 100 m (328 ft.). If the cable is attached and
the distance is within acceptable limits but the problem persists, try a different
cable. If you are directly connecting two computers without a hub or switch, make
sure you are using a crossover cable.
2. Check the LED lights on the adapter. The adapter has two diagnostic LEDs, one
on each side of the cable connector. These lights help you to determine whether
there is a problem with the connector, cable, switch, or hub.
ACT/LNK — On
v
Adapter and switch is receiving power and cable connection between
them is good
ACT/LNK — Off
Check the following:
v
v
v
v
Adapter not sending or receiving data
Adapter or switch not receiving power
Cable connection between adapter and switch is faulty
Drivers not configured properly
ACT/LNK — Flashing
Normal operation. LED flashes when the adapter sends or receives data.
The frequency of the flashes varies with the amount of network traffic
100 — On
Adapter is operating at 100 Mbps
100 — Off
Adapter is operating at 10 Mbps
3. Ensure that you are using the correct drivers. Ensure that you are using the
drivers that come with this adapter. Drivers that support previous versions of this
adapter do not support this version of the adapter.
4. Ensure that the switch port and the adapter have the same duplex setting. If you
configured the adapter for full-duplex, ensure that the switch port is also
configured for full-duplex. Setting the wrong duplex mode can degrade
performance, cause data loss, or result in lost connections.
Diagnostics pass, but the
connection fails or errors
occur.
Check the following:
1. For 100 Mbps:
v
Use Category 5 cabling and ensure that the network cable is securely
attached.
v
Verify the adapter is seated firmly in the slot and connected to a 100BASE-TX
hub/switch (not 100BASE-T4).
2. Ensure the duplex mode setting on the adapter matches the setting on the switch
64 NAS 200 User’s Reference
Table 8. 10/100 PCI Ethernet adapter troubleshooting chart (continued)
Ethernet adapter problem
Suggested Action
The LNK LED is not On.
Check the following:
1. Ensure that you loaded the correct network drivers.
2. Check all connections at the adapter and the switch.
3. Try another port on the switch.
4. Ensure that the duplex mode setting on the adapter matches the setting on the
switch.
5. Ensure that you have the correct type of cable between the adapter and the hub.
100BASE-TX requires two pairs. Some hubs require a crossover cable while
others require a straight-through cable.
The ACT LED is not On.
Check the following:
1. Ensure that you loaded the correct network drivers.
2. The network might be idle. Try accessing a server.
3. The adapter is not transmitting or receiving data. Try another adapter.
4. Ensure that you are using two-pair cable for TX wiring.
Adapter stops working without Check the following:
apparent cause.
1. Run the diagnostics.
2. Try reseating the adapter in its slot, or try a different slot if necessary.
3. The network driver files might be corrupt or missing. Remove and then reinstall
the drivers.
The LNK LED is not On when Check the following:
you connect the power.
Ensure that the network cable is securely attached at both ends.
Testing the Ethernet adapters with Intel PROSet II
Each NAS 200 engine comes with Intel PROSet II. You can use PROSet to view
the following:
v Adapter parameters such as MAC and IP addresses
v Network link status such as speed, duplex mode, and activity
v Device-driver level used for the adapter
You can also use PROSet II to test the 10/100 Ethernet and Gigabit Ethernet PCI
adapters for any problems with the adapter hardware, cabling, or network
connections. PROSet performs a loopback test on the 10/100 Ethernet and Gigabit
Ethernet PCI cards.
To access the PROSet II utility, go into Terminal Services. For instructions on how
1. Go to the Start menu, select Settings, then Control Panel.
2. Double-click the INTEL PROSet II icon in the Control Panel to start the INTEL
PROSet II utility.
3. In the INTEL PROSet II utility, select the Ethernet adapter you want to test
(Gigabit Ethernet PCI adapter or 10/100 Ethernet Adapter).
4. Select the Diagnostics tab. A list of available tests is displayed.
5. Select Run Tests. You can also select or deselect individual tests with the
check boxes. If an error is detected, information about the error is displayed.
Chapter 7. Troubleshooting 65
For additional information about Intel PROSet, please refer to the online help that
accompanies the utility.
Gigabit Ethernet SX adapter
symptoms.
on testing the adapter.
Table 9. Gigabit Ethernet SX adapter troubleshooting chart
Gigabit adapter problem
Suggested Action
No Link or TX/RX Activity
If you cannot link to your switch, check the following:
1. Check the following LED lights on the adapter:
TX — On
The adapter is sending data
RX — On
The adapter is receiving data.
Link — On
The adapter is connected to a valid link partner and is receiving link
pulses.
Link — Off
Link is inoperative.
v
v
v
Check all connections at the adapter and link partner
Make sure the link partner is set to 1000 Mbps and full-duplex
Ensure the required drivers are loaded
PRO — Programmable LED
Identifies the adapter by blinking. Use the Identify Adapter push-button in
INTEL PROSet II to control blinking.
2. Ensure that the cable is installed correctly. The network cable must be securely
attached at all connections. If the cable is attached but the problem persists, try a
different cable.
Your computer cannot find
the Gigabit Ethernet SX
adapter
Check the following:
1. Verify that the adapter is seated firmly in the slot
2. Try a different Gigabit Ethernet SX adapter
Diagnostics pass but the
connection fails
Check the following:
Ensure the network cable is securely attached
Check the following:
Another adapter stopped
working after you installed
the Gigabit Ethernet SX
Adapter
1. Verify that the cable is connected to the Gigabit Ethernet SX Adapter and not to
another adapter.
2. Check for a resource conflict
3. Ensure both adapters are seated firmly in the slot
4. Check all cables
The adapter stopped working Check the following:
without apparent cause
1. Try reseating the adapter
2. The network driver files might be damaged or deleted. Reinstall the drivers
3. Try a different Gigabit Ethernet SX Adapter
66 NAS 200 User’s Reference
Table 9. Gigabit Ethernet SX adapter troubleshooting chart (continued)
Gigabit adapter problem
Suggested Action
LINK LED is not On
Check the following:
1. Ensure that you have loaded the adapter driver
2. Check all connections at the adapter and the buffered repeater or switch
3. Try another port on the buffered repeater or switch
4. Ensure that the buffered repeater or switch port is configured for 1000 Mbps and
full-duplex.
5. Try changing the auto-negotiation setting on the link partner, if possible
RX or TX LED is no On
Check the following:
1. Ensure that you have loaded the adapter driver
2. Network might be idle; try logging in from a workstation
3. The adapter is not transmitting or receiving data; try another adapter
Troubleshooting the Intel PRO 1000 XT Server adapter
that have definite symptoms.
on testing the adapter.
Table 10. Intel PRO 1000 XT Server adapter troubleshooting chart
Adapter problem
Suggested Action
The NAS 200 cannot find the
adapter
v
v
Make sure the adapter is seated firmly in the slot.
Download the latest drivers from the Intel support web site:
http://www.intel.com/network
v
Try a different PCI busmaster slot. See your server’s documentation to identify
busmaster slots.
v
v
v
v
Check to see if your motherboard has the latest BIOS.
Make sure your PCI slots are v2.2 compatible.
Try rebooting the computer.
Try a different Intel adapter.
Diagnostics pass but the
connection fails
v
v
Check the responding link partner.
Make sure the cable is securely attached, is the proper type and does not exceed
the recommended lengths.
v
v
v
Try another cable.
Try running the Sender-Responder diagnostic Test.
Make sure the duplex mode and speed setting on the adapter matches the
setting on the switch.
v
For NetWare, make sure you specify the correct frame type in the
AUTOEXEC.NCF file.
Another adapter stopped
working after you installed the
adapter
v
v
Make sure the cable is connections are correct. Make sure your PCI BIOS is
current.
Check for interrupt conflicts and sharing problems. Make sure the other adapter
supports shared interrupts. Also, make sure your operating system supports
shared interrupts.
v
v
Unload all PCI device drivers, then reload all drivers.
Try reseating the most recently installed adapter.
Chapter 7. Troubleshooting 67
Table 10. Intel PRO 1000 XT Server adapter troubleshooting chart (continued)
Adapter problem
Suggested Action
Adapter unable to connect to
switch at 1000 Mbps, instead
connects at 100 Mbps
Note: This is applicable only to copper-based connections.
v
v
v
Check the cable type.
Try another cable.
Make sure the link partner is set to Auto-negotiate or manually set to 1000 Full
Duplex.
v
Verify that the switch is IEEE 802.3ab-compliant and the latest IOS is installed.
The adapter stopped working
without apparent cause
v
v
v
v
v
v
The network driver files may be damaged or deleted. Reinstall the drivers.
Try reseating the adapter in its slot or different slot, if necessary.
Try rebooting the computer.
Try another cable.
Try a different adapter.
Run diagnostics.
The Link indicator light is off
v
v
v
v
v
v
Run the adapter and network tests.
Make sure you have loaded the adapter driver.
Check all connections at the adapter and the switch.
Try another port on the switch.
Try another cable.
Make sure that the link partner is configured to auto-negotiate (or forced to match
adapter). Verify that the switch is SX-mode fiber or IEEE 802.3ab-compliant.
The link light is on, but
communications are not
properly established
v
v
Make sure the proper (and latest) driver is loaded.
Both the adapter and its link partner must be set to either auto-negotiate or
manually set to the same speed and duplex settings.
The adapter link indicator light may be on even if communications between the
adapter and its link partner have not been properly established. Technically, the link
indicator light represents the presence of a carrier signal but not necessarily the
ability to properly communicate with a link partner. This is expected behavior and is
consistent with the IEEE specification for physical layer operation.
RX or TX light is off (Gigabit
only)
v
v
v
Make sure you’ve loaded the network drivers.
Network may be idle; try creating traffic while monitoring the lights.
Try another adapter.
The diagnostic utility reports
the adapter is “Not enabled by
BIOS.”
The PCI BIOS isn’t configuring the adapter correctly.
The computer hangs when the Try changing the PCI BIOS interrupt settings.
drivers are loaded.
The ACT light is off
(non-Gigabit adapters)
v
v
v
v
Make sure you’ve loaded the correct network drivers.
The network may be idle. Try accessing a server.
Try another adapter.
Make sure you’re using two-pair cable for TX wiring.
Event viewer message: A
In Windows NT and NetWare, if there is a BIOS setting for “Plug and Play OS,”
device attached to the system make sure it is set to NO. For Windows 2000 and later, this should be set to YES.
is not functioning.
68 NAS 200 User’s Reference
Table 10. Intel PRO 1000 XT Server adapter troubleshooting chart (continued)
Adapter problem
Suggested Action
For Windows 2000 or XP:
Unable to remove PROSet in
SAFE mode
If the computer hangs (blue screen) after configuring network adapters with
PROSet, try the following:
v
v
v
v
Start Windows in Safe mode
Go to the Device Manger, and disable the network adapters and teams.
Restart the computer.
Windows should be operating normally if the problem was caused by the disabled
adapters.
To uninstall PROSet, perform the following steps:
v
v
v
v
v
v
Start Windows in Safe mode.
Use the Device Manager to disable all teaming instances.
Restart the computer in Normal mode.
Using PROSet, remove all teams and VLANs shown.
Go to the Control Panel, select Add/Remove Programs.
Uninstall PROSet.
Indicator lights
The adapter has the following indicator lights:
Label
ACT/LNK
Indication
Green on
Meaning
The adapter is connected to a valid link partner.
Green flashing
Off
Data activity
No link.
v
If the LINK light is not on, check all
connections at the adapter and link partner.
Make sure the link partner matches the link
partner or is set to auto-negotiate, and the
driver is loaded. (The link indicator will not be
active until the driver is loaded.)
v
Make sure the cable is installed properly. The
network cable must be securely attached at all
connections. If the cable is attached but the
problem persists, try a different cable.
–
For copper connections, make sure the
cable is a 4-pair Category-5 or better.
For fiber connections, make sure the cable
is SX mode. Check to see if the Rx and Tx
port connectors have been reversed.
–
v
Yellow flashing
Identity. Use the Identify Adapter button in
PROSet II to control blinking. See PROSet II
Help for more information.
10 = OFF
Off
10 MBPS
100 = GRN
1000 = YLW
Green
Yellow
100 MBPS
1000 MBPS
Troubleshooting the Alacritech Quad-Port 10/100 Ethernet adapter
10/100 Ethernet adapter LED definitions
Chapter 7. Troubleshooting 69
Table 11. Alacritech Quad-Port 10/100 Ethernet adapter LED definitions
LED
Indication
Meaning
LNK
Off
Either the adapter or the switch (or both)
are not receiving power, or the cable
connection between them is faulty.
Green
Amber
The adapter and switch are receiving
power. The cable connection between
them is good. A 100 Mbps link has been
established.
The adapter and switch are receiving
power. The cable connection between
them is good. A 10 Mbps link has been
established.
ACT
Off
The adapter is not sending or receiving
network data.
Flashing amber
The adapter is sending or receiving
network data.
Testing the Quad-Port 10/100 Ethernet adapter
The event log tells you when you should run diagnostics. You can view the event
log from the Event Viewer located in the Administrative Tools folder on the Start
Menu, located under Programs. When the event log reports that “SLICx has
determined that the adapter is not functioning properly,” you can run diagnostics on
the Quad-Port 10/100 Ethernet adapter using the following procedure:
1. Run the SLICuser application from the Start Menu, located under the Program
Files folder in the Alacritech Folder.
2. Select the Diagnostics tab.
Note: Running diagnostics disrupts all ports of the adapter.
3. Click Run. The adapter will then run through a self-test of the IPP and the
selected port of the adapter. A properly functioning board will display a window
in which all of its tests have Passed.
4. Close the SLICuser utility by clicking OK.
Troubleshooting the ServeRAID-4Lx and 4H
Error codes and messages display on the screen in a line of text immediately after
the adapter BIOS version.
If POST detects changes in the controller configuration or detects a controller
If there is no POST Error or Configuration Error message, the BIOS screen
messages resemble the sample shown below. Note that your version may be
different from the one shown.
70 NAS 200 User’s Reference
__________________________________
IBM ServeRAID BIOS
Copyright IBM Corp. 1994, 2001. All rights reserved.
BIOS Ver: 4.70.17
__________________________________
Controller 1 Slot 3, Logical drive=3, Other=0, Firmware=4.70.17, Status=OK
<< Press Ctrl+I to access the Mini-Configuration Program >>
Initializing ServeRAID Controller 1 in Slot 1.
Power-on self-test can take up to 59 Second(s) -- test Passed.
Drive configuration can take up to 6 Minute(s) 0 Second(s) -- test Passed.
If there is a POST Error message, the BIOS screen resembles the sample shown
your version may be different from the one shown. The characters XXXX indicate
the POST (ISPR) error.
__________________________________
IBM ServeRAID BIOS
Copyright IBM Corp. 1994, 2001. All rights reserved.
BIOS Ver: 4.70.17
__________________________________
Controller 1 Slot 3, Logical drive=3, Other=0, Firmware=4.70.17, Status=Failed
<< Press Ctrl+I to access the Mini-Configuration Program >>
Initializing ServeRAID Controller 1 in Slot 1.
Power-on self-test can take up to 59 Second(s) -- test Failed.
Controller is not responding properly - Run Diagnostics.
Error Code: XXXX-YY
The sample BIOS screen below shows configuration status and error information.
__________________________________
IBM ServeRAID BIOS
Copyright IBM Corp. 1994, 2001. All rights reserved.
BIOS Ver: 4.70.17
__________________________________
Controller 1 Slot 3, Logical drive=3, Other=0, Firmware=4.70.17, Status=OK
<< Press Ctrl+I to access the Mini-Configuration Program >>
__________________________________
Initializing ServeRAID Controller 1 in Slot 1.
Power-on self-test can take up to 59 Second(s) -- test Passed.
Drive configuration-can take up to 6 Minute(s) 0 Second(s) -- test Failed.
Controller POST and Config Error Codes: ISPR = EF10 BCS = 09 ECS = 20.
Following drives not responding (old state: new state: ch SID)
(RDY:EMP: 2:0)
The system has a configuration error due to above condition(s). Press: F4 - Retry
the command F5- Update Controller configuration to exclude
NON-RESPONDING drives Warning: NON-RESPONDING drives will be set to
DDD, DHS, or EMP state F10 - Exit without change
Note: Do not replace a ServeRAID-4 controller or a system board containing an
imbedded ServeRAID-4 controller for ServeRAID problems unless replacing
POST (ISPR) error procedures
The Interrupt Status Port Register (ISPR) Error Procedures list errors, symptoms,
and the possible causes. The most probable cause is listed first. Use these
Chapter 7. Troubleshooting 71
procedures to help you solve ServeRAID problems when servicing the computer. A
EF 10 Default ISPR. No ISPR error present.
9ZXX thru BZXX
SCSI bus error caused either by cables, termination, defective drives, and
so on.
1. Isolate the error between SCSI subsystem and controller by
disconnecting all SCSI cables from suspect card, and reboot.
CAUTION:
Do not press F5. Doing so changes the configuration.
If an ISPR error is still present, take the following actions until the error
is no longer present:
a. Reseat the controller
b. Replace the controller
Note: If the controller detects a configuration change, do not choose
Save Changes. Instead, press F10 to bypass any options to this
effect.
2. If the ISPR error is EF10 after disconnecting cables:
a. Confirm that the identified channel(s) is the cause of the error by
verifying that the error presents itself only when the offending
channel is reconnected.
b. Check termination of identified channel.
c. Check for proper backplane jumper configuration.
d. Check for proper cabling configuration in systems that use DASD
status cables. Reconnect all cables that you disconnected at the
beginning of this procedure.
e. Replace SCSI cable.
f. Replace SCSI backplane.
FFFF (or other code not listed)
1. Isolate between SCSI Subsystem and controller by disconnecting all
SCSI cables attached to the suspect card, and reboot.
CAUTION:
CAUTION: Do not press F5. Doing so changes the configuration.
If ISPR code is EF10 after disconnecting cables, follow the steps below
until the error is eliminated:
a. Identify which channel is causing the error by reconnecting cables
one at a time and rebooting until the error returns.
b. Disconnect one drive at a time attached to identified channel and
reboot each time to determine which drive is causing the problem.
c. Replace SCSI cable attached to the identified channel.
d. Replace backplane attached to the identified channel
2. If the original ISPR code is still present after disconnecting all SCSI
cables and rebooting, take the following actions until the error is no
longer present:
a. Reseat the controller
b. Replace the controller
ServeRAID-4x problems and actions
adapter. The table helps you determine which adapters may need to be replaced at
the conclusion of troubleshooting procedures.
72 NAS 200 User’s Reference
Note: Do not replace any controllers until you have followed the POST (ISPR) error
ServeRAID controller only when indicated to do so in the POST (ISPR) error
procedures.
actual error message.
Table 12. ServeRAID-4x problems and actions
Problem
Action
1XXX (Microcode Checksum Error)
2XXX thru 5XXX (Code DRAM Error)
ServeRAID-4 controller
1. Install download jumpers, flash latest
level BIOS and firmware for controller.
Remove jumpers.
2. ServeRAID-4 controller
6XXX (Cache DRAM Error) (ServeRAID-4H
only)
1. Reseat Daughter card
2. Install download jumpers, flash latest
level BIOS and firmware for controller.
Remove jumpers.
3. ServeRAID-4 controller
7XXX thru 8XXX (Host/Local PCI Bus
Interface Error)
1. Install download jumpers, flash latest
level BIOS and firmware for controller.
Remove jumpers.
2. ServeRAID-4 controller
9ZXX thru BZXX SCSI Bus error caused by 1. Follow indications in the POST error
cables, termination, defective drives, and so
on). The Z refers to the specific channel or
channels that cause the error.
instructions before continuing with the
next steps listed in this table.
2. SCSI cable
3. SCSI backplane
4. Hard drive
5. ServeRAID-4 controller
EFFE (Firmware code corrupt or download
jumpers are in place)
1. Flash latest level BIOS and firmware for
controller. Remove jumpers.
2. ServeRAID-4 controller
FFFF or other code not listed
1. Follow indications in the POST (ISPR)
2. SCSI cable
3. SCSI backplane
4. Hard drive
5. ServeRAID-4 controller
Testing the ServeRAID 4x adapter
You can run all diagnostic operations for the ServeRAID adapters through the IBM
ServeRAID Configuration software in the Advanced Functions option. You can run
subsystem diagnostics through the system diagnostics.
Note: Before running any test, back up the current disk array configuration using
the ServeRAID diagnostics test program. Always keep a current backup of
the ServeRAID configuration information. Dynamic changes may occur in the
configuration due to hot-spare replacement.
Chapter 7. Troubleshooting 73
The IBM PC ServeRAID Adapter diagnostics test program runs independently of the
operating system and is run from diskette. You can obtain a copy from the
ServerGuide Diskette Factory or download it from IBM’s web site.
To back up the ServeRAID configuration:
1. From the Main Menu, select Advanced Functions
2. Select Backup IPS ServeRaid Config
You can use the ServeRAID Subsystem Diagnostic program to test the PC
ServeRAID Adapter and the devices connected to it. To test the ServeRAID
subsystem:
1. Start the ServeRAID Configuration Utility program
2. Select Advanced Functions from the Main Menu and press Enter
3. Select IBM ServeRAID Subsystem Diagnostic from the next menu and press
Enter
4. Select the diagnostic test that you want to run and press Enter . Descriptions of
the diagnostic tests available include:
Run Adapter Self-tests
Tests the PC ServeRAID Adapter. Restart the server after the self-test
completes.
SCSI Device Self-test
Runs diagnostic tests on the SCSI devices attached to the PC
ServeRAID Adapter.
Troubleshooting the Integrated System Management Processor
1. Insert the ISMP Utility CD-ROM into the CD-ROM drive and restart the NAS 200
engine. If the engine does not boot from the CD-ROM, use POST/BIOS setup to
configure the CD-ROM drive as a boot device.
2. After the engine boots, the main option menu appears. The main menu contains
the following selections:
v Hardware Status and Information
v Configuration Settings
v Update System Management firmware
3. Use the up and down arrow keys to select Hardware Status and Information
and press Enter. The Hardware Status and Information menu contains the list
of ISMP devices with the following diagnostic test results:
Processor Communication
:
Passed
->
Built in Self Test Status ......
Boot Sector Code Revision ...
Main Application Code Revision
: Passed
:6, Build ID: RIET62A
:4, Build ID: ILET15A
Processor Communication
:
Passed
->
Built in Self Test Status ......
Boot Sector Code Revision ...
Main Application Code Revision
: Passed
:6, Build ID: WMICT60A
:4, Build ID: WMXT57A
4. Use the up and down arrow keys to select the device you want to look at in
more detail. Press Enter. You will see a list of tests and results on the device:
Current System Management Processor Status
Current BIST Results:
SRAM Memory Test:
Passed
Passed
Passed
Passed
Passed
Passed
Serial Port 1 Test :
Serial Port 2 Test:
NVRAM Memory Test
Realtime Clock Test
Programmable Gate Array Test:
74 NAS 200 User’s Reference
I2C Interface Test:
Main Application Checksum:
Boot Sector Checksum:
Passed
Passed
Passed
Current System Management Adapter Status
Current BIST Results:
SRAM Memory Test:
Serial Port 1 Test :
Serial Port 2 Test:
NVRAM Memory Test
Realtime Clock Test
Programmable Gate Array Test:
I2C Interface Test:
Main Application Checksum:
Boot Sector Checksum:
Onboard Ethernet Hardware Test:
PCI EEPROM Initialization Test:
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
5. When you are finished viewing this information, press Esc to return to the main
option menu. Remove the CD then restart the NAS 200 engine.
Troubleshooting the Remote Supervisor Adapter
1. Insert the Remote Supervisor Adapter Support CD into the CD-ROM drive and
restart the engine. If the engine does not boot from the CD-ROM, use
POST/BIOS setup to configure the CD-ROM drive as a boot device.
2. After the engine boots, the main option menu appears. The main menu contains
the following selections:
v Hardware Status and Information
v Configuration Settings
v Update System Management firmware
3. Use the up and down arrow keys to select Hardware Status and Information
and press Enter. The Hardware Status and Information menu contains the list
of devices with the following diagnostic test results:
System Management Processor Communication
:
Passed
->
Built in Self Test Status ......
Boot Sector Code Revision ...
Main Application Code Revision
: Passed
:16, Build ID: CNET15A
:16, Build ID: TUET15A
4. Use the up and down arrow keys to select the device you want to look at in
more detail. Press Enter. You will see a list of tests and results on the device:
Current System Management Processor Status
Current BIST Results:
SRAM Memory Test:
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Serial Port 1 Test :
Serial Port 2 Test:
NVRAM Memory Test
Realtime Clock Test
Programmable Gate Array Test:
I2C Interface Test:
Main Application Checksum:
Boot Sector Checksum:
Current System Management Adapter Status
Current BIST Results:
SRAM Memory Test:
Serial Port 1 Test :
Serial Port 2 Test:
NVRAM Memory Test
Realtime Clock Test
Passed
Passed
Passed
Passed
Passed
Chapter 7. Troubleshooting 75
Programmable Gate Array Test:
I2C Interface Test:
Main Application Checksum:
Boot Sector Checksum:
Onboard Ethernet Hardware Test:
PCI EEPROM Initialization Test:
Passed
Passed
Passed
Passed
Passed
Passed
5. When you are finished viewing this information, press Esc to return to the main
option menu. Remove the CD then restart the engine.
Testing SCSI Adapters
The SCSI adapters are used for tape backup operations. They may be configured
during engine boot time by entering Ctrl-A when prompted. This invokes the BIOS
SCSI Select utility. Follow the on-screen directions when this utility appears. The
adapters are tested during the boot process.
76 NAS 200 User’s Reference
Chapter 8. Using the Recovery and Supplementary CDs
This chapter describes the applications included on the Supplementary and
Recovery CDs, and how and when you should use them.
Attention: Changing the preloaded software configuration of this product,
including applying or installing unauthorized service packs or updates to preinstalled
software, or installing additional software products that are not included in the
preloaded image, on the Supplementary CD, or on the IBM website, may not be
supported and could cause unpredictable results. For updated compatibility
information, please see
http://www.ibm.com/storage/support/nas
To correct problems with a preloaded software component, back up your user and
system data. Then use the Recovery CD Set to restore the preloaded software
image.
As an alternative to using the Recovery CD Set, you can use the restore portion of
the disaster recovery solution provided by Persistent Storage Manager (PSM) to
recover the appliance, if you have met the requirements (including creating a PSM
backup image and PSM recovery diskette). The restore function allows you to
restore the appliance to the state it was in at the time of the PSM backup, in one
step, without having to revert back to the original (factory) configuration which would
require you to subsequently reconfigure networking and other components. See
requirements. If so, you can use the PSM recovery method. If you have not met the
requirements for using the PSM recovery method, or if the PSM recovery fails, then
you must use the Recovery CD Set as described in this chapter.
Using the Recovery Enablement Diskette and Recovery CD Set
The Recovery CD Set (three CDs, labeled as Recovery CD 1, Recovery CD 2, and
Recovery CD 3) contains the preload image for your NAS 200 and is used to
recover the preloaded image on your appliance. You must start the appliance using
the Recovery Enablement Diskette before you can boot Recovery CD 1.
Attention: The NAS 200 does not have a monitor, keyboard, or mouse attached
to it under normal operating conditions. Because of this, you cannot interact with
the preload-image restore process using a monitor. Starting Recovery CD 1 will,
without visually prompting the user, automatically destroy all data on the system
drive. Use the Recovery Enablement Diskette and Recovery CD Set only when it is
absolutely necessary to restore the preloaded system image.
To recover the preloaded image on an appliance, do the following steps. Note that
the recovery process invalidates persistent images and leaves them in a state that
is inconsistent with their pre-recovery state. So, if you plan to use the Recovery CD
Set, it is recommended that you first delete all persistent images to ensure a clean
reload of the system software.
1. Attach a keyboard and display to the appliance.
2. Insert the Recovery Enablement Diskette into the diskette drive of the appliance
and restart the appliance. When the Recovery Enablement Diskette has
completed loading and modifying your node startup sequence, the node will
begin a continuous beep. Do not continue with this procedure until the node
begins the beep.
© Copyright IBM Corp. 2001
77
Important
The Recovery Enablement Diskette enables the NAS 200 to start from the
CD-ROM drive. You will not be able to restore the preload image from the
Recovery CD Set without first restarting the appliance using the Recovery
Enablement Diskette.
3. Remove the Recovery Enablement Diskette from the diskette drive of the
appliance.
4. Place Recovery CD 1 in the CD-ROM drive of the appliance and restart the
appliance.
5. If you have installed more processor memory on the failed node, the BIOS
configuration program will now appear. Click Continue on the first screen, then
click Continue again, then click Exit Setup, and finally, click Yes, save and exit
Setup.
6. The recovery process will begin automatically. Follow the instructions provided
by the image restoration software, and the original manufacturing preload will be
restored. During the restoration of the preload, you will be prompted to insert
the other recovery CDs into the CD-ROM drive. Once the preload image is
restored, the node restarts automatically.
7. If you have installed more processor memory, the BIOS configuration program
will now appear a second time. Click Continue on the first screen, then click
Continue again, then click Exit Setup, and finally, click Yes, save and exit Setup.
You may now detach the keyboard and display from the appliance and allow the
recovery process to complete automatically.
Important
v After the appliance restarts, a series of configuration and system
preparation programs that finish configuring the appliance run
automatically. These programs must finish running before you use any
included applications (such as the IBM Advanced Appliance
Configuration Utility or the Terminal Services Client) to connect to or
configure your NAS 200. Do not connect to or configure the appliance
for at least 15 minutes after system restart. This notice applies only to
the first time the NAS 200 is started after using the Recovery CD Set.
v Logical Disk 0 will be configured to have a 6-GB NTFS boot partition.
Any other previously configured logical disk drives, as well as the
remainder of Logical Disk 0 (which, on the original hard disk drive of the
appliance, contains the Maintenance partition, but for a replacement
hard disk drive would not contain any other partitions), will be left
unchanged.
8. Reinstall all software updates you had installed on the appliance since you
installed the NAS 200 out of the box. Or, if the Recovery CD Set you used in
this procedure is a newer version than the one you received with the NAS 200,
reinstall only those software updates that are newer than those on the Recovery
CD Set.
78 NAS 200 User’s Reference
Using the Supplementary CD
The Supplementary CD contains documentation and copies of key software
the directories found on the Supplementary CD and a description of the contents of
the directory.
Table 13. Supplementary CD directories
Directory Name
Contents
IBM Advanced Appliance
Configuration
IBM Advanced Appliance Configuration console and agent installation files. The IBM
Advanced Appliance Configuration agent is preinstalled as a Windows Powered service
on the NAS 200. To install the Advanced Appliance Configuration console (on another
network-attached workstation running Windows 98, Windows NT, or Windows 2000),
run lpv2setup.exe from the x:\IBM Advanced Appliance Configuration directory, where x
is the drive letter assigned to your workstation’s CD-ROM drive.
Note: When the installation completes, it will leave behind a temporary directory
named iaacu on the workstation, under the directory specified by the TEMP
environment variable (usually c:\temp; you can determine the value of the TEMP
variable by typing set temp from a DOS command prompt). You should remove this
directory (using Windows Explorer) after the installation has completed.
DiskImages
Diskette images for the Recovery Enablement Diskette and the IBM NAS AutoRAID
diskette.
To create the Recovery Enablement Diskette, run RecovDsk.bat and insert an HD 1.44
floppy diskette into drive A: when prompted.
To create the IBM NAS AutoRAID diskette, run IBM_NAS_AutoRAID.exe and insert an
HD 1.44 floppy diskette into drive A: when prompted.
Note that the NAS 200 supports three, four, five, or six internal hard disk drives. Please
read the file readme.txt in the root directory and readme.txt in this directory for more
information about the diskette images and how to create diskettes from the images.
Attention: Starting the NAS 200 with the IBM NAS AutoRAID diskette will remove all
RAID configuration changes from your ServeRAID adapter, including any changes you
applied to the configuration for any additional storage (internal hard disk drives and/or
external storage units) you added to the NAS 200 since you received it, and restore the
RAID configuration to its factory default configuration. All data stored in your
ServeRAID arrays will be lost. Use this diskette only if you want to reset the NAS 200
to factory default settings. After using the diskette, you must use the Recovery CD
(described earlier in this chapter) to restore the preloaded software image on the
system drive.
I386
Windows Powered installation files. If you add device drivers, OS features, and so on,
you may be prompted to insert your Windows Powered CD-ROM. If so, insert the
Supplementary CD, and specify path x:\i386, where x is the drive letter assigned to
your CD-ROM drive.
W2KSP2
Windows Powered Service Pack 2, which is preloaded on your NAS 200. If you add
any device drivers, OS features, and so on, you should reapply Service Pack 2. Run
the executable w2ksp2.exe, and follow the instructions provided.
Chapter 8. Using the Recovery and Supplementary CDs 79
Table 13. Supplementary CD directories (continued)
Directory Name
Contents
Services for UNIX
SFU 2.2 installation files, zipped into a self-extracting executable, sfu22.exe. If you add
features that are not preloaded, you will be prompted for these installation files. You will
need to extract the installation files onto the hard disk drive of your NAS 200. It is
recommended that you use the maintenance drive (D: drive) as the destination, but you
can use the system drive (C: drive). On whatever drive you choose, make sure that
you have at least 250 MB of free space available, create a temporary directory on the
drive, and then issue the following command from the Services for UNIX directory on
the Supplementary CD: sfu22 path, where path is the drive letter and path of the
temporary directory you created. Then when you are prompted by the Services for
UNIX installation to provide the path of the installation files, specify the same path you
specified in extracting the files from the CD.
Terminal Services Client
readme.txt
The standalone Win32 Terminal Services Client application. The NAS 200 appliance
supports Web-based terminal services, so this is an optional installation. To install the
Terminal Services Client, run setup.exe from the Disk1 subdirectory.
This is a text file that describes the contents of the Supplementary CD.
80 NAS 200 User’s Reference
Appendix A. Notices
This information was developed for products and services offered in the U.S.A.
IBM may not offer the products, services, or features discussed in this document in
other countries. Consult your local IBM representative for information on the
products and services currently available in your area. Any reference to an IBM
product, program, or service is not intended to state or imply that only that IBM
product, program, or service may be used. Any functionally equivalent product,
program, or service that does not infringe any IBM intellectual property right may be
used instead. However, it is the user’s responsibility to evaluate and verify the
operation of any non-IBM product, program, or service.
IBM may have patents or pending patent applications covering the subject matter in
this document. The furnishing of this document does not give you any license to
these patents. You can send license inquiries, in writing, to:
IBM Director of Licensing
IBM Corporation
North Castle Drive
Armonk, NY 10504-1785
U.S.A.
For license inquiries regarding double-byte (DBCS) information, contact the IBM
Intellectual Property Department in your country or send inquiries, in writing, to:
IBM World Trade Asia Corporation
Licensing
2-31 Roppongi 3-chome, Minato-ku
Tokyo 106, Japan
The following paragraph does not apply to the United Kingdom or any other country
where such provisions are inconsistent with local law: INTERNATIONAL BUSINESS
MACHINES CORPORATION PROVIDES THIS PUBLICATION ″AS IS″ WITHOUT
WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING, BUT
NOT LIMITED TO, THE IMPLIED WARRANTIES OF NON-INFRINGEMENT,
MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE. Some states
do not allow disclaimer of express or implied warranties in certain transactions,
therefore, this statement may not apply to you.
This information could include technical inaccuracies or typographical errors.
Changes are periodically made to the information herein; these changes will be
incorporated in new editions of the publication. IBM may make improvements and/or
changes in the product(s) and/or program(s) described in this publication at any
time without notice.
IBM may use or distribute any of the information you supply in any way it believes
appropriate without incurring any obligation to you.
Information concerning non-IBM products was obtained from the suppliers of those
products, their published announcements or other publicly available sources. IBM
has not tested those products and cannot confirm the accuracy of performance,
compatibility or any other claims related to non-IBM products. Questions on the
capabilities of non-IBM products should be addressed to the suppliers of those
products.
© Copyright IBM Corp. 2001
81
Any references in this information to non-IBM Web sites are provided for
convenience only and do not in any manner serve as an endorsement of those
Web sites. The materials at those Web sites are not part of the materials for this
IBM product and use of those Web sites is at your own risk.
Trademarks
The following terms are trademarks of International Business Machines Corporation
in the United States or other countries or both:
IBM
Netfinity
Netfinity Advanced System Management
Netfinity Manager
ServeRAID
ServerGuide
TotalStorage
Lotus and Domino are trademarks of Lotus Development Corporation in the United
States, other countries, or both.
Tivoli and NetView are trademarks of Tivoli Systems Inc. in the United States, other
countries, or both.
Intel, MMX, LANDesk, Pentium, Pentium II Xeon, and Pentium III Xeon are
trademarks or registered trademarks of Intel Corporation in the United States, other
countries, or both.
Microsoft, Windows, and Windows NT are trademarks or registered trademarks of
Microsoft Corporation.
UNIX is a registered trademark in the United States and other countries and is
licensed exclusively through The Open Group.
Java and all Java-based trademarks and logos are trademarks or registered
trademarks of Sun Microsystems, Inc. in the United States, other countries, or both.
Other company, product, and service names may be trademarks or service marks
of others.
82 NAS 200 User’s Reference
Appendix B. Getting help, service, and information
If you need help, service, technical assistance, or just want more information about
IBM products, you will find a wide variety of sources available from IBM to assist
you.
IBM maintains pages on the World Wide Web where you can get information about
IBM products and services and find the latest technical information.
Table 14. IBM Web sites for help, services, and information
www.ibm.com
Main IBM home page
www.ibm.com/storage
www.ibm.com/storage/support/nas
IBM Storage home page
IBM NAS Support home page
You might also want to visit the Web pages of other companies for information
about other operating systems, software, and accessories. The following are some
other Web sites you might find helpful:
www.tivoli.com
www.cdpi.com
Services available and telephone numbers listed are subject to change without
notice.
Service support
With the original purchase of an IBM hardware product, you have access to
extensive support coverage. During the IBM hardware product warranty period, you
may call the IBM Support Center (1-800-426-7378 in the U.S.) for hardware product
countries.
The following services are available during the warranty period:
v Problem determination - Trained personnel are available to assist you with
determining if you have a hardware problem and deciding what action is
necessary to fix the problem.
v IBM hardware repair - If the problem is determined to be caused by IBM
hardware under warranty, trained service personnel are available to provide the
applicable level of service.
v Engineering change management - Occasionally, there might be changes that
are required after a product has been sold. IBM or your reseller, if authorized by
IBM, will make Engineering Changes (ECs) available that apply to your
hardware.
Be sure to retain your proof of purchase to obtain warranty service.
Please have the following information ready when you call:
v Machine Type and Model
v Serial numbers of your IBM hardware products
© Copyright IBM Corp. 2001
83
v Description of the problem
v Exact wording of any error messages
v Hardware and software configuration information
If possible, be at your computer when you call.
A compatible monitor, keyboard, and mouse may be required for some service
activities.
The following items are not covered:
v Replacement or use of non-IBM parts or nonwarranted IBM parts
Note: All warranted parts contain a 7-character identification in the format IBM
FRU XXXXXXX.
v Identification of software problem sources
v Configuration of BIOS as part of an installation or upgrade
v Changes, modifications, or upgrades to device drivers
v Installation and maintenance of network operating systems (NOS)
v Installation and maintenance of application programs
Refer to your IBM hardware warranty for a full explanation of IBM’s warranty terms.
Before you call for service
Many computer problems can be solved without outside assistance, by using the
online help or by looking in the online or printed documentation that comes with
your Model 200. Also, be sure to read the information in any README files that
come with your software.
Your Model 200 comes with documentation that contains troubleshooting
procedures and explanations of error messages. The documentation that comes
with your appliance also contains information about the diagnostic tests you can
perform.
If you receive a POST error code or beep code when you turn on your Network
Attached Server appliance, refer to the POST error-message charts in your
hardware documentation. If you do not receive a POST error code or beep code,
but suspect a hardware problem, refer to the troubleshooting information in your
hardware documentation or run the diagnostic tests.
If you suspect a software problem, consult the documentation (including any
README files) for the operating system or application program.
Getting customer support and service
Purchasing an IBM Network Attached Storage appliance entitles you to standard
help and support during the warranty period. If you need additional support and
services, a wide variety of extended services are available for purchase that
address almost any need.
Getting help online: www.ibm.com/storage/support/nas
Here you can visit a support page that is specific to your hardware, complete with
FAQs, parts information, technical hints and tips, technical publications, and
downloadable files, if applicable.
84 NAS 200 User’s Reference
Getting help by telephone
During the warranty period, you can get help and information by telephone through
the IBM Support Center. Expert technical-support representatives are available to
assist you with questions you might have on the following:
v Setting up your Network Attached Storage appliance
v Arranging for service
v Arranging for overnight shipment of customer-replaceable parts
In addition, if you purchased a Network Attached Storage appliance, you are eligible
for IBM up-and-running support for 90 days after installation. This service provides
assistance for:
v Setting up your appliance
v Limited configuration assistance
Please have the following information ready when you call:
v Machine Type and Model
v Serial numbers of your appliance and other components, or your proof of
purchase
v Description of the problem
v Exact wording of any error messages
v Hardware and software configuration information for your system
If possible, be at your computer when you call.
In the U.S. and Canada, these services are available 24 hours a day, 7 days a
week. In the U.K., these services are available Monday through Friday, from 9:00
a.m. to 6:00 p.m.1
1. Response time will vary depending on the number and complexity of incoming calls.
Appendix B. Getting help, service, and information 85
86 NAS 200 User’s Reference
Appendix C. Engine POST messages
This appendix identifies and describes POST messages that you might encounter,
and gives corrective actions where applicable.
Note: The information in this appendix applies to each engine in the appliance. For
example, when the text reads, “When a monitor and keyboard is attached to
the appliance,” that means that a monitor and keyboard has been attached
to either of the two engines.
Power-on self-test (POST)
When you turn on your NAS 200, its engine performs a power-on self-test (POST)
to check the operation of appliance components and some of the options installed
in the appliance.
If POST finishes without detecting any problems when a monitor and keyboard are
not attached to the appliance, you will hear one long and three short beeps. When
a monitor and keyboard are attached, you will hear one short beep. Any other
series of beeps indicates a problem, and an error message appears on your
Notes:
1. If you have a power-on password or administrator password set, you must type
the password and press Enter, when prompted, before POST will continue.
2. A single problem might cause several error messages. When this occurs, work
to correct the cause of the first error message. After you correct the cause of
the first error message, the other error messages usually will not occur the next
time you run the test.
POST beep code descriptions
Beep codes are sounded in a series of beeps. For example, a 1-2-4 beep code
sounds like one beep, a pause, two consecutive beeps, another pause, and four
more consecutive beeps.
The possible types of beep codes that your appliance might emit include the
following:
No beeps
If no beep occurs after your appliance completes POST (that is, after the
system POST complete (OK) light on the operator information panel is
illuminated), call for service.
Continuous beep
The recovery enablement disk has booted, your startup (boot)
microprocessor has failed, or your system board or speaker subsystem
might contain a failing component. If the system continues through POST
with no errors, call for service. If no video appears, the startup processor
has failed; replace the startup processor.
One short beep
When a monitor and keyboard is attached to the appliance, one beep
indicates that your appliance successfully completed POST. POST detected
no configuration or functional errors. One beep also occurs after your
appliance completes POST if you enter an incorrect power-on password.
© Copyright IBM Corp. 2001
87
Two short beeps
POST encountered an error. The Configuration/Setup Utility program will
display additional information; follow the instructions that appear on the
messages that might appear.
Three short beeps
A system memory error has occurred. This combination occurs only if the
video Basic Input/Output System (BIOS) cannot display the error message.
Replace the failing memory module.
Repeating short beeps
The system board might contain a failing component, your keyboard might
be defective, or a key on the keyboard might be stuck. Ensure that:
1. Nothing is resting on the keyboard and pressing a key.
2. No key is stuck.
3. The keyboard cable is connected correctly to the keyboard and to the
correct connector on the appliance.
Running the diagnostic tests can isolate the appliance component that
failed, but you must have your system serviced. If the error message
remains, call for service.
Note: If you just connected a new mouse or other pointing device, turn off
the appliance and disconnect that device. Wait at least 5 seconds;
then, turn on the appliance. If the error message goes away, replace
the device.
One long and one short beep
POST encountered an error on a video adapter. If you are using the
integrated video controller, call for service. If you are using an optional
video adapter, replace the failing video adapter.
One long and two short beeps
A video I/O adapter ROM is not readable, or the video subsystem is
defective. If you hear this beep combination twice, both the system board
and an optional video adapter have failed the test. This beep combination
might also indicate that the system board contains a failing component.
One long and three short beeps
This series of beeps has two meanings. The first means that the POST has
completed without detecting errors, when a monitor and keyboard is not
attached. However, when a monitor is attached, and you hear this series, it
means the system-board video subsystem has not detected a monitor
connection to the appliance. Ensure that the monitor is connected properly
to the appliance. If the problem persists, replace the monitor.
Two long and two short beeps
POST does not support the optional video adapter. This beep combination
occurs when you install a video adapter that is incompatible with your
appliance. Replace the optional video adapter with one that the appliance
supports or use the integrated video controller.
88 NAS 200 User’s Reference
POST beep codes
Table 15. POST beep codes
Symptom
FRU/action
Processor
1-1-2 (Processor register
test failed)
1-1-3 (CMOS write/read test
failed)
1. Battery
2. System board
1-1-4 (BIOS EEPROM
checksum failed)
System board
System board
System board
System board
1-2-1 (Programmable
Interval Timer failed)
1-2-2 (DMA initialization
failed)
1-2-3 (DMA page register
write/read failed)
1-2-4 (RAM refresh
verification failed)
1. DIMM
2. System board
1-3-1 (1st 64K RAM test
DIMM
failed)
1-3-2 (1st 64K RAM parity
test failed)
1. DIMM
2. System board
2-1-1 (Secondary DMA
System board
register failed)
2-1-2 (Primary DMA register System board
failed)
2-1-3 (Primary interrupt
mask register failed)
System board
System board
2-1-4 (Secondary interrupt
mask register failed)
2-2-2 (Keyboard controller
failed)
1. System board
2. Keyboard
2-2-3 (CMOS power failure
and checksum checks failed)
1. Battery
2. System board
2-2-4 (CMOS configuration
information validation failed)
1. Battery
2. System board
2-3-1 (Screen initialization
failed)
1. Jumper on J14
2. System board
2-3-2 (Screen memory
System board
failed)
2-3-3 (Screen retrace failed) System board
2-3-4 (Search for video
System board
ROM failed)
2-4-1 (Video failed; screen
System board
believed operable)
Appendix C. Engine POST messages 89
Table 15. POST beep codes (continued)
Symptom
FRU/action
3-1-1 (Timer tick interrupt
System board
failed)
3-1-2 (Interval timer channel System board
2 failed)
3-1-3 (RAM test failed above
address OFFFFH)
1. DIMM
2. System board
3-1-4 (Time-Of-Day clock
failed)
1. Battery
2. System board
3-2-1 (Serial port failed)
System board
System board
Processor
3-2-2 (Parallel port failed)
3-2-3 (Math coprocessor
failed)
3-2-4 (Failure comparing
CMOS memory size against
actual)
1. DIMM
2. Battery
3-3-1 (Memory size
mismatch occurred; see the
Hardware Installation
Guide.)
1. DIMM
2. Battery
3-3-2 (Critical SMBUS error
occurred)
1. Disconnect the server power cord from outlet, wait 30
seconds and retry.
2. System board
3. DIMMs
4. DASD backplane
5. Power supply
6. Power supply backplane
7. 12 C cable
3-3-3(No operational
memory in system)
1. Install or reseat the memory modules, then do a 3
boot reset. (See the Hardware Installation Guide.)
2. DIMMs
3. Memory board
4. System board
Two Short Beeps
(Information only, the
configuration has changed)
1. Run diagnostics
2. Run Configuration/Setup
Three Short Beeps
1. DIMM
2. System board
One Continuous Beep
Repeating Short Beeps
1. Processor
2. System board
1. Keyboard
2. System board
One Long and One Short
Beep
1. Video adapter (if present)
2. System board
90 NAS 200 User’s Reference
Table 15. POST beep codes (continued)
Symptom
FRU/action
One Long and Two Short
Beeps
1. Video adapter (if present)
2. System board
Two Long and Two Short
Beeps
Video adapter
Table 16. POST no-beep codes
No Beep Symptom
FRU/action
No beep and the system
operates correctly.
1. Check speaker cables
2. Speaker
3. System board
No Beeps occur after
successfully completing
POST (The Power-On
Status is disabled.)
1. Run Configuration/Setup, set the Start Options
Power-On Status to enable.
2. Check speaker connections
3. System board
No AC power(Power
supply AC LED is off)
1. Check the power cord.
2. Power supply (If two are installed, swap them to determine if
one is defective.)
3. Power backplane
4. Hot-swap power AC inlet box
No beep and no video
See the Hardware Installation Guide.
System will not
See the Hardware Installation Guide
power-up (Power supply
AC LED is on)
Appendix C. Engine POST messages 91
POST error messages
during startup.
Note that these diagnostic error messages require the attachment of a monitor,
keyboard, and mouse (before you power on the system) to enable you to see them.
In the following error messages, X can be any number or letter.
Table 17. POST error messages
Error
Meaning
FRU/action
code/Symptom
062
Three consecutive boot
failures using the default
configuration
1. Run Configuration/Setup
2. Battery
3. System board
4. Processor
101, 102
106
System and processor error
System and processor error
Channel check error
System board
System board
111
1. Failing ISA Adapter
2. DIMM
3. System board
114
129
151
Adapter read-only memory
error
1. Failing Adapter
2. Run Diagnostics
Internal cache error
Real-time clock error
1. Processor
2. Optional processor (if installed)
1. Run Diagnostics
2. Battery
3. System board
161
162
Real-time clock battery error
Device Configuration error
1. Run Configuration/Setup
2. Battery
3. System board
1. Run Configuration/Setup
Note: Be sure to load the default settings and any
additional desired settings; then, save the configuration.
2. Battery
3. Failing Device
4. System board
163
Real-time clock error
1. Run Configuration/Setup
2. Battery
3. System board
164
175
Memory configuration
changed
1. Run Configuration/Setup
2. DIMM
Hardware error
System board
92 NAS 200 User’s Reference
Table 17. POST error messages (continued)
Error
Meaning
FRU/action
code/Symptom
176
Computer cover or cable
cover was removed without a
key being used
1. Run Configuration/Setup
2. System board
3. C2 Security Switch
177, 178
184
Security hardware error
1. Run Configuration/Setup
2. System board
Power-on password
corrupted
1. Run Configuration/Setup
2. System board
185
Drive startup-sequence
information corrupted
1. Run Configuration/Setup
2. System board
186
Security hardware-control
logic failed
1. Run Configuration/Setup
2. System board
187
VPD serial number not set
Bad EEPROM CRC #2
1. Set serial number in Setup
2. System board
188
1. Run Configuration/Setup
2. System board
189
An attempt was made to
access the appliance with
invalid passwords
Run Configuration/Setup, enter the administrator
password
201
Memory test error
If the appliance does not have the latest level of BIOS
installed, update the BIOS to the latest level and run the
diagnostic program again.
1. DIMM
2. System board
229
Cache error
1. Run Configuration/Setup
2. Processor
3. Second Processor
262
289
301
303
602
DRAM parity configuration
error
1. Battery
2. System board
DIMM has been disabled by
the user or system
1. Run Configuration/Setup, if disabled by user
2. Disable DIMM, if not disabled by user
Keyboard or
keyboard-controller error
1. Keyboard
2. System board
Keyboard controller error
Invalid diskette boot record
1. System board
2. Keyboard
1. Diskette
2. Diskette drive
3. Cable
4. System board
Appendix C. Engine POST messages 93
Table 17. POST error messages (continued)
Error
Meaning
FRU/action
code/Symptom
604
Diskette-drive error
1. Run Configuration/Setup and diagnostics
2. Diskette Drive
3. Drive cable
4. System board
605
662
Unlock failure
1. Diskette drive
2. Drive cable
3. System board
Diskette-drive configuration
error
1. Run Configuration/Setup and Diagnostics
2. Diskette Drive
3. Drive Cable
4. System board
762
Coprocessor configuration
error
1. Run Configuration/Setup
2. Battery
3. Processor
962
Parallel-port error
1. Disconnect external cable on parallel port.
2. Run Configuration/Setup
3. System board
11XX
System-board serial port 1 or
2 error
1. Disconnect external cable on serial port.
2. Run Configuration/Setup
3. System board
0001200
0001295
1301
Machine-check architecture
error
1. Processor
2. Optional Processor
ECC circuit check
1. System board
2. Processor
I2C cable to front panel not
found
1. Cable
2. Front panel
3. Power switch assembly
4. System board
1302
1303
1304
I2C cable from system board
to power on and reset
switches not found
1. Cable
2. Power Switch Assembly
3. System board
I2C cable from system board
to power backplane not
found
1. Cable
2. Power backplane
3. System board
I2C cable to diagnostic LED
board not found
1. Cable
2. Diagnostic LED Board
3. Power Switch Assembly
4. System board
94 NAS 200 User’s Reference
Table 17. POST error messages (continued)
Error
Meaning
FRU/action
code/Symptom
1600
The Service Processor is not
functioning
1. Ensure that a jumper is not installed on J-51
2. Remove the AC power to the system, wait 20 seconds
and then reconnect the AC power. Wait 30 seconds; then,
power-on the appliance.
3. System board
4. Processor/PCI board
1601
The system is able to
Suspected part:
communicate to the Service
Processor, but the Service
Processor failed to respond
at the start of POST
1. Remove the AC power to the system, wait 20 seconds,
and reconnect the AC power. Wait 30 seconds and
power on the system.
2. Flash update the service processor.
3. System board
4. Processor/PCI board
1762
Hard-disk-drive configuration
error
1. Run Configuration/Setup
2. Hard disk cables
3. Hard disk adapter
4. Hard disk drive
5. SCSI backplane
6. System board
178X
Hard-disk-drive error
1. Run diagnostics
2. Hard disk cables
3. Hard disk adapter
4. Hard disk drive
5. System board
1800
1962
No more hardware interrupts
available for PCI adapter
1. Run Configuration/Setup
2. Failing adapter
3. System board
Drive does not contain a
valid boot sector
1. Verify that a bootable operating system is installed.
2. Run diagnostics
3. Hard disk drive
4. SCSI backplane
5. Cable
6. System board
5962
8603
IDE CD-ROM configuration
error
1. Run Configuration/Setup
2. CD-ROM drive
3. CD-ROM power cable
4. IDE Cable
5. System board
6. Battery
Pointing-device error
1. Pointing device
2. System board
Appendix C. Engine POST messages 95
Table 17. POST error messages (continued)
Error
Meaning
FRU/action
code/Symptom
00019501
Processor 1 is not functioning
1. Check VRM and processor LEDs
2. VRM 1, VRM 2
3. Processor 1
4. Processor board
5. System board
00019502
Processor 2 is not functioning
1. Check VRM and processor LEDs
2. VRM 2
3. Processor 2
4. System board
00019701
00019702
00180100
Processor 1 failed BIST
Processor 2 failed BIST
No room for PCI option ROM
1. Processor 1
2. System board
1. Processor 2
2. System board
1. Run Configuration/Setup
2. Failing adapter
3. System board
00180200
00180300
00180400
No more I/O space available
for PCI adapter
1. Run Configuration/Setup
2. Failing adapter
3. System board
No more memory (above 1
MB for PCI adapter)
1. Run Configuration/Setup
2. Failing adapter
3. System board
No more memory (below 1
MB for PCI adapter)
1. Move the failing adapter to slot 1 or 2
2. Run Configuration/Setup
3. Failing adapter
4. System board
00180500
00180600
PCI-option ROM checksum
error
1. Remove failing PCI card
2. System board
PCI built-in self-test failure;
PCI-to PCI-bridge error
1. Run Configuration/Setup
2. Move the failing adapter to slot 1 or 2
3. Failing adapter
4. System board
00180700,
00180800
General PCI error
1. System board
2. PCI card
01295085
01298001
ECC checking hardware test Processor
error
No update data for processor
1
1. Ensure that all processors are the same stepping level
and cache size.
2. Processor 1
96 NAS 200 User’s Reference
Table 17. POST error messages (continued)
Error
Meaning
FRU/action
code/Symptom
01298002
01298101
01298102
I9990301
No update data for processor
2
1. Ensure that all processors are the same stepping level
and cache size.
2. Processor 2
Bad update data for
processor 1
1. Ensure that all processors are the same stepping level
and cache size.
2. Processor 1
Bad update data for
processor 2
1. Ensure that all processors are the same stepping level
and cache size.
2. Processor 2
Fixed boot sector error
1. Hard disk drive
2. SCSI backplane
3. Cable
4. System board
I9990305
I9990650
Fixed boot sector error, no
operating system installed
Install the operating system to the hard disk drive
AC power has been restored
1. Check power cable
2. Check for interruption of power supply
Event/error logs
The POST error log contains the three most recent error codes and messages that
the system generated during POST. The System Event/Error Log contains all error
messages issued during POST and all system status messages from the Advanced
System Management Processor. In event of a POST error, check the System
Event/Error Log as it may indicate the most recent errors commonly associated with
typical hardware failures. It may not detect all hardware failures but many times will
provide an indicator as to the nature of key failures.
To view the contents of the error logs, start the Configuration/Setup Utility program,
then select Event/Error Logs from the main menu.
POST diagnostic programs
The appliance diagnostic programs are stored in upgradable read-only memory
(ROM) on the system board. These programs are the primary method of testing the
major components of your appliance.
Diagnostic program error messages indicate that a problem exists; they are not
intended to be used to identify a failing part. Troubleshooting and servicing of
complex problems that are indicated by error messages should be performed by
trained service personnel. For a list of error messages and associated actions that
Sometimes the first error to occur causes additional errors. In this case, the
appliance displays more than one error message. Always follow the suggested
action instructions for the first error message that appears.
Appendix C. Engine POST messages 97
The following sections contain the error codes that might appear in the detailed test
log and summary log when running the diagnostic programs.
The error code format is as follows:
fff-ttt-iii-date-cc-text message
where:
fff
is the three-digit function code that indicates the function being tested when
the error occurred. For example, function code 089 is for the
microprocessor.
ttt
is the three-digit failure code that indicates the exact test failure that was
encountered.
iii
is the three-digit device ID.
date
cc
is the date that the diagnostic test was run and the error recorded.
is the check digit that is used to verify the validity of the information.
text message
is the diagnostic message that indicates the reason for the problem.
Text messages
The diagnostic text message format is as follows:
Function Name: Result (test specific string)
where:
Function Name
is the name of the function being tested when the error occurred. This
corresponds to the function code (fff) given in the previous list.
Result can be one of the following:
Passed
The diagnostic test has completed without any errors.
Failed The diagnostic test has discovered an error.
User Aborted
You stopped the diagnostic test before it is complete.
Not Applicable
You specified a diagnostic test for a device that is not present.
Aborted
The test could not proceed because of the system configuration.
Warning
A possible problem was reported during the diagnostic test, such as
when a device that is to be tested is not installed.
Test Specific String
This is additional information that you can use to analyze the problem.
Starting the diagnostic programs
To start the diagnostic programs:
1. Ensure you have connected a monitor, keyboard, and mouse to your NAS 200.
98 NAS 200 User’s Reference
Notes:
a. When you do not have a monitor, keyboard, and mouse attached and the
NAS 200 engine passes POST, one long and three short beeps sound.
b. When you have a monitor, keyboard, and mouse attached and the NAS 200
engine passes POST, one beep sounds. If the NAS 200 fails POST, a series
details) and an error message appears on the monitor screen.
2. Power on the NAS 200 and watch the screen.
3. When the message F2 for Diagnostics appears, press F2. If a POST error is
encountered, a series of beeps sound and an error message appears on the
monitor screen.
4. Type in the appropriate password; then, press Enter. If a system error is
encountered, the Configuration/Setup screen appears. Press Esc to start the
Diagnostic program.
Note: To run the diagnostic programs, you must start the NAS 200 with the
highest level password that is set. That is, if an administrator password is
set, you must enter the administrator password, not the power-on
password, to run the diagnostic programs.
5. Select either Extended or Basic from the top of the screen. (PC-Doctor 2.0 with
a copyright statement appears at the bottom of this screen.)
6. When the Diagnostic Programs screen appears, select the test you want to run
from the list that appears; then, follow the instructions on the screen.
Notes:
a. Press F1 while running the diagnostic programs to obtain Help information.
Also press F1 from within a help screen to obtain online documentation from
which you can select different categories. To exit Help and return to where
you left off, press Esc.
b. If the NAS 200 engine stops during testing and you cannot continue, restart
the NAS 200 engine and try running the diagnostic programs again.
c. If you run the diagnostic programs with either no mouse or a USB mouse
attached to your NAS 200 engine, you will not be able to navigate between
test categories using the Next Cat and Prev Cat buttons. All other functions
provided by mouse-selectable buttons are also available using the function
keys.
d. You can test the USB keyboard by using the regular keyboard test. The
regular mouse test can test a USB mouse. Also, you can run the USB hub
test only if there are no USB devices attached.
e. You can view NAS 200 engine configuration information (such as system
configuration, memory contents, interrupt request (IRQ) use, direct memory
access (DMA) use, device drivers, and so on) by selecting Hardware Info
from the top of the screen.
f. You cannot use the diagnostics program to test adapters. Use the procedure
When the tests have completed, you can view the Test Log by selecting Utility from
the top of the screen.
If the hardware checks out OK but the problem persists during normal NAS 200
operations, a software error might be the cause. If you suspect a software problem,
refer to the information that comes with the software package.
Appendix C. Engine POST messages 99
Viewing the test log
The test log will not contain any information until after the diagnostic program has
run.
To view the test log:
1. Ensure a monitor, keyboard, and mouse is connected to the NAS 200.
2. Power on the NAS 200 engine and watch the screen.
If the NAS 200 engine is on, shut down your operating system and restart the
engine.
3. When the message F2 for Diagnostics appears, press F2.
If a power-on password or administrator password is set, you will be prompted
for it. Type in the appropriate password, then press Enter.
4. When the Diagnostic Programs screen appears, select Utility from the top of
the screen.
5. Select View Test Log from the list that appears; then, follow the instructions on
the screen.
The system maintains the test-log data while the NAS 200 is powered on. When
you turn off the power to the NAS 200, the test log is cleared.
Diagnostic error message tables
diagnostic programs.
make sure that your appliance has the latest levels of BIOS, Integrated System
Management Processor, ServeRAID, and diagnostics microcode.
In the following error codes, if XXX is 000, 195, or 197, do not replace a part.
These error codes have the following meanings:
000
195
197
The test passed.
Esc was pressed to end the test.
This is a warning error and may not indicate a hardware failure.
For all other error codes, replace the part or perform the actions indicated.
Table 18. Diagnostic error messages
Error Code
001-XXX-000
001-XXX-001
001-250-000
001-250-001
Meaning
FRU/action
Failed core tests
System board
System board
System board
Failed core tests
Failed System board ECC
Failed Processor board ECC
1. Processor/PCI board
2. System board
005-XXX-000
011-XXX-000
011-XXX-001
Failed Video test
System board
Failed COM1 Serial Port test System board
Failed COM2 Serial Port test System board
100 NAS 200 User’s Reference
Table 18. Diagnostic error messages (continued)
Error Code
Meaning
FRU/action
014-XXX-000
015-XXX-001
015-XXX-015
Failed Parallel Port test
Failed USB test
System board
System board
Failed USB external loopback
test
1. Make sure parallel port is not disabled
2. Re-run USB external loopback test
3. System board
015-XXX-198
USB device connected
during the USB test
1. Remove USB devices from USB1 and USB2
2. Re-run USB external loopback test
3. System board
020-XXX-000
Failed PCI Interface test
System board
020-XXX-001
Failed Hot-Swap Slot 1 PCI
Latch test.
1. PCI hot-swap latch assembly
2. System board
020-XXX-002
020-XXX-003
020-XXX-004
030-XXX-000
Failed hot-swap slot 2 PCI
latch test
1. PCI hot-swap latch assembly
2. System board
Failed hot-swap slot 3 PCI
latch test
1. PCI hot-swap latch assembly
2. System board
Failed hot-swap slot 4 PCI
latch test
1. PCI hot-swap latch assembly
2. System board
Failed internal SCSI interface System board
test
035-XXX-099
No adapters were found
If the adapter is installed, recheck the connection.
035-XXX-S99
Failed RAID test on PCI slot Note: Check the System Error Log before replacing a part.
S
1. Adapter
2. SCSI backplane
3. Cable
035-XXX-SNN
NN = SCSI ID of failing hard Note: Check the System Error Log before replacing a
disk
part.Hard disk drive with SCSI ID NN on RAID adapter in
PCI slot S.
035-253-S99
RAID adapter initialization
failure; ServeRAID Adapter in
slot S is not configured
properly
1. Obtain the basic and extended configuration status
and refer to the ServeRAID Hardware Maintenance
Manual for more information
2. Adapter
3. SCSI backplane
4. Cable
075-XXX-000
Failed power supply test
Failed microprocessor test
Power supply
089-XXX-001
1. VRM 1 for microprocessor 1
2. Microprocessor 1
089-XXX-002
Failed test for optional
microprocessor
1. VRM 2
2. Optional microprocessor 2
166-250-000
System Management failed:
(I2C cable is disconnected.
Reconnect I2C cable
between Remote Supervisor
Adapter and system board.)
1. Reseat the I2C cables between Remote Supervisor
Adapter (in PCI slot 1/J44) and system board (J45)
2. I2C cables
Appendix C. Engine POST messages 101
Table 18. Diagnostic error messages (continued)
Error Code
166-198-000
Meaning
FRU/action
System Management
aborted: (Unable to
1. Re-run the Diagnostic Test
2. Fix other error conditions and retry. These include other
Failed System Management tests and items logged in the
optional Remote Supervisor Adapter’s System Error Log
communicate with the
Remote Supervisor Adapter.
It may be busy. Run the test
again). (Communication with
the Remote Supervisor
Adapter has failed).
3. Disconnect all server and option power cords from the
unit, wait 30 seconds, reconnect, and retry.
4. Remote Supervisor Adapter, if installed
5. System board
166-201-001
System Management failed:
(I2C Bus Error(s))
1. If installed, reseat I2C cable between Remote
Supervisor Adapter (in PCI slot 1/J44) and system
board
(ISMP indicates I2C errors on
bus 0. Potential FRUs:
Memory DIMMs, system
board)
2. Reseat memory DIMMs
3. Memory DIMMS
4. System board
166-201-002
166-201-003
166-201-004
166-201-005
System Management failed:
(I2C Bus Error(s))
1. Reseat I2C cable between operator information panel
and system board (J39)
2. Operator information panel
3. System board
(ISMP indicates I2C errors on
bus 2. Potential FRUs: LED
front panel, system board).
System Management failed:
(I2C Bus Error(s))
1. Reseat cables between power backplane and system
board
2. Operator information panel
(ISMP indicates I2C errors on
bus 3. Potential FRUs: power 3. System board
backplane, system board).
System Management failed:
(I2C Bus Error(s))
1. If installed, reseat I2C cable between Yugo and DASD
backplane and DASD I2C on system board (J0)
2. System board
(ISMP indicates I2C errors on
bus 4. Potential FRUs: DASD
backplane, system board).
System Management failed:
(I2C Bus Error(s))
1. Reseat Memory DIMMs
2. Reseat processors
(ISMP indicates I2C errors on 3. Memory DIMMs
bus 0, 1, or 5. Potential
4. Processors
FRUs: Memory DIMMs,
5. System board
CPUs, system board).
166-260-000
System Management failed:
1. Disconnect all server and option power cords from
(Unable to restart Remote
Supervisor Adapter). Restart
Remote Supervisor Adapter
Error. After restarting,
server, wait 30 seconds, reconnect, and retry.
2. Reseat the Remote Supervisor Adapter in PCI slot 1/J44).
3. Remote Supervisor Adapter
Remote Supervisor Adapter
communication was lost.
Unplug and cold boot to reset
the Remote Supervisor
Adapter).
102 NAS 200 User’s Reference
Table 18. Diagnostic error messages (continued)
Error Code
166-342-000
Meaning
FRU/action
System Management failed:
Remote Supervisor Adapter
BIST indicate failed tests).
1. Ensure that the latest firmware levels for the Remote
Supervisor Adapter and BIOS
2. Disconnect all server and option power cords from the
unit, wait 30 seconds, reconnect, then retry.
3. Remote Supervisor Adapter
166-400-000
System Management failed:
System management
hardware on system board
failed) (ISMP Self Test Result
failed tests: x where x =
Flash, RAM, or ROM).
1. Re-flash or update firmware for ISMP
2. System board
180-XXX-000
180-XXX-001
180-XXX-002
Diagnostics LED failure
Run the diagnostics LED test for the failing LED.
Failed front LED panel test
Failed diagnostics LED panel
test
1. System board
2. Power-switch assembly
180-XXX-005
Failed SCSI backplane LED
test
1. SCSI backplane
2. SCSI backplane cable
3. System board
180-XXX-006
Memory Board LED test
Suspected part:
1. Memory
2. Processor/PCI board
3. System board
180-361-003
Failed fan LED test
Failed Memory test
1. Fans
2. System board
201-XXX-0NN
1. DIMM Location DIMM1 - DIMM4 where NN can be a
value from 01 to 04. 01 = DIMM2, 02 = DIMM1, 03 =
DIMM4, 04 = DIMM3
2. System board
201-XXX-999
202-XXX-001
202-XXX-002
206-XXX-000
Multiple DIMM failure; see
error text for failing DIMMs
1. See error text for failing DIMMs
2. System board
Failed system cache test
Failed system cache test
Failed diskette drive test
1. VRM 1
2. Microprocessor 1
1. VRM 2
2. Microprocessor 2
1. Cable
2. Diskette drive
3. System board
215-XXX-000
Failed IDE CD-ROM test
1. CD-ROM drive cables
2. CD-ROM drive
3. System board
217-198-XXX
Could not establish drive
parameter
1. Check cable and termination
2. SCSI backplane
3. Fixed disk
Appendix C. Engine POST messages 103
Table 18. Diagnostic error messages (continued)
Error Code
Meaning
FRU/action
217-XXX-000
Failed BIOS hard disk drive
test
Hard disk drive 1
Note: If RAID is configured,
the hard disk drive number
refers to the RAID logical
array.
217-XXX-001
217-XXX-002
217-XXX-003
217-XXX-004
Failed BIOS hard disk drive
test
Note: If RAID is configured,
the hard disk drive number
refers to the RAID logical
array.
Hard disk drive 2
Hard disk drive 3
Hard disk drive 4
Hard disk drive 5
Hard disk drive 6
Failed BIOS hard disk drive
test.
Note: If RAID is configured,
the hard disk drive number
refers to the RAID logical
array
Failed BIOS hard disk drive
test
Note: If RAID is configured,
the hard disk drive number
refers to the RAID logical
array.
Failed BIOS hard disk drive
test
Note: If RAID is configured,
the hard disk drive number
refers to the RAID logical
array.
217-XXX-005
Failed BIOS Fixed Disk test
Note: If RAID is configured,
the hard disk drive number
refers to the RAID logical
array.
264-XXX-0NN
Failed tape-drive test
1. Tape cartridge, if user executed the read/write tape
drive test (XXX = 256)
2. SCSI or power cable connected to tape drive with SCSI ID
NN.
3. Tape drive with SCSI ID NN (Refer to the Help and
Service Information appendix of the tape drive’s user
guide).
4. System board or SCSI Controller (Run SCSI controller
diagnostic to determine if the SCSI bus is functioning
correctly.)
264-XXX-999
Errors on multiple tape drives See error messages/text in the PC Doctor error log for
detailed information on each individual tape drive error.
301-XXX-000
Failed Keyboard test
Keyboard
405-XXX-000
Failed Ethernet test on
controller on the system
board
1. Verify that Ethernet is not disabled in BIOS
2. System board
104 NAS 200 User’s Reference
Table 18. Diagnostic error messages (continued)
Error Code
Meaning
FRU/action
405-XXX-00N
Failed Ethernet test on
adapter in PCI slot N
1. Adapter in PCI slot N.
2. System board
415-XXX-000
Failed modem test
Suspected part:
1. Cable
2. Modem
Note: Ensure that the modem is present and attached to
appliance.
3. System board
Appendix C. Engine POST messages 105
106 NAS 200 User’s Reference
IBM Glossary of Storage Networking Terms
This glossary includes terms and definitions from:
v The American National Standard Dictionary for Information Systems, ANSI
X3.172-1990, copyright 1990 by the American National Standards Institute
(ANSI). Copies can be purchased from the American National Standards
Institute, 1430 Broadway, New York, New York 10018. Definitions are identified
by the symbol (A) after the definition.
v The ANSI/EIA Standard - 440A: Fiber Optic Terminology, copyright 1989 by the
Electronics Industries Association (EIA). Copies can be purchased from the
Electronic Industries Association, 2001 Pennsylvania Avenue N.W., Washington,
D.C. 20006. Definitions are identified by the symbol (E) after the definition.
v The Information Technology Vocabulary, developed by Subcommittee 1, Joint
Technical Committee 1, of the International Organization for Standardization and
the International Electrotechnical Commission (ISO/IEC JTC1/SC1). Definitions of
published parts of this vocabulary are identified by the symbol (I) after the
definition; definitions taken from draft international standards, committee drafts,
and working papers being developed by ISO/IEC JTC1/SC1 are identified by the
symbol (T) after the definition, indicating that final agreement has not yet been
reached among the participating National Bodies of SC1.
Numerics
10BASE2. The IEEE 802.3 Ethernet standard that supports a transmission rate of 10 Mbps using RG 58 A/U and RG
58 C/U coaxial cable and BNC connectors. 10BASE2 is sometimes called thin Ethernet or thinnet.
10BASE5. The IEEE 802.3 Ethernet standard that supports a transmission rate of 10 Mbps using a 50-ohm coaxial
cable with Type N connectors over a distance of up to 500 m (1640 ft) without using repeaters. 10BASE5 is
sometimes called thick Ethernet or thicknet.
10BASE-FL. The IEEE 802.3 Ethernet standard that supports a transmission rate of 10 Mbps using optical fiber.
10BASE-T. The IEEE 802.3 Ethernet standard that supports a transmission rate of 10 Mbps using two twisted-pair
wires (Category 3 telephone wiring). 10BASE-T is the most widely deployed 10-Mbps Ethernet transmission protocol in
use today.
100BASE-T. The IEEE 802.3 Ethernet standard that supports a transmission rate of 100 Mbps using 2 twisted-pair
wires (Category 5 telephone wiring).
A
access control. In computer security, the process of ensuring that the resources of a computer system can be
accessed only by authorized users in authorized ways.
access control list (ACL). (1) In computer security, a collection of all access rights for one object. (2) In computer
security, a list associated with an object that identifies all the subjects that can access the object and their access
rights; for example, a list associated with a file that identifies users who can access the file and identifies their access
rights to that file.
accessory. An IBM designation for a separately orderable part that (a) has no type number, (b) is for purchase only,
and (c) does not receive normal IBM maintenance.
active-backup. A type of bond group that provides high availability. Two or more ports are combined under a logical
bond group with one link active and the other link or links left idle. The idle links are ready to take over in the event
that the currently active link fails. See bond group.
© Copyright IBM Corp. 2001
107
active dispatcher node. The engine within a load-balancing group that functions as the load balancer for that group.
Because each NAS engine can have multiple physical and bonded interfaces, there can be more than one
load-balancing engine per set of engines. Each load-balancing engine acts as an active backup for another
load-balancing engine within that set. Alternatively, there can be only one active load-balancing engine per set of
engines and one passive backup (standby) load-balancing engine.
actual data transfer rate. The average number of bits, characters, or blocks per unit of time transferred from a data
source and received by a data sink.
adapter address. The hexadecimal digits that identify an adapter.
adaptive cut-through switching. A mode of operation for LAN switches in which they will automatically alternate
between cut-through switching and store-and-forward switching depending on user-configurable, per port, error-rate
thresholds.
advertise. To pass routing reachability information along from one router to another.
all-routes broadcast frame. A frame that has bits in the routing information field set to indicate that the frame is to
be sent to all LAN segments in the network (across all bridges, even if multiple paths allow multiple copies of the
frame to arrive at some LAN segments). The destination address is not examined and plays no role in bridge routing.
all-stations broadcast frame. A frame whose destination address bits are set to all ones. All stations on any LAN
segment on which the frame appears will copy it. The routing information, not the destination address, determines
which LAN segments the frame appears on. All-stations broadcasting is independent of all-routes broadcasting; the
two can be done simultaneously or one at a time.
alternate adapter. In a personal computer that is used on a LAN and that supports installation of two network
adapters, the adapter that uses alternate (not standard or default) mapping between adapter-shared RAM, adapter
ROM, and designated computer memory segments. The alternate adapter is usually designated as adapter 1 in
configuration parameters. Contrast with primary adapter.
alternate memory mapping. The mapping between adapter-shared RAM, adapter ROM, and the designated
computer memory segments for an alternate network adapter.
ASM (see advanced system management).
assigned disk. A disk that is mapped to a logical drive.
asynchronous. A class of data transmission service whereby all requests for service contend for a pool of
dynamically allocated ring bandwidth and response time.
asynchronous data transfer. A physical transfer of data to or from a device that occurs without a regular or
predictable time relationship following execution of an I/O request. Contrast with synchronous data transfer.
asynchronous transfer mode (ATM). A transfer mode in which the information is organized into cells; it is
asynchronous in the sense that the recurrence of cells containing information from an individual user is not necessarily
periodic. ATM is specified in international standards such as ATM Forum UNI 3.1.
asynchronous transmission. A method of transmission in which the time intervals between characters do not have
to be equal. Start and stop bits are added to coordinate the transfer of characters.
ATM (see asynchronous transfer mode).
attach. To make a device a part of a network logically. Not to be confused with connect, which implies physically
connecting a device to a network. Contrast with connect.
attachment. A port or a pair of ports, optionally including an associated optical bypass, that are managed as a
functional unit. A dual attachment includes two ports: a port A, and a port B. A single attachment includes a Port S.
attachment feature. (1) The circuitry by which some host processors or controllers are connected to a LAN access
unit or connection point. (2) A feature that can be added to enhance the capability, storage capacity, or performance of
a product, but is not essential for its basic work; for example, an adapter that allows a device to attach to a network.
attachment unit interface (AUI). Also known as thick Ethernet, thicknet or 10BASE5. This type of Ethernet
connector has a 15-pin D type connector.
108 NAS 200 User’s Reference
attention (ATTN). An occurrence external to an operation that could cause an interruption of the operation.
AUI (see attachment unit interface).
authentication. In computer security, verification of the identity of a user or the user’s eligibility to access an object.
auto-removal. The removal of a device from data-passing activity without human intervention. This action is
accomplished by the adapter in the device, and can be initiated by a network management program.
B
balun. A transformer used to connect balanced cables, such as twisted-pair cables, to unbalanced cables, such as
coaxial cables, by matching the electrical characteristics of the cables.
bandwidth aggregation. The ability to establish more than one communication channel per connection.
bandwidth augmentation. The ability to add another communication channel to an already existing communication
channel.
bandwidth-distance product. The parameter specified for bulk fiber that defines the distance that a signal at a
defined frequency can be transmitted with a specified loss, usually half the power at zero frequency. Use of a fiber
with a bandwidth-distance product of 500 MHz-km would support 250 MHz for a distance of 2 km.
baseband LAN. A local area network in which data are encoded and transmitted without modulation of a carrier (T).
Basic Input/Output System. The personal computer code that controls basic hardware operations, such as
interactions with diskette drives, hard disk drives, and the keyboard.
baud. (1) A unit of signaling speed equal to the number of discrete conditions or signal events per second; for
example, one baud equals one-half dot cycle per second in Morse code, one bit per second in a train of binary
signals, and one 3-bit value per second in a train of signals each of which can assume one of eight different states
(A). Contrast with bits per second. (2) In asynchronous transmission, the unit of modulation rate corresponding to one
unit interval per second; that is, if the duration of the unit interval is 20 milliseconds, the modulation rate is 50 baud.
BIOS (see Basic Input/Output System).
bit-time. (1) The time required to transmit 1 bit on the network. For example, the IBM PC Network bit-time equals
500 nanoseconds (ns). (2) The reciprocal of the line data rate (or network data transfer rate).
bits per second (bps). The rate at which bits are transmitted per second. Contrast with baud.
block delay time. The time delay permitted for received frames to be assembled into blocks for retransmission.
bond group. A logical collection of two or more physical ports (on a per engine basis only) that becomes one
interface on the network. You can create two kinds of bond groups in the NAS appliance: aggregated links (see link
aggregration) and active-backup.
bonded interface (see bond group).
bonding. The act of combining two or more physical ports to create one logical network interface with one
associated IP address. Bonding can improve performance by either increasing bandwidth (see link aggregation) or
providing port backup (see active-backup).
bootstrap. (1) A sequence of instructions whose execution causes additional instructions to be loaded and executed
until the complete computer program is in storage (T). (2) A technique or device designed to bring itself into a desired
state by means of its own action, for example, a machine routine whose first few instructions are sufficient to bring the
rest of itself into the computer from an input device (A).
bps (see bits per second).
broadcast frame. A frame that is simultaneously transmitted to more than one destination. A broadcast frame is
forwarded by all bridges, unless otherwise restricted.
IBM Glossary of Storage Networking Terms 109
broadcast topology. A network topology in which all attaching devices are capable of receiving a signal transmitted
by any other attaching device on the network.
buffer storage. (1) A special-purpose storage or storage area allowing, through temporary storage, the data transfer
between two functional units having different transfer characteristics. A buffer storage is used between
non-synchronized devices, or where one is serial and the other is parallel or between those having different transfer
rates. Synonymous with buffer (T). (2) In word processing, a temporary storage in which text is held for processing or
communication (T).
building cable. The permanently installed cable within a building that interconnects offices to wiring closets, wiring
closets to wiring closets, and wiring closets to computer rooms of building entrances.
building entrance. The entry point in a building where external communication cables are interconnected with
internal building cables.
C
cache. A high-speed buffer storage that contains frequently accessed instructions and data to reduce access time.
cascade. To connect in a series or in a succession of stages so that each stage derives from or acts upon the
product of the preceding stage.
catenet. A network in which hosts are connected to networks and the networks are interconnected by gateways. The
Internet is an example of a catenet.
CDDI (see Copper Distributed Data Interface).
Challenge Handshake Authorization Protocol (CHAP). A password protection protocol that describes how to
authenticate incoming data calls. The password is encrypted over the access line.
CHAP (see Challenge Handshake Authorization Protocol).
CIFS (see Windows networking).
client. A computer system or process that requests access to the data, services, or resources of a server (another
computer system or process). Multiple clients may share access to a common server. Synonym for requester.
client-server model. A common way to describe network services and the model user processes (programs) of
those services.
closed network. Synonym for closed path.
closed path. A network in which all of the cable paths and wiring closets are directly or indirectly connected.
Synonymous with closed network.
cluster. In high-availability cluster multiprocessing (HACMP), a set of independent systems (called nodes) that are
organized into a network for the purpose of sharing resources and communicating with each other. .
collision avoidance. In carrier sense multiple access with collision avoidance (CSMA/CA), the sending of a jam
signal and waiting a variable time before transmitting data, to avoid two or more simultaneous transmissions.
Common Internet File System (CIFS). A protocol that enables collaboration on the Internet by defining a remote
file-access protocol that is compatible with the way applications already share data on local disks and network file
servers (MS).
configuration list. In a LAN, a list of all of the names and addresses of stations attached to a LAN segment.
connect. In a LAN, to physically join a cable from a station to an access unit or network connection point. Contrast
with attach.
connection-oriented. The communication process that proceeds through three well-defined phases: connection
establishment, data transfer, and connection release. Examples are: X.25, Internet TCP, and ordinary telephone calls.
110 NAS 200 User’s Reference
connection-oriented network. A network which requires that a setup procedure be executed to establish an
information channel between two logical nodes before they can interchange information.
control port. An alternate port that you can use to access the configuration when the data ports are not available.
control unit. A processor electronics assembly in a storage controller that exposes LUNs to the storage network and
connects internally to the storage controllers disk drives. A storage controller can have 1 to n, but typically has one for
each path group.
Copper Distributed Data Interface (CDDI). A proposed ANSI standard that defines a dual counter-rotating ring
which operates at a rate of 100 Mbps over Category 5 copper wire.
coprocessor. A secondary processor used to speed up operations by handling some of the workload of the main
CPU.
CRC (see cyclic redundancy check).
CRU (see customer-replaceable unit).
customer-replaceable unit (CRU). An assembly or part that a customer can replace in its entirety when any of its
components fail. Contrast with field-replaceable unit (FRU).
cyclic redundancy check (CRC). (1) A redundancy check in which the check key is generated by a cyclic algorithm
(T). (2) A system of error checking performed at both the sending and receiving station after a block-check character
has been accumulated.
D
daemon. A program that runs unattended to perform a standard service. Some daemons are triggered automatically
to perform their task; others operate periodically.
data port. Ethernet ports used for storage-traffic and configuration purposes.
DASD queue. A queue that resides on a direct access storage device (DASD).
data store. An abstraction for a repository where data is kept, independent of underlying implementation. Data stores
can be block based (a LUN or set of LUNs); file based (a local or remote file system); or relational (a database). Since
IBM TotalStorage™ NAS family appliances are file based, all of their datastores must be kept in file systems,
directories, or files which are kept on LUNs.
data bus. A bus used to communicate data internally and externally to and from a processing unit, storage, and
peripheral devices (A). (See bus.)
data integrity. (1) The condition that exists as long as accidental or intentional destruction, alteration, or loss of data
does not occur (T). (2) Preservation of data for its intended use.
DDP (see distributed data processing).
default route. A route, in the routing table, that is used when no other route is specified or appropriate.
device address. (1) In data communication, the identification of any device to which data can be sent or from which
data can be received. (2) The first subchannel address recognized by a channel-attached device.
device identifier (ID). An 8-bit identifier that uniquely identifies a physical I/O device.
device parity protection. A function that protects data stored on a disk unit subsystem from being lost because of
the failure of a single disk unit in the disk unit subsystem. When a disk unit subsystem has device parity protection
and one of the disk units in the subsystem fails, the system continues to run. The disk unit subsystem reconstructs the
data after the disk unit in the subsystem is repaired or replaced. See RAID and RAID-5.
DHCP (see Dynamic Host Configuration Protocol).
diagnostic diskette. A diskette containing diagnostic modules or tests used by computer users and service
personnel to diagnose hardware problems.
IBM Glossary of Storage Networking Terms 111
direct access storage device (DASD). A mass-storage medium on which a computer stores data. Contrast with
random access memory (RAM).
Direct Memory Access (DMA). A technique in which an adapter bypasses a computer’s CPU, and handles the
transfer of data between itself and the system’s memory directly.
distributed data processing (DDP). Synonym for distributed processing.
DLR (see dynamic link routine).
DMA (see Direct Memory Access).
DNS (see domain name system).
Domain Name System (DNS). In the Internet suite of protocols, the distributed database system used to map
domain names to IP addresses.
drive bay. A receptacle into which you insert a disk drive module in an appliance. The bays are in storage units that
can be physically located in a separate rack from the appliance.
dual inline memory module (DIMM). A small circuit board with memory-integrated circuits containing signal and
power pins on both sides of the board.
Dynamic Host Configuration Protocol (DHCP). A protocol defined by the Internet Engineering Task Force (IETF)
that is used for dynamically assigning IP addresses to computers in a network.
dynamic link routine (DLR). A program or routine that can be loaded by an application or as part of a program.
E
EIA (see Electronic Industries Association).
EISA (see Extended Industry Standard Architecture).
ELAN (see emulated LAN).
electromagnetic interference. A disturbance in the transmission of data on a network resulting from the magnetism
created by a current of electricity.
Electronic Industries Association (EIA). An organization of electronics manufacturers that advances the
technological growth of the industry, represents the views of its members, and develops industry standards.
Electronic Industries Association (EIA) unit. A unit of measure equal to 4.45 cm (1.75 in).
electrostatic discharge (ESD). An undesirable discharge of static electricity that can damage equipment and
degrade electrical circuitry.
EMC. Electromagnetic compatibility.
emulate. To imitate one system with another, primarily by hardware, so that the imitating system accepts the same
data, executes the same programs, and achieves the same results as the imitated system (A).
emulated LAN (ELAN). A specific implementation of a virtual LAN, as it relates to LAN Emulation in ATM networks.
An ELAN consists of one or more LAN Emulation clients (LECs) that share the same LAN Emulation Server and
Broadcast and Unknown Server (LES/BUS). LECs gain membership in an ELAN based on configurable policies. Like
devices on traditional LANs, each ELAN member has a MAC address and can use the LES/BUS to send unicast and
broadcast packets to other members based on MAC addresses.
emulation. (1) The use of a data processing system to imitate another data processing system, so that the imitating
system accepts the same data, executes the same programs, and achieves the same results as the imitated system.
Emulation is usually achieved by means of hardware or firmware (T). (2) The use of programming techniques and
special machine features to permit a computing system to execute programs written for another system.
112 NAS 200 User’s Reference
engine. The unit that contains the processors that respond to requests for data from clients. This is where the
operating software for the TotalStorage Model 200 appliance resides.
equivalent paths. A collection of paths to the storage device. The paths have no switchover time penalty when
changing from one path group to another while accessing the storage device.
error. A discrepancy between a computed, observed, or measured value or condition and the true, specified, or
theoretically correct value or condition (A) (I).
ESD (see electrostatic discharge).
ESM (see environmental service monitor).
Ethernet. A standard protocol for a 10-Mbps baseband local area network (LAN) that allows multiple access and
handles contention by using Carrier Sense Multiple Access with Collision Detection (CSMA/CD) as the access method.
Ethernet network. A baseband LAN with a bus topology in which messages are broadcast on a coaxial cable using
a carrier sense multiple access/collision detection (CSMA/CD) transmission method.
event message. Synonym for call-progress event message.
executable statement. A statement that specifies one or more actions to be taken by a computer program at
execution time; for example, instructions for calculations to be performed, conditions to be tested, flow of control to be
altered (T).
expansion slot. In personal-computer systems, one of several receptacles in the rear panel of the system unit into
which a user can install an adapter.
extended configuration services. Configuration services that reside outside a CP processor. Extended configuration
services keeps a local cache of transmission group locations. Extended configuration services do not handle activation
and deactivation. See configuration services.
Extended Industry Standard Architecture (EISA). The PC bus standard that extends the AT bus (ISA bus) to 32
bits and provides busmastering. It was announced in 1988 as a 32-bit alternative to the Micro Channel that would
preserve investment in existing boards. PC and AT cards (ISA cards) can plug into an EISA bus.
F
failback. The restoration of the appliance to its initial configuration after detection and repair of a failed network or
appliance component.
failover. (1) The automatic recovery of resources in the event of a network outage, or failure of the hardware or
software. (2) A cluster event where the primary database server or application server switches over to a backup
system due to the failure of the primary server.
failover group. A type of virtual network interface. It is a collection of physical and bonded interfaces that provide
backup for each other. Each member of the failover group must have the same front-end and backend connectivity.
failure. (1) The termination of the ability of a functional unit to perform its required function. (2) An uncorrected
hardware error. Failures are either recoverable or not recoverable by the software or the operator. The operator is
always notified when failures occur. Contrast with error.
Fast Ethernet. An Ethernet standard that provides a data rate of 100 Mbps.
feature code. A code used by IBM to process hardware and software orders.
Federal Communications Commission (FCC). A board of commissioners appointed by the President under the
Communications Act of 1934, having the power to regulate all interstate and foreign communications by wire and radio
originating in the United States.
fiber optic cable (see optical cable).
Fiber Optic Inter-Repeater Link (FOIRL). An IEEE standard for fiber optic Ethernet.
IBM Glossary of Storage Networking Terms 113
FIC (see File Image Capture).
Field-replaceable unit (FRU). An assembly that is replaced in its entirety when any one of its components fails. In
some cases, a field replaceable unit may contain other field replaceable units. Contrast with customer-replaceable unit
(CRU).
File Image Capture (FIC). Function that takes a file system clone and a read-only copy of the certain read-write
(active) file system. File Image Capture reflects the state of the file system at the time it was created.
File Image Restore. Function that allows a file system to revert to the state and contents of a previous File Image
Capture. This function can be used to recover a corrupted file system.
File Transfer Protocol (FTP). In the Internet suite of protocols, an application layer protocol that uses TCP and
Telnet services to transfer bulk-data files between machines or hosts.
FIR (see File Image Restore).
firewall. A logical barrier around systems in a network. A firewall consists of hardware, software, and a security policy
that control the access and flow of information between secure or trusted systems and nonsecure or untrusted
systems.
fixed-length record. A record having the same length as all other records with which it is logically or physically
associated.
flash memory. A memory chip that holds its content without power but must be erased in fixed blocks rather than
single bytes.
floating virtual connection (FVC). The ability to resume a virtual connection on a port other than the port
connection on which the original virtual connection was established.
frame alignment error. An error in a frame, indicated by a frame check sequence (FCS) indicator. When excessive
or missing bits occur during the reception of a frame, the frame is misaligned.
free disk. A physical disk that is not assigned as a hot-spare, as a standby hot-spare, or to a logical drive.
FRU (see field-replaceable unit).
FTP (see File Transfer Protocol).
FVC (see floating virtual connection).
G
gateway. A device that acts as a router, but occurs at the transport layer, to transfer packets between networks.
group definition. A list of directory numbers.
group definition ID. The identifier of a group definition.
group SAP. A single address assigned to a group of service access points (SAPs).
group separator (GS) character. The information separator intended to identify a logical boundary between groups.
H
hard failure. An error condition on a network that requires that the network be reconfigured or that the source of the
error be removed before the network can resume reliable operation. Synonym for hard error.
hertz (Hz). A unit of frequency equal to one cycle per second.
Note: In the United States, line frequency is 60 Hz or a change in voltage polarity 120 times per second; in Europe,
line frequency is 50 Hz or a change in voltage polarity 100 times per second.
114 NAS 200 User’s Reference
higher level. In the hierarchical structure of a data station, the conceptual level of control or processing logic, above
the data link level that determines the performance of data link level functions such as device control, buffer allocation,
and station management.
host. (1) In TCP/IP, any system that has at least one internet address associated with it. A host with multiple network
interfaces may have multiple internet addresses associated with it. The host can be (a) a client, (b) a server, or (c)
both a client and a server simultaneously. (2) In Fibre Channel, any system that has at least one worldwide name
associated with it. A host with multiple network interfaces may have multiple worldwide names associated with it.
host application program. An application program processed in the host computer.
host attachment. A mode of SNA communication in which the processor acts as a secondary SNA device.
host computer. (1) In a computer network, a computer that usually performs network control functions and provides
end users with services such as computation and database access (T). (2) The primary or controlling computer in a
multiple computer installation or network. (3) A computer used to prepare programs for use on another computer or on
another data processing system; for example, a computer used to compile, link edit, or test programs to be used on
another system. (4) Synonym for host processor.
hot-spare disk. A physical disk that is automatically mapped to a logical drive if one of the logical drive’s disks goes
offline.
HTTP (see Hypertext Transfer Protocol).
Hypertext Transfer Protocol. In the Internet suite of protocols, the protocol that is used to transfer and display
hypertext documents.
I
IBM Disk Operating System (DOS). A disk operating system based on MS-DOS that operates with all
IBM-compatible personal computers.
IETF (see Internet Engineering Task Force).
iLUN. iSCSI client logical-unit number.
initial microcode load (IML). The action of loading the operational microcode.
initialize. In a LAN, to prepare the adapter (and adapter support code, if used) for use by an application program.
inoperative. The condition of a resource that has been active, but is no longer active. The resource could have failed
or could have been suspended while a reactivate command was being processed.
interference. (1) The prevention of clear reception of broadcast signals. (2) The distorted portion of a received
signal. (3) In optics, the interaction of two or more beams of coherent or partially coherent light.
Internet Engineering Task Force (IETF). The task force of the Internet Architecture Board (IAB) that is responsible
for solving the short-term engineering needs of the Internet. The IETF consists of numerous working groups, each
focused on a particular problem. Internet standards are typically developed or reviewed by individual working groups
before they can become standards.
Internet Protocol (IP). A protocol that routes data through a network or interconnected networks. IP acts as an
intermediary between the higher protocol layers and the physical network.
Internetwork Packet Exchange (IPX). The routing protocol used to connect Novell’s servers or any workstation or
router that implements IPX with other workstations. Although similar to TCP/IP, it uses different packet formats and
terminology.
interrupt level. The means of identifying the source of an interrupt, the function requested by an interrupt, or the
code or feature that provides a function or service.
IOPS. Input/output operations.
IP (see Internet Protocol).
IBM Glossary of Storage Networking Terms 115
IPX. Internetwork Packet Exchange
IRQ. Interrupt request.
iSCSI. A technology that enables the SCSI transport protocol over an IP network by connecting clients (initiators) and
servers to storage.
iSCSI client. A device that creates and sends SCSI commands to the target IBM IP Storage appliance.
iSCSI client logical-unit number (iLUN). A unique number that is assigned to each VLUN. The iLUN for a single
client starts at zero and increments sequentially.
J
jumper. A connector between two pins on a network adapter that enables or disables an adapter option, feature, or
parameter value.
jumper cable. Synonym for patch cable.
K
Kerberos. Pertaining to the security system of the Massachusetts Institute of Technology’s Project Athena. It uses
symmetric key cryptography to provide security services to users in a network.
L
LAN (see local area network).
local area network. A network in which a set of devices are connected to one another for communication and that
can be connected to a larger network.
LAN emulation client (LEC). A LAN emulation component that represents users of the emulated LAN.
LAN emulation configuration server (LECS). A LAN emulation service component that centralizes and
disseminates configuration data.
LAN multicast. Sending of a transmission frame that is intended to be accepted by a group of selected data stations
on the same local area network.
LAN Segment Number. The identifier that uniquely distinguishes a LAN segment in a multi-segment LAN.
LAN-to-LAN. An access mode for connecting remote LAN sites.
large-scale integration (LSI). The process of integrating large numbers of circuits on a single chip of semiconductor
material.
LBG (see load-balancing group).
LDAP (see Lightweight Directory Access Protocol).
Lightweight Directory Access Protocol. In TCP/IP, a protocol that enables users to locate people, organizations,
and other resources in an Internet directory or intranet directory.
limited broadcast. Synonym for single-route broadcast.
link aggregation. A type of bond group that combines the bandwidth of two or more ports to serve as one IP
address. The bond group distributes data across the bonded ports by using an algorithm. See bond group.
LIP. Loop initialization process
load-balancing group (LBG). A type of virtual network interface that comprises a set of physical and bonded
interfaces. A set of nodes within a virtual server that has layer-2 front-end connectivity can be collectively identified by
a unique IP address and grouped into a load-balancing group (LBG). The intent of such a grouping is to enable all
116 NAS 200 User’s Reference
nodes in the LGB to share the file serving load. A unique IP address and DNS host name combination identify each
load-balancing group. Depending on the front-end connectivity, you can configure a node to be a member of more
than one load-balancing group.
locally administered address. In a local area network, an adapter address that the user can assign to override the
universally administered address. Contrast with universally administered address.
logical connection. In a network, devices that can communicate or work with one another because they share the
same protocol.
logical drive. A unit of virtual storage that is made available to the network through VLUNs and iLUNs. It is made up
of one or more physical disks that are combined using RAID 0, 1, 1E, 5, or 5E technology.
logical node. Logical nodes exist and operate in the physical context of the primary devices. There are different
types of logical nodes and each is associated with a specific protocol stack.
loop. A closed unidirectional signal path connecting input/output devices to a system.
Low-smoke fire-retardant zero halogen. Describes materials that are not flammable and do not emit large amounts
of smoke or toxic gasses when burnt.
Low-smoke zero halogen. Describes materials that do not emit large amounts of smoke or toxic gasses when burnt.
LSFR0H (see Low-smoke fire-retardant zero halogen).
LS0H (see Low-smoke zero halogen).
M
macro. An instruction that causes the execution of a predefined sequence of instructions in the same source
language.
main storage. Program-addressable storage from which instructions and other data can be loaded directly into
registers for subsequent execution or processing (A) (I).
management information base (MIB). SNMP units of managed information that specifically describe an aspect of a
system, such as the system name, hardware number, or communications configuration. A collection of related MIB
objects is defined as a MIB.
megahertz (MHz). A unit of measure of frequency. One megahertz = 1 000 000 hertz.
MES (see miscellaneous equipment specification).
MIB. Management information base.
MIB browser. In the Simple Network Management Protocol (SNMP), a small PC or workstation application that can
load MIB definitions, query or set data items in a managed node, and decode returned values and results in an easily
readable form.
microinstruction. An instruction for operations at a level lower than machine instructions (T).
microprogram. A sequence of microinstructions. Microprograms are mainly used to implement machine instructions
(T).
migrate. To move to a changed operating environment, usually to a new release or version of a program, system, or
device.
miscellaneous equipment specification (MES). Any equipment that is added after the time of the initial order.
mode field diameter. A measure of the width of the guided optical power’s intensity distribution in the core and the
cladding of a single-mode fiber.
IBM Glossary of Storage Networking Terms 117
modulation. (1) The process by which a characteristic of a carrier is varied in accordance with a characteristic of an
information-bearing signal (T). (2) The process by which a message signal is impressed upon a carrier signal so that
the carrier is altered to represent the message signal.
multicast address (see LAN multicast).
multimode optical fiber. (1) A graded-index or step-index optical fiber that allows more than one bound mode to
propagate (E). Contrast with single-mode optical fiber. (2) In FDDI, an optical fiber waveguide usually characterized by
a core diameter of 50 to 100 micron that will allow a large number of modes to propagate.
multiplexing. In data transmission, a function that permits two or more data sources to share a common
transmission medium so that each data source has its own channel (A) (I).
N
N (see Newton).
nanosecond (ns). One thousand millionth of a second.
NAS. Network-attached storage.
NDMP (see network data management protocol).
network-attached storage (NAS). A task-optimized storage device directly attached to a network that works
independent of the general-purpose file servers.
network data management protocol (NDMP). An open standard protocol for enterprise-wide network-based backup
for network attached storage.
network file system (NFS). A protocol, developed by Sun Microsystems, Incorporated, that allows any host in a
network to mount another host’s file directories. After a file directory is mounted, the it appears to reside on the local
host.
network information services (NIS). A set of UNIX network services (for example, a distributed service for retrieving
information about the users, groups, network addresses, and gateways in a network) that resolve naming and
addressing differences among computers in a network.
network interface.
newton (N). The force that when applied to a body having a mass of one kilogram gives it an acceleration of one
meter per second per second (1 m/s(2)).
NFS (see network file system).
NI (see network interface).
NIS (see network information services).
non-broadcast frame. A frame containing a specific destination address and that can contain routing information
specifying which bridges are to forward it. A bridge will forward a non-broadcast frame only if that bridge is included in
the frame’s routing information.
non-canonical. In this form, the most significant bit of an octet is transmitted first.
ns (see nanosecond).
O
ODI (see Open Data-Link Interface).
Open Data-Link Interface (ODI). A common interface for network drivers developed by Novell. It allows multiple
transport protocols to run on one network adapter.
118 NAS 200 User’s Reference
optical cable. A fiber, multiple fibers, or a fiber bundle in a structure built to meet optical, mechanical, and
environmental specifications (E).
optical fiber. Any filament made of dielectric materials that guides light, regardless of its ability to send signals.
optical fiber coupler. (1) A device whose purpose is to distribute optical power among two or more ports (A). (2) A
device whose purpose is to couple power between a fiber and a source or detector (A).
P
packet internet groper (PING). In Internet communications, a program used in TCP/IP networks to test the ability to
reach destinations by sending the destinations an Internet Control Message Protocol (ICMP) echo request and waiting
for a reply.
parity check. (1) A redundancy check by which a recalculated parity bit is compared to the pre-given parity bit (T).
(2) A check that tests whether the number of ones (or zeros) in an array of binary digits is odd or even (A).
passive hub. A hub that adds nothing to the data being transmitted through it.
path. The connection between a storage port and the WWN (World Wide Name): target : LUN of a storage device.
path group. A collection of equivalent paths. Storage devices may have one, two or n path groups.
PCI (see Peripheral Component Interconnect).
PCNFS (see personal-computer network file system).
PCNFSD (see personal-computer NFS daemon).
PCMCIA (see Personal Computer Memory Card International Association).
PDC (see primary domain controller).
PDU. Power distribution unit.
Peripheral Component Interconnect (PCI). A local bus for PCs from Intel that provides a high-speed data path
between the CPU and up to 10 peripherals (video, disk, network, and so on). The PCI bus coexists in the PC with the
ISA or EISA bus. ISA and EISA boards still plug into an ISA or EISA slot, while high-speed PCI controllers plug into a
PCI slot.
Persistent Storage Manager (PSM). Columbia Data Products software that creates multiple point-in-time persistent
True Image data views of any or all system and data volumes residing on the NAS. All persistent images survive
system a power loss or a planned or unplanned reboot. Each instance of PSM seamlessly handles 250 concurrent
images of up to 255 independent volumes for a total of 63,750 independent data images.*
personal-computer NFS daemon (PCNFSD). A daemon that manages user authentication and print spooling.
Personal Computer Memory Card International Association (PCMCIA). An organization that standardizes
credit-card size memory and I/O adapters for personal computers.
PING (see packet internet groper).
pinout. Information that specifies which signal, signal line, or cable wire maps to each pin on a module, card, or
cable connector. A module is usually keyed to allow for pin number identification.
PPS (see per port switching).
primary adapter. In a personal computer that is used on a LAN and that supports installation of two network
adapters, the adapter that uses standard (or default) mapping between adapter-shared RAM, adapter ROM, and
designated computer memory segments. The primary adapter is usually designated as adapter 0 in configuration
parameters. Contrast with alternate adapter.
promiscuous mode. In a local area network (LAN), a method of processing and monitoring LAN frames that does
not discriminate based on address.
IBM Glossary of Storage Networking Terms 119
PSM (see Persistent Storage Manager).
Q
QoS. Quality of service.
R
RAID (see redundant array of independent disks).
RAID-5. The RAID method used by the high-performance models of the IBM 9337 Disk Array Subsystem. See
redundant array of independent disks and device parity protection.
RAM (see random access memory).
random access memory (RAM). A temporary storage location in which the central processing unit (CPU) stores and
executes its processes. Contrast with direct access storage device.
redundant array of independent disks (RAID). A method of protecting data loss due to disk failure based on the
Redundant Array of Independent Disks specification published by the University of California in 1987. See device
parity protection and RAID-5.
remote procedure call (RPC). A facility that a client uses to request the execution of a procedure call from a server.
This facility includes a library of procedures and an external data representation.
S
Samba. A UNIX implementation of CIFS that enables Windows networking-file-system protocol to communicate with
UNIX operating systems.
SAN. Storage Area Network.
SCSI (see small computer system interface).
shared LAN. A LAN in which the total bandwidth is shared among all nodes attached to the LAN segment.
shared RAM. Shared memory provided by an adapter with onboard memory and requiring use of system CPU.
shielded twisted pair (STP). A cable medium consisting of a telephone wire wrapped in a metal sheath to eliminate
external interference.
Simple Mail Transfer Protocol (SMTP). In the Internet suite of protocols, an application protocol for transferring mail
among users in the Internet environment. SMTP specifies the mail exchange sequences and message format. It
assumes that the Transmission Control Protocol (TCP) is the underlying protocol.
Simple Network Management Protocol (SNMP). In the Internet suite of protocols, a network management protocol
that is used to monitor routers and attached networks. SNMP is an application layer protocol. Information on devices
managed is defined and stored in the application’s Management Information Base (MIB).
single system image (SSI). A system architecture in which a cluster of engines provides an external view of the
system such that it appears as a single entity in terms of administration, client-side attachment or both.
single-mode optical fiber. An optical fiber in which only the lowest-order bound mode (which can consist of a pair of
orthogonally polarized fields) can propagate at the wavelength of interest. Contrast with multimode optical fiber.
single-route broadcast. The forwarding of specially designated broadcast frames only by bridges which have
single-route broadcast enabled. If the network is configured correctly, a single-route broadcast frame will have exactly
one copy delivered to every LAN segment in the network. Synonym for limited broadcast.
small computer system interface (SCSI). A standard hardware interface that enables a variety of peripheral
devices to communicate with one another.
SMTP (see Simple Mail Transfer Protocol).
120 NAS 200 User’s Reference
SNMP (see Simple Network Management Protocol).
splitter. In a local area network (LAN), a passive device used at a node to connect two or more branches (T).
standby hot-spare disk. A physical disk that is automatically mapped to a logical drive when no suitable hot-spare
disk is available.
Storage Area Network (SAN). A dedicated storage network tailored to a specific environment, combining servers,
storage products, networking products, software, and services.
storage controller. A device (such as a RAID Controller) that creates and manages other storage devices.
storage device. A LUN that terminates a collection of ports on the storage network.
storage network. Provides shared access to a set of LUNs across one to n storage client networks.
storage network device. A type of hub, switch, director or router on the Fibre Channel fabric that is directly
connected to the storage client network. A storage network device is part of the fabric infrastructure, but does not
directly provide LUNs.
storage client network. A classic interconnected Fibre Channel fabric with a single Fibre Channel fabric name.
storage port. A Model 200 engine’s connection point to a storage client network. A storage port is a member of a
single fabric.
storage unit. Hardware that contains one or more drive bays, power supplies, and network interface. Some storage
units contain RAID controllers; their storage unit is accessed by the appliance.
store-and-forward. A mode of operation for a LAN switch in which it completely checks every frame before
forwarding, so customers can use the switch to isolate erroneous frames generated on one segment so they do not
traverse the switch onto another segment.
STP (see shielded twisted pair).
SVN (see switched virtual network).
switched LAN. A LAN that has a dedicated connection for each user whereby the full bandwidth is available to the
workstation.
switched virtual networks (SVN). A comprehensive approach for building and managing switched-based networks.
It combines the virtues of LAN switching, bridging, routing, ATM switching and other switched services.
synchronous data transfer. A physical transfer of data to or from a device that has a predictable time relationship
with the execution of an I/O request.
synchronous transmission. A method of transmission in which characters are synchronized by the transmission of
initial sync characters and a common clock signal.
T
tape device. A collection of tape units that come from one model type and serial number (such as all the LUNs of a
tape library).
tape unit. A tape drive or a robotics controller that is visible over a storage network. A tape unit is a member of a
single storage network (of 1 to n fabrics), but can have 1 to n equivalent paths.
target. A collection of logical units that are directly addressable on the network. The target corresponds to the server
in a client-server model.
TCP (see Transmission Control Protocol).
TCP/IP (see Transmission Control Protocol/Internet Protocol).
Telnet. In the Internet suite of protocols, a protocol that provides remote terminal connection service. It allows users
of one host to log on to a remote host and interact as directly attached terminal users of that host.
IBM Glossary of Storage Networking Terms 121
timeout. A time interval that is allotted for certain operations to occur, for example, a response to polling or
addressing before system operation is interrupted and must be restarted.
Tivoli Storage Manager (TSM). A client/server product that provides storage management and data access services
in a heterogeneous environment.
Transmission Control Protocol (TCP). In TCP/IP, a host-to-host protocol that provides transmission in an internet
environment. TCP assumes Internet Protocol (IP) is the underlying protocol.
Transmission Control Protocol/Internet Protocol (TCP/IP). The Transmission Control Protocol and the Internet
Protocol, which together provide reliable end-to-end connections between applications over interconnected networks of
different types.
True Image data view. A data view that allows the file to be restored in the event of accidental deletion. It consists
of ‘point-in-time’ images that provide a near-instant virtual copy of an entire storage volume.
TSM (see Tivoli Storage Manager).
twinaxial cable. A three-conductor cable with the two inner conductors serving to carry the signal energy, and the
outer conductor serving as ground. The three conductors are insulated from each other.
U
universal serial bus (USB). A serial interface standard for telephony and multimedia connections to personal
computers.
unshielded twisted pair (UTP). A cable medium with one or more pairs of twisted insulated copper conductors
bound in a single plastic sheath.
USB (see universal serial bus).
V
VLAN (see virtual local area network).
VLU. Volume logical unit.
VLUN (see virtual logical unit).
virtual connection. A connection set up between two points that appears to the user to be available as a dedicated
connection. This phantom connection can be maintained indefinitely or can be ended at will. The three states of a
virtual connection are up, down or suspended.
virtual local area network (VLAN). A logical association of switch ports based upon a set of rules or criteria such as
MAC addresses, protocols, network address, or multicast address. This permits resegmentation of the LAN without
requiring physical rearrangement.
virtual logical unit (VLUN). A subset of a logical drive.
virtual port. Logical construct that corresponds to a logical adapter for a switched network port. A virtual port
organizes outgoing switched logical links by specifying incoming call acceptance criteria, by dynamically building and
relating logical adapters with selected hardware adapter ports, and by specifying adapter-related data link control
(DLC) profiles for use with those logical adapters.
VNI. Virtual network interface.
volume. (1) Unit of storage on disk, tape, or other data recording media. (2) A logical disk visible to the appliance
over a storage network. A member of a single storage network of 1 to n fabrics. It can have 1 to n path groups of 1 to
n equivalent paths.
122 NAS 200 User’s Reference
W
Windows Internet Name Service (WINS). Program that provides a distributed database for registering and querying
dynamic NetBIOS names to IP address mapping in a routed network environment.*
WINS (see Windows Internet Naming Service).
Windows networking. Networking file-system protocol for the Windows operating system.
X
Xmodem. A public-domain asynchronous data link control (DLC) protocol that provides packet numbering and
checksum error control for the transfer of binary files.
IBM Glossary of Storage Networking Terms 123
124 NAS 200 User’s Reference
P
T
POST
POST (power-on self-test)
preloaded software
U
UM Services
Q
R
W
S
service
software, preloaded
126 NAS 200 User’s Reference
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