HSZ80 Array Controller ACS Version 8.3
Configuration and CLI Reference Guide
First Edition (December 1998)
Part Number EK-HSZ80-RG. A01/388222-001
Compaq Computer Corporation
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JAPAN
USA
This equipment generates, uses, and may emit radio frequency energy. The equipment has been type tested and
found to comply with the limits for a Class A digital device pursuant to Part 15 of FCC rules, which are
designed to provide reasonable protection against such radio frequency interference. Operation of this equip-
ment in a residential area may cause interference in which case the user at his own expense will be required to
take whatever measures may be required to correct the interference. Any modifications to this device - unless
expressly approved by the manufacturer - can void the user’s authority to operate this equipment under part 15
of the FCC rules.
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v
Precautions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xvi
Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xviii
Related Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xxi
Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xxii
Typical Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–2
Summary of HSZ80 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–5
Setting the PVA Module ID Switch. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–25
Using Preferred ID Numbers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–35
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Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–2
Creating a Storageset and Device Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–5
Cloning Data for Backup. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–20
Backing Up Your Subsystem Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–25
Choosing Switches for Storagesets and Devices. . . . . . . . . . . . . . . . . . . . . . . . . . 3–42
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CLI Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–2
ADD DISK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–7
ADD MIRRORSET. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–11
ADD PASSTHROUGH. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–16
ADD SPARESET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–23
CONFIGURATION RESET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–44
CONFIGURATION RESTORE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–45
CONFIGURATION SAVE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–47
CREATE_PARTITION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–48
DELETE container-name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–51
DELETE FAILEDSET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–53
DELETE SPARESET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–54
DELETE unit-number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–55
INITIALIZE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–62
LOCATE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–67
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MIRROR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–70
POWEROFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–74
RESTART controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–83
RUN. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–86
SELFTEST controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–89
SET controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–91
SET device-name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–102
SET EMU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–105
SET FAILEDSET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–108
SET mirrorset-name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–112
SET MULTIBUS_FAILOVER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–118
SET RAIDset-name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–124
SET unit-number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–128
SHUTDOWN controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–143
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Device Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A–2
Storageset Profile. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A–3
Enclosure Template . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A–4
Environmental Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B–3
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Figures
Basic Building Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–3
Location of Controllers and Cache Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–13
Transparent Failover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–10
Multiple-Bus Failover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–16
an Extended Subsystem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–25
“This Controller” and “Other Controller” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–28
Host SCSI Bus and Controller Device Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–33
Units Created from Storagesets, Partitions, and Drives . . . . . . . . . . . . . . . . . . . . . 3–3
Storageset Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–6
Distribute Members across Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–11
First Mirrorset Members on Different Buses . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–14
Striping and Mirroring in the Same Storageset . . . . . . . . . . . . . . . . . . . . . . . . . . 3–18
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Storageset Map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–35
PTL Naming Convention . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–37
PTL Addressing in an Extended Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . 3–38
Partitioning a Single-Disk Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–40
Setting Host Modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4–25
Accessing Units on a Given Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4–27
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xiii
Tables
Basic Building Blocks List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–4
Summary of Controller Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–5
Description of Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–10
Parts of the Optional Maintenance Port Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–12
Cache Module Memory Configurations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–18
Location of Cache Module Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–19
Cache Policies and Cache Module Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–23
Resulting Cache Policies and ECB Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–25
Location of Parts for Transparent Failover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–11
Location of Parts for Multiple-Bus Failover . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–17
Controller Limitations for RAIDsets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–3
Unit Numbering Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–33
UNIT Switches for Storagesets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3–58
Unit Numbering Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–5
Poweroff Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–75
SET controller Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–91
EMU Set Point Temperatures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–106
Controller Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .B–2
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xv
About This Guide
This book describes the features of the HSZ80 Array Controller, configuration
procedures for the controller and storagesets running Array Controller Software
(ACS) 8.3Z, and the CLI commands used in configuring.
This book does not contain information about the operating environments to which
the controller may be connected, nor does it contain detailed information about
subsystem enclosures or their components. See the documentation that accompanied
those peripherals for information about them.
Getting Help
If you have a problem and have exhausted the information in this reference guide, you
can get further information and other help in the following locations.
Compaq Website
The Compaq Website has information on this product as well as the latest drivers and
Flash ROM images. You can access the Compaq website by logging on to the Internet
at http://www.compaq.com.
Telephone Numbers
For Compaq technical support:
In the United States and Canada, call 1-800-652-6672.
For Compaq technical support phone numbers outside the United States and Canada,
visit the Compaq Website at: http://www.compaq.com.
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Precautions
Follow these precautions when you’re carrying out the procedures in this book.
Electrostatic Discharge Precautions
Static electricity collects on all nonconducting material, such as paper, cloth, and
plastic. An electrostatic discharge (ESD) can easily damage a controller or other
subsystem component even though you may not see or feel the discharge. Follow
these precautions whenever you’re servicing a subsystem or one of its components:
■
Always use an ESD wrist strap when servicing the controller or other
components in the subsystem. Make sure that the strap contacts bare skin and fits
snugly, and that its grounding lead is attached to a bus that is a verified earth
ground.
■
Before touching any circuit board or component, always touch a verifiable earth
ground to discharge any static electricity that may be present in your clothing.
■
■
■
Always keep circuit boards and components away from nonconducting material.
Always keep clothing away from circuit boards and components.
Always use antistatic bags and grounding mats for storing circuit boards or
components during replacement procedures.
■
■
Always keep the ESD cover over the program card when the card is in the
controller. If you remove the card, put it in its original carrying case. Never touch
the contacts or twist or bend the card while you’re handling it.
Do not touch the connector pins of a cable when it is attached to a component or
host.
Component Precaution
System components referenced in this manual comply to regulatory standards
documented herein. Use of other components in their place may violate country
standards, negate regulatory compliance, or invalidate the warranty on your product.
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xvii
VHDCI Cable Precautions
All of the cables to the controller, cache module, and external cache battery use very-
high-density cable interconnect connectors (VHDCI). These connectors have
extraordinarily small mating surfaces that can be adversely affected by dust and
movement.
Use the following precautions when you’re connecting cables that use VHDCI
connectors:
■
■
Clean the mating surfaces with a blast of clean air.
Mate the connectors by hand, then tighten the retaining screws to 1.5 inch-
pounds—approximately 1/4 additional turn after the connectors have fully mated.
■
Test the assembly by gently pulling on the cable, which should not produce
visible separation.
Maintenance Port Precautions
The maintenance port generates, uses, and radiates radio-frequency energy through
cables that are connected to it. This energy may interfere with radio and television
reception. Do not leave a cable connected to this port when you’re not communicating
with the controller.
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xviii About This Guide
Conventions
This book uses the following typographical conventions and special notices to help
you find what you’re looking for.
Typographical Conventions
Convention
Meaning
ALLCAPS
Command syntax that must be entered exactly as shown
and for commands discussed within text, for example:
SET FAILOVER COPY=OTHER_CONTROLLER
“Use the SHOW SPARESET command to show the contents of
the spareset.”
Monospaced
Screen display.
Sans serif italic
Command variable or numeric value that you supply, for
example:
SHOW RAIDset-name or
set this_controller id=(n,n,n,n,)
italic
Reference to other books, for example: “See .... for
details.”
.
.
.
Indicates that a portion of an example or figure has been
omitted.
“this controller”
The controller serving your current CLI session through a
local or remote terminal.
“other controller”
The controller in a dual-redundant pair that’s connected
to the controller serving your current CLI session.
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xix
Special Notices
This book doesn’t contain detailed descriptions of standard safety procedures.
However, it does contain warnings for procedures that could cause personal injury and
cautions for procedures that could damage the controller or its related components.
Look for these symbols when you’re carrying out the procedures in this book:
WARNING: A warning indicates the presence of a hazard that can cause
personal injury if you do not observe the precautions in the text.
CAUTION: A caution indicates the presence of a hazard that might dam-
age hardware, corrupt software, or cause a loss of data.
IMPORTANT: An important note is a type of note that provides information
essential to the completion of a task. Users can disregard information in a note
and still complete a task, but they should not disregard an important note.
NOTE: A note provides additional information that’s related to the completion of an
instruction or procedure.
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Required Tools
You’ll need the following tools to service the controller, cache module, external cache
battery (ECB), the Power Verification and Addressing (PVA) module and the I/O
module:
■
A flathead screwdriver for loosening and tightening the I/O module retaining
screws.
■
A small phillips screwdriver for loosening and tightening the GLM access door
screws.
■
■
■
An antistatic wrist strap.
An antistatic mat on which to place modules during servicing.
A Storage Building Block (SBB) Extractor for removing StorageWorks building
blocks. This tool is not required, but it will enable you to perform more
efficiently.
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xxi
Related Publications
The following table lists some of the Compaq StorageWorks documents related to the
use of the controller, cache module, external cache battery, graphical user interface,
and the subsystem.
Document Title
BA370 Enclosure Rack Template (Compaq 42U Rack)
Command Console Version 2.1 HSZ80 User’s Guide
Disaster Tolerant Solutions Getting Started Guide for
DIGITAL UNIX
Part Number
EK-RKTMP-TP
355224-001
388725-001
N/A
AA-RF9TA-TE
AA-RC3CA-TE
Disaster Tolerant Solutions User’s Guide for DIGITAL
UNIX
N/A
EK-SWXDT-OP
EK-HSECB-IC
External Cache Battery Shelf Installation Card
(Compaq 42U Rack)
355222-001
Hardware Configuration Poster for HSZ80
HSZ80 Array Controller ACS V8.3 for DIGITAL UNIX
CD-ROM
388724-001
N/A
EK-HSZ80-CP
AG-RFA0A-BE
HSZ80 Array Controller ACS V8.3 for DIGITIAL UNIX
Release Notes
388713-001
388711-001
AA-RF9YA-TE
AA-RFALA-TE
AA-RFAEA-TE
EK-HSZ80-SV
HSZ80 Array Controller ACS V8.3 for IBM-AIX Release
Notes
HSZ80 Array Controller ACS V8.3 for OpenVMS Release 388712-001
Notes
HSZ80 Array Controller ACS V8.3 Maintenance and
Service Guide
388221-001
HSZ80 Array Controller Illustrated Parts Map
Installation Card (Compaq 42U Rack)
Installing a Ferrite Bead on a Host Bus
The RAIDBOOK—A Source for RAID Technology
RA8000/ESA12000 HSZ80 ACS V8.3 for DIGITAL UNIX
Installation Reference Manual
388220-001
355210-001
N/A
EK-HSZ80-MP
EK-H80RM-IC
EK-SWXES-IG
N/A
RAID Advisory Board
AA-RF9ZA-TE
388701-001
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Document Title
Part Number
AA-RF9XA-TE
RA8000/ESA12000 HSZ80 ACS V8.3 for DIGITAL UNIX
Quick Setup Guide
388700-001
388710-001
388709-001
388733-001
RA8000/ESA12000 HSZ80 ACS V8.3 for IBM-AIX
Installation Reference Manual
AA-RFAMA-TE
AA-RFAKA-TE
AA-RFAFA-TE
AA-RFADA-TE
RA8000/ESA12000 HSZ80 ACS V8.3 for IBM-AIX Quick
Setup Guide
RA8000/ESA12000 HSZ80 ACS V8.3 for OpenVMS
Installation Reference Manual
RA8000/ESA12000 HSZ80 ACS V8.3 for OpenVMS Quick 388732-001
Setup Guide
RA8000/ESA12000 Storage Subsystem User’s Guide
Rail Mounting Installation Card (Compaq 42U Rack)
Ultra SCSI RAID Enclosure (DS-BA370 Series) User’s
Guide
387404-001
355223-001
387403-001
EK-SMCPR-UG
EK-H8RMB-IC
EK-BA370-UG
Warranty Terms and Conditions
N/A
EK-HSXSW-WC
Revision History
This is a new document.
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1–1
Chapter 1
General Description
This chapter illustrates and describes in general terms your subsystem and its major
components: the HSZ80 Array Controller, its cache module, and its external cache
battery (ECB).
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1–2 General Description
Typical Installation
Figure shows the major components, or basic building blocks, of the storage
subsystem that is comprised of the following:
■
■
■
One BA370 rack-mountable enclosure.
Two controllers, each supported by a cache module.
Two External Cache Batteries (ECBs) in one Storage Building Block (SBB),
which provide backup power to the cache modules during a primary power
failure.
■
One environmental monitoring unit (EMU) that monitors the subsystem’s
environment and alerts the controller of equipment failures that could cause an
abnormal environment.
■
■
■
One Power Verification and Addressing (PVA) module that provides a unique
address to each enclosure in an extended subsystem.
Six I/O modules that integrate the SBB shelf with either an 8-bit single-ended,
16-bit single-ended, or 16-bit differential SCSI bus
Two cache modules, which support nonvolatile memory and dynamic cache
policies to protect the availability of its unwritten (write-back) data
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1–4 General Description
Table 1–1 Basic Building Blocks List
Item
1
Description
BA370 rack-mountable enclosure
Cooling fan
2
3
Power cable kit
4
I/O module
5
SCSI hub, 3 port
6
SCSI hub, 5 port
7
SCSI hub, 9 port, upgrade
Cache module
8
9
HSZ80 controller
10
11
12
13
14
PVA module
EMU
AC input module
180-watt power supply
Disk drive, 4 GB, 7200
Disk drive, 9 GB, 7200
Disk drive, 18 GB, 7200
Disk drive, 9 GB, 10K
Disk drive, 18 GB, 10K
15
16
Power cable
ECB, dual (shown)
ECB, single (not shown)
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1–5
Summary of HSZ80 Features
Table 1–2 summarizes the features of the controller:
Table 1–2 Summary of Controller Features
Feature
Supported
Topology
Dual host port Ultra SCSI
SCSI-2, Limited SCSI-3
Wide Ultra SCSI, Differential
Host protocol
Host bus interconnect
Number of host ports
Device protocol
2 on Wide Ultra SCSI, Differential
SCSI-2
Device bus interconnect
Wide Ultra SCSI, Single-ended
Number of SCSI device ports (or I/O modules)
Number of SCSI device targets per port
Maximum number of SCSI target devices
RAID levels supported
6 Wide Ultra SCSI, Single-ended
12
72 Ultra SCSI disks
0, 1, 0+1, 3/5
Cache module memory sizes supported
Maximum cache module size
64 MB, 128 MB, 256 MB, 512 MB
512 MB
Yes
Yes
Yes
20
PCMCIA program card software upgrades
Device warm swap
Exercisers available for testing disks
Maximum number of RAID-5 storagesets
Maximum number of RAID-5 and RAID-1 storagesets
30
Maximum number of RAID-5, RAID-1, and RAID-0
storagesets
45
Maximum number of units presented to the host
Maximum number of partitions per storageset
Maximum members per mirrorset
128
8
6
Maximum number of members per RAID-5 storageset
14
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1–6 General Description
Table 1–2 Summary of Controller Features (Continued)
Feature
Supported
Maximum number of members in a stripeset
24
48
Maximum number of physical devices in a striped
mirrorset
Maximum host port transfer speed
20 MHz
512 GB
Largest device, storageset, or unit size
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1–7
The HSZ80 Array Controller
Your controller is the intelligent bridge between your host and the devices in your
subsystem.
Storage
Host
subsystem
Controller
CXO5505A
Figure 1–2. Bridging the Gap Between the Host and Its Storage Subsystem
because it provides a host with high-performance and high-availability access to
storage devices. See the HSZ80 Array Controller ACS Version 8.3 Release Notes for
the most recent list of supported devices and operating systems.
The controller provides the ability to combine several ordinary disk drives into a
single, high-performance storage unit called a storageset. Storagesets are
implementations of RAID technology, which ensures that every unpartitioned
storageset, whether it uses two disk drives or ten, looks like a single storage unit to the
configure them.
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1–8 General Description
From the host’s perspective, the controller is simply another device connected to one
of its I/O buses. Consequently, the host sends its I/O requests to the controller just as
it would to any SCSI device. From the subsystem’s perspective, the controller
receives the I/O requests and directs them to the devices in the subsystem. Because
the controller processes the I/O requests, the host isn’t burdened by the processing
that’s typically associated with reading and writing data to multiple storage devices.
NOTE: The maintenance port cable shipped with the controller has a 9-pin
connector for a PC connection only. If you are using a terminal instead of a PC or if
you have a system with a DB25 connection, you can obtain a cable as shown in
Figure 1–5 on page 1–12 from the local field service office.
To determine which parts you need for your configuration, you must have an idea of
the type of configuration you will be running in your subsystem. See the following
sections for your configuration type:
■
■
■
The components that you’ll use most often are conveniently located on the
controller’s front panel, such as the maintenance port and the operator control panel
(OCP). The host port and program-card slot are also located on the front panel,
making it easy to update the controller’s software or to connect the controller to a
different host.
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1–9
1
2
3
4
5
6
1
2
3
4
5
6
7
8
CXO6284B
Figure 1–3. HSZ80 Array Controller
Table 1–3 HSZ80 Array Controller
Item
➀
Description
Backplane connector
Host port 1
➁
Host port 2
➂
Program card slot
Program card ejection button
Release lever
➃
➄
➅
Maintenance port
Operator Control panel
➆
➇
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1–10 General Description
2
1
3
5
4
1
2
3
4
5
6
6
7
10
8
9
CXO6492B
Figure 1–4. Parts Used in Configuring the HSZ80 Array Controller
Table 1–4 Description of Parts
Item
➀
Description
Host port 1
Host port 2
➁
ESD/PCMCIA program card
ESD/PCMCIA program card cover
Trilink connectors
➂
➃
➄
Host bus cable
➅
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1–11
Table 1–4 Description of Parts (Continued)
Item
➆
Description
Ferrite bead
Terminator
➇
Jumper cable
➈
Maintenance port cable
➉
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1–12 General Description
1
2
3
4
5
CXO6505B
Figure 1–5. Optional Maintenance Port Cable for a Terminal Connection
Table 1–5 Parts of the Optional Maintenance Port Cable
Item
➀
Description
Cable assembly
Ferrite bead
➁
RJ-11 Adapter
➂
RJ-11 Extension Cable
PC Serial Port Adapter
➃
➄
module supports which controller in a dual-redundant controller configuration in a
BA370 rack-mountable enclosure.
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1–13
EMU
PVA
Controller A
Controller B
Cache module A
Cache module B
CXO6283A
Figure 1–6. Location of Controllers and Cache Modules
IMPORTANT: Compaq recommends that you use the slots for controller A and
cache module A for single controller configurations. Slot A responds to SCSI tar-
get ID number 7 on the device buses and slot B responds to SCSI target ID num-
ber 6 on the device buses.
Operator Control Panel
The operator control panel (OCP) contains a reset button and six port button LEDs as
the controller is operating normally. The port button LEDs correspond to the
controller’s device ports and remain off during normal operation. If an error occurs,
the reset button and LEDs will illuminate in a solid or flashing pattern to help you
diagnose the problem.
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1–14 General Description
Reset button/
LED
Port button/
LED
1
2
3
4
5
6
CXO6216A
Figure 1–7. HSZ80 Controller Operator Control Panel (OCP)
Controller.
Under normal circumstances, you will not need to remove the controller from its
enclosure. For this reason, the components that you will use most often are
conveniently located on the front panel. For example, the maintenance port provides a
convenient way to connect a PC or terminal to your controller so that you can interact
with it.
After you configure your controller, you should periodically check its control panel. If
an error occurs, one or more of the LEDs on the control panel will flash in a pattern
that will help you to diagnose the problem. See the HSZ80 Array Controller ACS
Version 8.3 Maintenance and Service Guide for details about troubleshooting your
controller.
Maintenance Port
You can access the controller in two ways: through a PC or terminal via the
maintenance port or through a remote terminal—sometimes called a virtual terminal
or host console—via the host. Compaq recommends that you use a PC or terminal to
carry out the troubleshooting and servicing procedures in this manual. See
“Establishing a Local Connection to the Controller,” page 2–26, for more information
about connecting the controller with a maintenance port cable.
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1–15
Utilities and Exercisers
The controller’s software includes the following utilities and exercisers to assist in
troubleshooting and maintaining the controller and the other modules that support its
operation. For more details on each of the utilities and exercisers, see the HSZ80
Array Controller ACS Version 8.3 Maintenance and Service Guide.
Fault Management Utility
The Fault Management Utility (FMU) provides a limited interface to the controller’s
fault management system. As a troubleshooting tool, you can use FMU to:
■
Display the last-failure and memory-system-failure entries that the fault
management software stores in the controller’s nonvolatile memory.
■
Translate many of the event messages that are contained in the entries related to
the significant events and failures. For example, entries may contain codes that
indicate the cause of the event, the software component that reported the event,
the repair action, and so on.
■
Set the display characteristics of spontaneous events and failures that the fault
management system sends to the PC or terminal, or to the host.
Virtual Terminal Display
Use the virtual terminal display (VTDPY) utility to aid in troubleshooting the
following issues:
■
■
■
Communication between the controller and its hosts.
Communication between the controller and the devices in the subsystem.
The state and I/O activity of the logical units, devices, and device ports in the
subsystem.
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1–16 General Description
Disk Inline Exerciser
Use the disk inline exerciser (DILX) to investigate the data-transfer capabilities of
disk drives. DILX tests and verifies operation of the controller and the SCSI–2 disk
drives attached to it. DILX generates intense read and write loads to the disk drive
while monitoring the drive’s performance and status.
Configuration Utility
Use the configuration (CONFIG) utility to add one or more storage devices to the
subsystem. This utility checks the device ports for new disk drives, then adds them to
the controller’s configuration and automatically names them.
HSUTIL
Use HSUTIL to upgrade the firmware on disk drives in the subsystem and to format
disk drives.
Code Load and Code Patch Utility
Use the Code Load/Code Patch (CLCP) utility to upgrade the controller software and
the EMU software. You can also use it to patch the controller software. Whenever you
install a new controller, you must have the correct software version and patch number.
IMPORTANT: Only Compaq field service personnel are authorized to upload EMU
microcode updates. Contact the Customer Service Center (CSC) for directions in
obtaining the appropriate EMU microcode and installation guide.
Clone Utility
Use the Clone utility to duplicate the data on any unpartitioned mirrorset. Back up the
cloned data while the actual storageset remains online.
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1–17
Field Replacement Utility
Use the field replacement utility (FRUTIL) to replace a failed controller (in a dual-
redundant configuration) without shutting down the subsystem.You can also use this
menu-driven utility to replace cache modules, external cache batteries, and the PVA
module.
Change Volume Serial Number Utility
Only Compaq authorized service personnel may use this utility.
The Change Volume Serial Number (CHVSN) utility generates a new volume serial
number (called VSN) for the specified device and writes it on the media. It is a way to
eliminate duplicate volume serial numbers and to rename duplicates with different
volume serial numbers.
Device Statistics Utility
The Device Statistics (DSTAT) utility allows you to log I/O activity on a controller
over an extended period of time. Later, you can analyze that log to determine where
the bottlenecks are and how to tune the controller for optimum performance.
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1–18 General Description
Cache Module
Each controller requires a companion cache module as shown in Figure 1–8.
page 1–13 shows the location of a controller’s companion cache module.
The cache module, which contains up to 512 MB of memory, increases the
subsystem’s I/O performance by providing read, read-ahead, write-through, and
write-back caching. The size of the memory contained in the cache module depends
on the configuration of the DIMMs, with the supported combinations shown in
Version 8.3 Maintenance and Service Guide.
Table 1–6 Cache Module Memory Configurations
DIMMs
Quantity
Memory
32 MB
32 MB
128 MB
128 MB
2
4
2
4
64 MB
128 MB
256 MB
512 MB
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1–19
5
4
1
2
3
CXO6306B
Figure 1–8. Cache Module
Table 1–7 Location of Cache Module Parts
Item
➀
Description
Cache memory power LED
ECB Y cable
➁
Release lever
➂
Backplane connector
DIMM
➃
➄
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1–20 General Description
Caching Techniques
The cache module supports the following caching techniques to increase the
subsystem’s read and write performance:
■
■
■
■
Read caching
Read-ahead caching
Write-through caching
Write-back caching
Read Caching
When the controller receives a read request from the host, it reads the data from the
disk drives, delivers it to the host, and also stores the data in its cache module. This
process is called read caching.
Read caching can decrease the subsystem’s response time to many of the host’s read
requests. If the host requests some or all of the cached data, the controller satisfies the
request from its cache module rather than from the disk drives. By default, read
caching is enabled for all storage units.
To set the maximum cache that can be transferred, see “SET unit-number” in
Read-Ahead Caching
Read-ahead caching begins once the controller has already processed a read request
and it receives a sequential read request from the host. If the controller does not find
the data in the cache memory, it reads the data from the disks and sends it to the cache
memory.
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1–21
The controller then anticipates subsequent read requests and begins to prefetch the
next blocks of data from the disks as it sends the requested read data to the host. This
is a parallel action. The controller notifies the host of the read completion, and
subsequent sequential read requests are satisfied through the cache memory. By
default, read-ahead caching is enabled for all disk units.
Write-Through Caching
When the controller receives a write request from the host, it stores the data in its
cache module, writes the data to the disk drives, then notifies the host when the write
operation is complete. This process is called write-through caching because the data
actually passes through—and is stored in—the cache memory on its way to the disk
drives.
If you enable read caching for a storage unit, write-through caching is automatically
enabled. Likewise, if you disable read caching, write-through caching is
automatically disabled.
Write-Back Caching
This caching technique decreases the subsystem’s response time to write requests by
allowing the controller to declare the write operation “complete” as soon as the data
reaches its cache memory. The controller performs the slower operation of writing the
data to the disk drives at a later time.
By default, write-back caching is enabled for all disk units. In either case, the
controller will not provide write-back caching to a unit unless the cache memory is
nonvolatile, as described in the next section.
If the mirrorset is a disaster-tolerant mirrorset, then write-back caching cannot be
enabled.
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1–22 General Description
Fault-Tolerance for Write-Back Caching
The cache module supports nonvolatile memory and dynamic cache policies to
protect the availability of its unwritten (write-back) data.
Nonvolatile Memory
Except for disaster-tolerant supported mirrorsets, the controller can provide write-
back caching for storage units as long as the controller’s cache memory is nonvolatile.
In other words, to enable write-back caching, you must provide a backup power
source to the cache module to preserve the unwritten cache data in the event of a
power failure. If the cache memory were volatile—that is, if it didn’t have a backup
power supply—the unwritten cache data would be lost during a power failure.
By default, the controller expects to use an ECB as the backup power source for its
ECB.
However, if your subsystem is backed up by an uninterruptible power supply (UPS),
you can tell the controller to use the UPS as the backup power source with the
command, SET Controller, and using the CACHE_UPS switch.
Cache Policies Resulting from Cache Module Failures
If the controller detects a full or partial failure of its cache module or ECB, it
automatically reacts to preserve the unwritten data in its cache module. Depending
upon the severity of the failure, the controller chooses an interim caching technique—
also called the cache policy—which it uses until you repair or replace the cache
module.
Table 1–8 shows the cache policies resulting from a full or partial failure of cache
module A in a dual-redundant controller configuration. The consequences shown in
this table are the same for cache module B.
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1–23
Table 1–9 shows the cache policies resulting from a full or partial failure of cache
module A’s ECB in a dual-redundant controller configuration. When cache module A
is at least 50% charged, the ECB is still good and is charging. When it is less than
50% charged, the ECB is low, but still charging. The consequences shown are the
opposite for a failure of cache module B’s ECB.
Table 1–8 Cache Policies and Cache Module Status
Cache Module Status
Cache Policy
Cache A
Good
Cache B
Good
Unmirrored Cache
Data loss: No.
Mirrored Cache
Data loss: No.
Cache policy: Both controllers
support write-back caching.
Cache policy: Both controllers support
write-back caching.
Failover: No.
Failover: No.
Multibit
cache
Good
Data loss: Forced error and loss of
write-back data for which the
Data loss: No. Controller A recovers its
lost write-back data from the mirrored
copy on cache B.
memory
failure
multibit error occurred. Controller A
detects and reports the lost blocks.
Cache policy: Both controllers support
write-back caching.
Cache policy: Both controllers
support write-back caching.
Failover: No.
Failover: No.
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1–24 General Description
Table 1–8 Cache Policies and Cache Module Status (Continued)
Cache Module Status
Cache Policy
Cache A
Cache B
Good
Unmirrored Cache
Mirrored Cache
DIMM or
cache
Data integrity: Write-back data that
was not written to media when
failure occurred was not recovered.
Data integrity: Controller A recovers all
of its write-back data from the
mirrored copy on cache B.
memory
controller
chip
Cache policy: Controller A supports
write-through caching only;
controller B supports write-back
caching.
Cache policy: Controller A supports
write-through caching only; controller
B supports write-back caching.
failure
Failover: In transparent failover, all
units failover to controller B and
operate normally. In multiple-bus
failover with host-assist, only those
units that use write-back caching,
such as RAIDsets and mirrorsets,
failover to controller B.
Failover: In transparent failover, all
units failover to controller B. In
multiple-bus failover with host-
assist, only those units that use
write-back caching, such as
RAIDsets and mirrorsets, failover to
controller B. All units with lost data
become inoperative until you clear
them with the CLEAR LOST_DATA
command. Units that didn’t lose data
operate normally on controller B.
In single controller configurations,
RAIDsets, mirrorsets, and all units
with lost data become inoperative.
Although you can clear the lost data
errors on some units, RAIDsets and
mirrorsets remain inoperative until
you repair or replace the nonvolatile
memory on cache A.
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1–25
Table 1–8 Cache Policies and Cache Module Status (Continued)
Cache Module Status
Cache Policy
Cache A
Cache B
Good
Unmirrored Cache
Mirrored Cache
Cache
Board
Failure
Same as for DIMM failure.
Data integrity: Controller A recovers all
of its write-back data from the
mirrored copy on cache B.
Cache policy: Both controllers support
write-through caching only. Controller
B cannot execute mirrored writes
because cache module A cannot
mirror controller B’s unwritten data.
Failover: No.
Table 1–9 Resulting Cache Policies and ECB Status
Cache Module Status
Cache Policy
Cache A
Cache B
Unmirrored Cache
Data loss: No.
Mirrored Cache
At least
50%
At least
50%
Data loss: No.
Cache policy: Both controllers
continue to support write-back
caching.
Cache policy: Both controllers continue
to support write-back caching.
charged
charged
Failover: No.
Failover: No.
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1–26 General Description
Table 1–9 Resulting Cache Policies and ECB Status (Continued)
Cache Module Status
Cache Policy
Cache A
Cache B
Unmirrored Cache
Data loss: No.
Mirrored Cache
Data loss: No.
Less than
50%
At least
50%
Cache policy: Controller A supports
write-through caching only;
controller B supports write-back
caching.
Cache policy: Both controllers continue
to support write-back caching.
charged
charged
Failover: No.
Failover: In transparent failover, all
units failover to controller B.
In multiple-bus failover with host-
assist, only those units that use
write-back caching, such as
RAIDsets and mirrorsets, failover to
controller B.
In single-controller configurations,
the controller only provides write-
through caching to its units.
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1–27
Table 1–9 Resulting Cache Policies and ECB Status (Continued)
Cache Module Status
Cache Policy
Cache A
Failed
Cache B
Unmirrored Cache
Data loss: No.
Mirrored Cache
Data loss: No.
At least
50%
Cache policy: Controller A supports
write-through caching only;
controller B supports write-back
caching.
Cache policy: Both controllers continue
to support write-back caching.
charged
Failover: No.
Failover: In transparent failover, all
units failover to controller B and
operate normally.
In multiple-bus failover with host-
assist, only those units that use
write-back caching, such as
RAIDsets and mirrorsets, failover to
controller B.
In single-controller configurations,
the controller only provides write-
through caching to its units.
Less than
50%
Less than Data loss: No.
50%
Data loss: No.
Cache policy: Both controllers
Cache policy: Both controllers support
write-through caching only.
charged
charged
support write-through caching only.
Failover: No.
Failover: No.
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1–28 General Description
Table 1–9 Resulting Cache Policies and ECB Status (Continued)
Cache Module Status
Cache Policy
Cache A
Failed
Cache B
Unmirrored Cache
Data loss: No.
Mirrored Cache
Data loss: No.
Less than
50%
Cache policy: Both controllers
Cache policy: Both controllers support
write-through caching only.
charged
support write-through caching only.
Failover: In transparent failover, all
units failover to controller B and
operate normally.
Failover: No.
In multiple-bus failover with host-
assist, only those units that use
write-back caching, such as
RAIDsets and mirrorsets, failover to
controller B.
In single-controller configurations,
the controller only provides write-
through caching to its units.
Failed
Failed
Data loss: No.
Data loss: No.
Cache policy: Both controllers
Cache policy: Both controllers support
write-through caching only.
support write-through caching only.
Failover: No. RAIDsets and mirrorsets
become inoperative. Other units that
use write-back caching operate with
write-through caching only.
Failover: No. RAIDsets and mirrorsets
become inoperative. Other units that
use write-back caching operate with
write-through caching only.
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1–29
External Cache Battery
To preserve the write-back cache data in the event of a primary power failure, a cache
module must be connected to an ECB or a UPS.
Compaq supplies two versions of ECBs: a single-battery ECB for single controller
configurations, and a dual-battery ECB for dual-redundant controller configurations,
preserve 512 MB of cache memory for 24 hours. However, the battery capacity
depends upon the size of memory contained in the cache module, which are listed in
Table 1–10 ECB Capacity Based on Memory Size
Size
DIMM Combinations
Two, 32 MB each
Capacity
64 MB
96 hours
48 hours
48 hours
24 hours
128 MB
256 MB
512 MB
Four, 32 MB each
Two, 128 MB each
Four, 128 MB each
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1–30 General Description
1
S H U T O F F
S T A T U S
2
P O W
C A C
CACHE
POWER
STATUS
SHUT OFF
4
3
CXO6305B
Figure 1–9. ECB for Dual-Redundant Controller Configurations
Table 1–11 Location of Parts
Item
➀
Description
Shut off button
Status LED
ECB Y cable
Male port
➁
➂
➃
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1–31
Charging Diagnostics
Whenever you restart the controller, its diagnostic routines automatically check the
charge in the ECB’s batteries. If the batteries are fully charged, the controller reports
them as fully charged and rechecks them every 24 hours. If the batteries are charging,
the controller rechecks them every 4 minutes. Batteries are reported as being either
above or below 50 percent in capacity. Batteries below 50 percent in capacity are also
referred to as being low.
This 4-minute polling continues for up to 10 hours—the maximum time it should take
to recharge the batteries. If the batteries have not been charged sufficiently after 10
hours, the controller declares them to be failed.
Battery Hysteresis
When charging a battery, write-back caching will be allowed as long as a previous
down time has not drained more than 50 percent of a battery’s capacity. When a
battery is operating below 50 percent capacity, the battery is considered to be low and
write-back caching is disabled.
CAUTION: Compaq recommends that you replace the ECB every two
years to prevent battery failure.
IMPORTANT: If a UPS is used for backup power, the controller does not check
the battery. To set the subsystem to use a UPS or to instruct the controller on per-
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2–1
Chapter 2
Configuring an HSZ80 Array Controller
This chapter explains how to configure an HSZ80 Array Controller and the modules
that support its operation in a StorageWorks subsystem.
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2–2 Configuring an HSZ80 Array Controller
Introduction
Use the Quick Setup Guide that came with your subsystem to unpack and set up your
subsystem prior to configuring your controller.
Unless you specifically requested a preconfigured subsystem, you will have to
configure your controller and its subsystem before you can use them. Use the
procedure in this chapter to configure your controller. The procedure contains
references to more detailed information, should you need it.
For the complete syntax and descriptions of the CLI commands used in the
Configuration Rules
Before you configure your controller, review these configuration rules and ensure
your planned configuration meets the following requirements and conditions:
■
Maximum 15 targets with up to 32 LUNs on each target, depending on the
operating system
❏
Maximum 128 assignable, host-visible LUNs across all 15 targets
■
■
■
■
■
■
■
■
■
■
Maximum 512-GB LUN capacity
Maximum 72 physical devices
Maximum 20 RAID-5 storagesets
Maximum 30 RAID-5 and RAID-1 storagesets
Maximum 45 RAID-5, RAID-1, and RAID-0 storagesets
Maximum 8 partitions per storageset or individual disk
Maximum 6 members per mirrorset
Maximum 14 members per RAID-5 storageset
Maximum 24 members per stripeset
Maximum 48 physical devices per striped mirrorset
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2–3
Configuring an HSZ80 Array Controller
You can use this procedure to configure your controller in one of three configurations:
1) single controller, 2) dual controllers in transparent failover mode, or 3) dual
controllers in multiple-bus failover (host-assisted) mode. When you are done
configuring the controller, you can then add devices, plan storagesets, and configure
storagesets. These tasks can be performed either with SWCC or using CLI commands
from a PC or terminal.
See the following sections for your configuration type:
■
■
■
A Few Tips
As you configure the controller, keep these points in mind:
■
Cabling—You can either configure the controller with a maintenance port cable
and no SCSI host bus cables connected to the host, or you can configure with the
SCSI host bus cables connected:
❏
SWCC—You can configure the controller using the SWCC graphical user
interface. See the Command Console for HSZ80 Solutions Getting Started Guide
for more details.
❏
CLI Commands—You can configure the controller with CLI commands
using a terminal program.
NOTE: Eventually, you must connect the SCSI host bus cables between the
controllers and the host. You can connect the SCSI host bus cables after
configuring the controllers using a maintenance port cable.
■
EMU Alarm Control Switch—If the EMU alarm goes off, simply press it to stop
it. Check the error message to verify the type of error condition.
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2–4 Configuring an HSZ80 Array Controller
■
CLI Commands—A few commands can be used while configuring the controller:
CLEAR_ERRORS CLI—Clears all error messages so you can type without the
❏
messages being repeated. Make sure you read each error message before deleting
it.
❏
SHOW THIS_CONTROLLER FULL and SHOW OTHER_CONTROLLER FULL—Lists
the full information about the controller.
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2–5
Configuring a Single Controller
1
2
3
1
2
3
4
5
6
4
5
or
4
6
CXO6285B
Figure 2–1. Cabling for a Single-Controller Configuration
Table 2–1 Location of Parts for a Single Controller Configuration
Item
Description
Host port 1
➀
➁
➂
➃
➄
➅
Host port 2
Trilink connector
Host bus cable
Ferrite bead
Terminator
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2–6 Configuring an HSZ80 Array Controller
Follow these steps to configure a controller:
NOTE: This procedure has been written for first-time configuring. However, you
can adapt the procedure when you reconfigure the controllers. For replacing and
upgrading the controllers, see the HSZ80 Array Controller ACS Version 8.3
Maintenance and Service Guide.
1. Use the power-verification and addressing (PVA) module ID switch to set the
SCSI ID number for the BA370 rack-mountable enclosure.
settings.
2. Remove the program card ESD cover, and insert the program card into the
controller. Replace the ESD cover.
3. Turn on the power to the enclosure or cabinet by turning on the ac input boxes.
4. Establish a local connection to the controller.
creating a local connection.
5. Set the SCSI target ID numbers for the controller. Use the following commands:
SET THIS_CONTROLLER PORT_1_ID = (n,n)
or
SET THIS_CONTROLLER PORT_2_ID = (n,n)
ID numbers.
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2–7
6. Set the host function mode for the controller using the target ID numbers set in
step 5. Use the following command:
NOTE: The default host function mode defaults to Host Mode A. The
HOST_FUNCTION switch changes the host function mode to a different mode.
SET THIS_CONTROLLER HOST_FUNCTION= (ID, MODE)
on the HOST_FUNCTION switch.
7. Restart the controller using the following command:
RESTART THIS_CONTROLLER
8. Set the time on the controller, which provides a baseline for replacing the
external battery, using the following command:
SET THIS_CONTROLLER TIME=DD-MMM-YYYY:HH:MM:SS
NOTE: All values are numbers, except for MMM, which uses the first three
letters of the month. When setting hours, minutes, and seconds—HH, MM,
and SS—you must use 24-hour time.
9. Set up the battery discharge timer:
a. Start Frutil using the following command:
RUN FRUTIL
Frutil displays the following:
Do you intend to replace this controller’s cache battery? Y/N
b. Enter Y(es).
Frutil displays a three-step procedure and prompts you to press return.
c. Press return.
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2–8 Configuring an HSZ80 Array Controller
10. Enter any other optional CLI commands for your configuration.
11. Display details about the controller you configured. Use the following command:
SHOW THIS_CONTROLLER FULL
IMPORTANT: If you are using a PC or terminal with the maintenance port cable,
you must connect the SCSI bus cables in the desired configuration. See “Con-
necting a Single Controller to the Host,” page 2–9,for more information about
configurations.
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2–9
Connecting a Single Controller to the Host
host:
2. Ensure the host and adapter are also configured. See the host user’s guide for
details.
3. Connect a trilink to the controller going into host Port 1:
a. Connect the host bus cable onto one end of the trilink connector.
b. For a BA370 enclosure residing in an SW600 cabinet, snap the ferrite bead
on the bus cable within one inch of the controller.
4. Connect a terminator on the trilink connector for host Port 1:
a. If the controller is at the end of the host bus, connect a terminator to the other
connector on the front of the trilink connector.
b. Otherwise, connect a cable that continues to the next device on the bus. Be
sure to install a terminator at the end of the bus.
5. Repeat steps 3 and 4 for host Port 2.
IMPORTANT: The HSZ80 Array Controller has dual-host ports, Port 1 and Port 2,
shows a connection to host Port 1. However, you may also configure host Port 2
the same way, depending on your system requirements.
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2–10 Configuring an HSZ80 Array Controller
Configuring Dual-Redundant Controllers in
Transparent Failover Mode
1
2
3
4
1
1
2
2
3
3
4
4
5
5
6
6
5
7
3
4
or
6
CXO6287B
Figure 2–2. Cabling for a Dual-Redundant Controller Configuration in Transparent Failover
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2–11
Table 2–2 Location of Parts for Transparent Failover
Item
➀
Description
Host port 1
Host port 2
➁
Trilink connector
Host bus cable
➂
➃
Ferrite bead
➄
Terminator
➅
Jumper cable
➆
Follow these steps to configure a controller:
NOTE: This procedure has been written for first-time configuring. However, you
can adapt the procedure when you reconfigure the controllers. For replacing and
upgrading the controllers, see the HSZ80 Array Controller ACS Version 8.3
Maintenance and Service Guide.
1. Use the power-verification and addressing (PVA) module ID switch to set the
SCSI ID number for the BA370 rack-mountable enclosure.
settings.
2. Remove the program card ESD cover, and insert the program card into the
controller. Replace the ESD cover. Repeat for the other controller.
3. Turn on the power to the enclosure or cabinet by turning on the ac input boxes.
4. Establish a local connection to the controllers.
creating a local connection.
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2–12 Configuring an HSZ80 Array Controller
5. Put this controller into transparent failover mode. Use the following command:
CAUTION: Issuing the SET FAILOVER COPY command will overwrite
data on the companion controller. If you are reconfiguring the control-
before proceeding and for more information.
SET FAILOVER COPY = THIS_CONTROLLER
The other controller inherits this controller’s configuration, then restarts. Wait for it to
return to normal operation before continuing.
See details about failover modes in “Selecting a Failover Mode,” page 2–29.
6. If you want to enable mirrored write-back cache in a failover configuration, enter
this command:
SET THIS_CONTROLLER MIRRORED_CACHE
NOTE: Both controllers restart when you set mirror mode. This process can take
up to 5 minutes, depending on the amount of data that must be flushed from the
cache.
For details about caching techniques, see “Caching Techniques,” page 1–20.
For details about mirrored write-back cache, see “Enabling Mirrored Write-Back
7. Set the SCSI target ID numbers for the controller. Use the following command:
SET THIS_CONTROLLER PORT_1_ID= (n,n)
or
SET THIS_CONTROLLER PORT_2_ID= (n,n)
ID numbers.
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2–13
8. If you are configuring controllers in transparent failover mode, prefer some or all
SCSI target ID numbers to the controllers. Use the following command:
SET THIS_CONTROLLER PORT_1_PREFERRED_ID = (n, n)
or
SET THIS_CONTROLLER PORT_2_PREFERRED_ID = (n,n)
See “Using Preferred ID Numbers,” page 2–35, for details about preferred SCSI
target ID numbers.
9. Set the host function mode for the controller using the target ID numbers set in
NOTE: The default host function mode defaults to Host Mode A. The
HOST_FUNCTION switch changes the host function mode to a different mode.
SET THIS_CONTROLLER HOST_FUNCTION= (ID, MODE)
or
SET OTHER_CONTROLLER HOST_FUNCTION= (ID, MODE)
on the HOST_FUNCTION switch.
10. Restart the controllers using the following command:
NOTE: After restarting the other controller, the EMU alarm will sound. To stop it,
restart this controller.
RESTART OTHER_CONTROLLER
RESTART THIS_CONTROLLER
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2–14 Configuring an HSZ80 Array Controller
11. Set the time on the controller, which provides a baseline for replacing the
external battery, using the following command:
SET THIS_CONTROLLER TIME=DD-MMM-YYYY:HH:MM:SS
NOTE: All values are numbers, except for MMM, which uses the first three
letters of the month. When setting hours, minutes, and seconds—HH, MM,
and SS—you must use 24-hour time.
12. Set up the battery discharge timer:
a. Start Frutil using the following command:
RUN FRUTIL
Frutil displays the following:
Do you intend to replace this controller’s cache battery? Y/N
b. Enter Y(es).
Frutil displays a three-step procedure and prompts you to press return.
c. Press return.
13. Enter any other optional CLI commands for your configuration.
14. Display details about the controller you configured. Use the following command:
SHOW THIS_CONTROLLER FULL
IMPORTANT: If you are using a PC or terminal with the maintenance port cable,
you must connect the SCSI bus cables in the desired configuration. See “Con-
necting in Transparent Failover Mode to the Host,” page 2–15,for more informa-
tion about configurations.
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2–15
Connecting in Transparent Failover Mode to
the Host
to the host:
2. Ensure the host and adapter are also configured. See the host user’s guide for
details.
3. Connect two trilink connectors between both controllers going into host Port 1
with a jumper cable:
a. Attach one end of the jumper cable to one trilink.
b. Attach the other end of the jumper cable to the other trilink.
4. Connect the host bus cable onto one end of the trilink connector:
a. For a BA370 enclosure residing in an SW600 cabinet, snap the ferrite bead
on the bus cable within one inch of the controller.
5. Connect a terminator on the end of the trilink connector for host Port 1:
a. If the controller is at the end of the host bus, connect a terminator to the other
connector on the front of the trilink connector.
b. Otherwise, connect another host bus cable that continues to the next device
on the bus. Be sure to install a terminator at the end of the bus.
6. Repeat steps 3, 4, and 5 for host Port 2 on both controllers.
IMPORTANT: The HSZ80 Array Controller has dual-host ports, Port 1 and Port 2,
shows a connection to host Port 1. However, you may also configure host Port 2
the same way, depending on your system requirements.
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2–16 Configuring an HSZ80 Array Controller
Configuring Dual-Redundant Controllers in
Multiple-Bus Failover Mode
1
2
4
3
5
1
1
2
2
3
3
4
4
5
5
6
6
4
3
or
4
5
6
or
4
6
CXO6286B
Figure 2–3. Cabling for a Dual-Redundant Controller Configuration in Multiple-Bus Failover
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2–17
Table 2–3 Location of Parts for Multiple-Bus Failover
Item
➀
Description
Host port 1
Host port 2
➁
Trilink connector
Host bus cable
Ferrite bead
Terminator
➂
➃
➄
➅
Follow these steps to configure a controller:
NOTE: This procedure has been written for first-time configuring. However, you
can adapt the procedure when you reconfigure the controllers. For replacing and
upgrading the controllers, see the HSZ80 Array Controller ACS Version 8.3
Maintenance and Service Guide.
1. Use the power-verification and addressing (PVA) module ID switch to set the
SCSI ID number for the BA370 rack-mountable enclosure.
settings.
2. Remove the program card ESD cover, and insert the program card into the
controller. Replace the ESD cover. Repeat for the other controller.
3. Turn on the power to the enclosure or cabinet by turning on the ac input boxes.
4. Establish a local connection to the controllers.
creating a local connection.
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2–18 Configuring an HSZ80 Array Controller
5. Put this controller in multiple-bus failover mode, using the following command:
CAUTION: Issuing the SET MULTIBUS_FAILOVER COPY command will
overwrite data on the companion controller. If you are reconfiguring the
mands,” before proceeding and for more information.
SET MULTIBUS_FAILOVER COPY = THIS_CONTROLLER
The other controller inherits this controller’s configuration, then restarts. Wait for it to
return to normal operation before continuing.
6. If you want to enable mirrored write-back cache in a failover configuration, enter
this command:
SET THIS_CONTROLLER MIRRORED_CACHE
NOTE: Both controllers restart when you set mirror mode. This process can take
up to 5 minutes, depending on the amount of data that must be flushed from the
cache.
For details about caching techniques, see “Caching Techniques,” page 1–20.
For details about mirrored write-back cache, see “Enabling Mirrored Write-Back
7. Set the SCSI target ID numbers for the controller. Use the following command:
SET THIS_CONTROLLER PORT_1_ID= (n,n)
or
SET THIS_CONTROLLER PORT_2_ID= (n,n)
ID numbers.
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2–19
8. Set the host function mode for the controller using the target ID numbers set in
step 7. Use the following command:
NOTE: The default host function mode defaults to Host Mode A. The
HOST_FUNCTION switch changes the host function mode to a different mode.
SET THIS_CONTROLLER HOST_FUNCTION= (ID, MODE)
or
SET OTHER_CONTROLLER HOST_FUNCTION= (ID, MODE)
on the HOST_FUNCTION switch.
9. Restart the controllers using the following command:
NOTE: After restarting the other controller, the EMU alarm will sound. To stop it,
restart this controller.
RESTART OTHER_CONTROLLER
RESTART THIS_CONTROLLER
10. Set the time on the controller, which provides a baseline for replacing the
external battery, using the following command:
SET THIS_CONTROLLER TIME=DD-MMM-YYYY:HH:MM:SS
NOTE: All values are numbers, except for MMM, which uses the first three
letters of the month. When setting hours, minutes, and seconds—HH, MM,
and SS—you must use 24-hour time.
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2–20 Configuring an HSZ80 Array Controller
11. Set up the battery discharge timer:
a. Start Frutil using the following command:
RUN FRUTIL
Frutil displays the following:
Do you intend to replace this controller’s cache battery? Y/N
b. Enter Y(es).
Frutil displays a three-step procedure and prompts you to press return.
c. Press return.
12. Enter any other optional CLI commands for your configuration.
13. Display details about the controller you configured. Use the following command:
SHOW THIS_CONTROLLER FULL
IMPORTANT: If you are using a PC or terminal with the maintenance port cable,
you must connect the SCSI bus cables in the desired configuration. See “Con-
tion about configurations.
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2–21
Connecting in Multiple-Bus Failover Mode to
the Host
dual-redundant controllers to the host:
2. Ensure the host and adapter are also configured. See the host user’s guide for
details.
3. Connect a trilink connector on host Port 1 or host Port 2 for one controller:
a. Connect the host bus cable onto one end of each trilink connector.
b. For a BA370 enclosure residing in an SW600 cabinet, snap the ferrite bead
on the bus cable within one inch of the controller.
4. Connect another trilink connector on host Port 1 or host Port 2 for a second
controller:
a. Connect the host bus cable onto one end of each trilink connector.
b. For a BA370 enclosure residing in an SW600 cabinet, snap the ferrite bead
on the bus cable within one inch of the controller.
5. Connect a terminator on the end of each trilink connector:
a. If the controller is at the end of the host bus, connect a terminator to the other
connector on the front of the trilink connector.
b. Otherwise, connect another host bus cable that continues to the next device
on the bus. Be sure to install a terminator at the end of the bus.
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2–22 Configuring an HSZ80 Array Controller
6. Repeat steps 3, 4, and 5 for connecting a third and a fourth host bus.
IMPORTANT: The HSZ80 Array Controller has dual-host ports, Port 1 and Port 2,
which may be configured at the same time. The configuration in Figure 2–3
shows a two-bus connection going into host Port 1. However, you may also con-
figure host Port 2 the same way, depending on your system requirements. For a
two-bus connection, the bus connections can occur on either host port on two
controllers. A third and fourth bus connection can also be made if three or four
buses are desired.
Optional Steps
You can perform these steps at any time during configuring.
Change the CLI prompt
Enter a 1- to 16-character string as the new prompt. For example, you could use the
prompt to indicate the controller’s name, such as “HSZ>.”
Type the following command:
SET THIS_CONTROLLER PROMPT = “new prompt”
If you are configuring dual-redundant controllers, also change the CLI prompt on the
other controller. Use the following command:
SET OTHER_CONTROLLER PROMPT = “new prompt”
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2–23
Set the maximum data-transfer rate
Use the following command:
SET THIS_CONTROLLER PORT_1_TRANSFER_RATE_REQUESTED = speed
or
SET THIS_CONTROLLER PORT_2_TRANSFER_RATE_REQUESTED = speed
If you are configuring dual-redundant controllers, also set the transfer rate for the
other controller. However, if you are running more than one HSZ80 SCSI host port on
the same bus, you must set their transfer rates to be identical. Use the following
command:
SET OTHER CONTROLLER PORT_1_TRANSFER_RATE_REQUESTED=speed
or
SET OTHER CONTROLLER PORT_2_TRANSFER_RATE_REQUESTED=speed
rate.
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2–24 Configuring an HSZ80 Array Controller
UPS Support
NOTE: By default, the controller expects to use an external cache battery (ECB) as
backup power to the cache module. You can instead choose to use an
uninterruptable power supply (UPS) to provide backup power in the event of a
primary power failure.
Use the following command:
SET THIS_CONTROLLER CACHE_UPS
If you are configuring dual-redundant controllers, also indicate that the other
controller’s power is supported by a UPS. Use the following command:
SET OTHER_CONTROLLER CACHE_UPS
The other controller inherits the cache UPS setting for this controller.
UPS.
policies.
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2–25
Setting the PVA Module ID Switch
The Power, Verification, and Addressing (PVA) module provides unique addresses to
extended subsystems. Each BA370 rack-mountable enclosure in an extended
subsystem must have its own PVA ID. Use PVA ID 0 for the enclosure that contains
illustrates the PVA settings in an extended subsystem.
See the documentation that accompanied your enclosure for more details about the
PVA and its settings.
First Expansion
Enclosure
Master
Enclosure
Second Expansion
Enclosure
SCSI Target ID = 11
SCSI Target ID = 10
SCSI Target ID = 9
SCSI Target ID = 8
SCSI Target ID = 3
SCSI Target ID = 2
SCSI Target ID = 1
SCSI Target ID = 0
SCSI Target ID = 15
SCSI Target ID = 14
SCSI Target ID = 13
SCSI Target ID = 12
EMU
PVA 2
EMU
Controller A
Controller B
Cache A Cache B
PVA 0
EMU
PVA 3
NOTE: SCSI target IDs 4 and 5 are reserved. IDs 6 and 7 are used by the controllers.
CXO5806B
Figure 2–4. SCSI Target ID Numbers on the Controller Device Bus and PVA Settings in an
Extended Subsystem
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2–26 Configuring an HSZ80 Array Controller
Establishing a Local Connection to the
Controller
You can communicate with a controller locally or remotely. Use a local connection to
configure the controller for the first time. Use a remote connection to your host
system for all subsequent configuration tasks. See the Quick Setup Guide that came
with your platform kit for details.
a PC or terminal to the controller so that you can troubleshoot and configure it. This
port accepts a standard RS-232 jack from any EIA-423 compatible terminal or a PC
with a terminal-emulation program. The maintenance port supports serial
communications with default values of 9600 baud using 8 data bits, 1 stop bit, and no
parity.
the end for a PC connection. If you need a terminal connection or a 25-pin
connection, optional cabling is available and can be ordered. See Figure 1–5 on
page 1–12 for an illustration.
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2–27
Maintenance
port cable
1
2
3
4
5
6
Maintenance
port
CXO6484A
Figure 2–5. PC/Terminal to Maintenance Port Connection
CAUTION: The maintenance port described in this book generates,
uses, and can radiate radio-frequency energy through cables that are
connected to it. This energy may interfere with radio and television
reception. Disconnect all maintenance port cables when you are not
communicating with the controller.
Follow these steps to establish a local connection for setting the controller’s initial
configuration:
1. Turn off the PC or terminal and connect it to the controller as shown in
a. Plug the maintenance port cable into the maintenance port for a PC
connection.
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2–28 Configuring an HSZ80 Array Controller
b. If you are using a terminal instead of a PC, you can order a cable from the
local field service office as shown in figure 1-5.
2. Turn on the PC or terminal.
3. Configure the PC or terminal for 9600 baud, 8 data bits, 1 stop bit, and no parity.
The default baud rate for the HSZ80 Array Controller is 9600, which makes
communication between the two compatible.
4. Press the Enter or Return key. A copyright notice and the CLI prompt appear,
indicating that you established a local connection with the controller.
5. Optional: Increase the data transfer rate to 19200 baud:
a. Set the controller to 19200 baud with one of the following commands:
SET THIS_CONTROLLER TERMINAL sPEED=19200
SET OTHER_CONTROLLER TERMINAL sPEED=19200
b. Configure the PC or terminal for 19200 baud.
When you are entering CLI commands in a dual-redundant controller configuration,
remember that the controller to which you’re connected is this controller and the other
controller is the “other controller” as shown in Figure 2–6.
Other controller
This controller
CXO5716A
Figure 2–6. “This Controller” and “Other Controller”
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2–29
Selecting a Failover Mode
In selecting a failover mode, you have two choices: transparent failover or multiple-
bus failover. If you want the failover to occur without any intervention from the host,
then transparent failover is best suited. The devices attached to the failed controller
fail over to the surviving controller. With multiple-bus failover, the host intervenes
during failover and sends commands to the companion controller.
Using Transparent Failover Mode
Transparent failover is a dual-redundant controller configuration in which two
controllers are connected to the same host and device buses. Use this configuration if
you want to use two controllers to service the entire group of storagesets, single-disk
units, and other storage devices. Because both controllers service the same storage
units, either controller can continue to service all of the units if its companion
controller fails.
Distribute the I/O load between the two controllers in a transparent failover
configuration using the following commands to specify which controller handles
which targets and units:
SET THIS_CONTROLLER PORT_1_PREFERRED_ID = (n,n)
or
SET THIS_CONTROLLER PORT_2_PREFERRED_ID = (n,n)
Keep the following tips in mind if you configure controllers for transparent failover:
■
■
Set your controllers for transparent failover before configuring devices. By doing
this, devices, storagesets, and units added to one controller’s configuration are
automatically added to the other controller’s configuration.
If you decide to configure your devices before setting the controllers for
transparent failover, make sure you know which controller has the good
configuration information before specifying SET FAILOVER COPY command.
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2–30 Configuring an HSZ80 Array Controller
■
For better subsystem performance, balance your assignment of target ID numbers
across your dual-redundant pair of controllers. For example, if you are presenting
four targets to the host, prefer two to one controller and two to the other
controller.
■
■
Balance your assignment of devices. For example, in an 18-device subsystem,
place 3 devices on each of the 6 ports, rather than placing 6 devices on each of 3
ports.
The controller to which you copy configuration information restarts after you
enter the SET FAILOVER command.
Using Multiple-Bus Failover Mode
Multiple-bus (or host-assisted) failover is a dual-redundant controller configuration in
which each controller has its own connection to the host. Thus, if one of the host
connections to a controller fails, the host can cause units that became inaccessible to
failover to the remaining viable connection. Because both controllers service the same
storage units, either controller can continue to service all of the units if the other
controller fails.
Keep the following points in mind when configuring controllers for multiple-bus
failover:
■
■
The host distributes the I/O load between the controllers.
The host must have two SCSI adapters as well as operating-system software to
support the multiple-bus failover, dual-redundant controller configuration.
■
■
■
SCSI target ID number and LUN configurations on each controller must be
identical.
Mount both controllers in the same BA370 rack-mountable enclosure and follow
the steps in “Configuring an HSZ80 Array Controller,” page 2–3.
Partitioning is not supported.
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2–31
Enabling Mirrored Write-Back Cache
Before configuring dual-redundant controllers and enabling mirroring, ensure the
following conditions are met:
■
Both controllers support the same size cache: 64 MB, 128 MB, 256 MB, or
512 MB.
■
■
Diagnostics indicates that both caches are good.
If you have not enabled the CACHE_UPS switch, then both caches have a battery
present. A battery does not have to be present for either cache if you enable the
CACHE_UPS switch.
■
■
No unit errors are outstanding, for example, lost data or data that cannot be
written to devices.
Both controllers are started and configured in failover mode.
Selecting a Cache Mode
Before selecting a cache mode, you should understand the caching techniques
supported by the cache module.
The cache module supports read, read-ahead, write-through, and write-back caching
techniques that you can enable separately for each storage unit in a subsystem. For
example, you can enable only read and write-through caching for some units while
enabling only write-back caching for other units.
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2–32 Configuring an HSZ80 Array Controller
Fault-Tolerance
The cache module supports the following features to protect the availability of its
unwritten (write-back) data:
■
■
Nonvolatile memory (required for write-back caching)
Dynamic caching techniques (automatic)
For details about these features, see “Fault-Tolerance for Write-Back Caching,”
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2–33
Setting SCSI Target ID Numbers
In a subsystem, every SCSI device is assigned its own SCSI ID number. Setting an ID
number, though, really depends on which SCSI bus you are talking about—the host
SCSI bus or the controller device bus, which are both shown in Figure 2–7.
Controller
device bus
Host
Controller A
Controller B
Host SCSI bus
Figure 2–7. Host SCSI Bus and Controller Device Bus
CXO6320A
Host SCSI Bus
Each BA370 rack-mountable enclosure in a configuration supports a range of SCSI
target ID numbers. Each controller can access the target ID numbers that you specify
with either of the following commands:
SET THIS_CONTROLLER PORT_1_ID = (n,n)
or
SET THIS_CONTROLLER PORT_2_ID = (n,n)
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2–34 Configuring an HSZ80 Array Controller
You can view IDs on this controller with the following command:
SHOW THIS_CONTROLLER FULL
You can view IDs on the other controller with the following command:
SHOW OTHER_CONTROLLER FULL
The valid target ID numbers are 0–15, with one ID reserved for each host controller
on the host bus. When both ports are in use, the 16 target ID numbers are shared
across ports. Once a target ID has been set on one port, that same target may not be
used on the other port.
Using more than one target ID number allows the controller to present more units to
the host. Enclose multiple ID numbers in parentheses and separate each by a comma:
(n1, n2, n3, . . .)
Device SCSI Bus
Device addressing allows the controller to identify the location of devices based on a
port-target-LUN (PTL) number described in “Device PTL Addressing Convention
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2–35
Using Preferred ID Numbers
Use preferred SCSI target ID numbers to balance the I/O load of storage units among
controllers and thereby improve the throughput for the dual-redundant pair of
controllers.
You can specify a total of 15 SCSI target ID numbers across both host ports or you
can specify 15 SCSI target ID numbers to either Port 1 or Port 2. Use the ID numbers
you defined with the SET THIS_CONTROLLER PORT_1_ID (or PORT_2_ID)
command.
Enclose multiple IDs in parentheses and separate them by a comma.
In a transparent failover configuration, the other controller automatically inherits the
newly defined ID numbers. During normal operation, each controller services only
those storage units that are associated with its preferred ID numbers.
You can also use the PREFERRED_ID switch to effectively make the other controller
a hot standby by declaring that it has no preferred SCSI target ID numbers. Use the
following commands:
SET OTHER_CONTROLLER NOPORT_1_PREFERRED_ID = (n,n)
or
SET OTHER_CONTROLLER NOPORT_2_PREFERRED_ID = (n,n)
By declaring that it has no preferred IDs, this controller will not respond to any SCSI
target ID numbers on that port’s host SCSI bus. Instead, the other controller will
process all I/O during normal operation.
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3–1
Chapter 3
Creating Storagesets
This chapter provides information to help you create storagesets for your subsystem.
The procedure in this chapter takes you through the planning steps and procedures for
creating storagesets.
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3–2 Creating Storagesets
Introduction
Storagesets are implementations of RAID technology, also known as a Redundant
Array of Independent Disks. Every storageset shares one important feature: each one
looks like a single storage unit to the host, regardless of the number of drives it uses.
You can create storage units by combining disk drives into storagesets, such as
stripesets, RAIDsets, and mirrorsets, or by presenting them to the host as single-disk
units, as shown in Figure 3–1.
■
■
■
■
Stripesets (RAID 0) combine disk drives in serial to increase transfer or request
rates.
Mirrorsets (RAID 1) combine disk drives in parallel to provide a highly-reliable
storage unit.
RAIDsets (RAID 3/5) combine disk drives in serial—as do stripesets—but also
store parity data to ensure high reliability.
Striped mirrorsets (RAID 0+1) combine mirrorsets in serial and parallel to
provide the highest throughput and availability of any storage unit.
For a complete discussion of RAID, refer to The RAIDBOOK—A Source Book for
Disk Array Technology.
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3–3
Unit
Unit
Mirrorset
Partitioned
storageset
Unit
Stripeset
RAIDset
Unit
Striped
mirrorset
Disk drives
Unit
Partitioned
disk drive
Unit
CXO5368B
Figure 3–1. Units Created from Storagesets, Partitions, and Drives
Table 3–1 Controller Limitations for RAIDsets
RAIDset Type
Limit
Total number of RAID5
20
30
45
Total number of RAID5 + RAID1
Total number of RAID5 + RAID1 + RAID0
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3–4 Creating Storagesets
Planning and Configuring Storagesets
Use this procedure to plan and configure the storagesets for your subsystem. Use the
references in each step to locate details about specific commands and concepts.
Profile,” page 3–5 for suggestions about creating a profile.
Requirements,” page 3–7 to help you.
a Storageset Type,” page 3–8 for a comparison and description of each type of
storageset.
page 3–34 for details about selecting names.
IDs,” page 3–30 for information about how to assign unit numbers to storagesets.
Storageset Map,” page 3–34 for suggestions about creating a storageset map.
Partitions,” page 3–40 for information about partitions and how to plan for them.
8. Choose the switches that you will want to set for your storagesets and devices.
description of the switches you can select for storagesets.
9. Configure the storagesets you have planned using one of these methods:
❏
Use StorageWorks Command Console (SWCC) to set up and manage RAID
storage subsystems. See the SWCC Getting Started Guide for details about using
SWCC to configure your storagesets.
❏
Use CLI commands. This method allows you flexibility in defining and nam-
configuring each type of storageset using CLI commands.
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3–5
Creating a Storageset and Device Profile
Creating a profile for your storagesets and devices can help simplify the configuration
process. This chapter helps you to choose the storagesets that best suit your needs and
helps you to make informed decisions about the switches that you can enable for each
storageset or storage device that you configure in your subsystem.
Familiarize yourself with the kinds of information contained in a storageset profile, as
shown in Figure 3–3.
Appendix contains blank profiles that you can copy and use to record the details for
your storagesets. Use the information in this chapter to help you make decisions when
creating storageset profiles.
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3–6 Creating Storagesets
Type of Storageset
___ Mirrorset
✔
RAIDset
___ Stripeset
___ Striped Mirrorset
Storageset Name.........accept default values
Disk Drives...................DISK10300, DISK20300, DISK30300
Unit Number.................accept default
Partitions
Unit #
Unit #
Unit #
Unit #
Unit #
Unit #
Unit #
Unit #
%
%
%
%
%
%
%
%
RAIDset Switches
Reconstruction Policy
Reduced Membership
Replacement Policy
✔
Normal (default)
✔
No (default)
✔
Best performance
(default)
____ Fast
____ Yes, missing:
____ Best fit
____ None
Mirrorset Switches
Replacement Policy
___ Best performance (default)
___ Best fit
Copy Policy
___ Normal (default)
___ Fast
Read Source
___ Least busy (default)
___ Round robin
___ None
___ Disk drive:
Initialize Switches
Chunk size
Save Configuration
____ No (default)
Yes
Metadata
✔
Automatic (default)
✔
Destroy (default)
____ 64 blocks
____ 128 blocks
____ 256 blocks
____ Other:
✔
____ Retain
Unit Switches
Read Cache
Read-Ahead Cache
Yes (default)
____ No
Maximum Cache Transfer
32 blocks (default)
____ Other:
Error Mode*
___ Normal
___ Failsafe
*Valid only for
✔
Yes (default)
✔
✔
____ No
mirrorsets with DT
support enabled
Write Cache
____ Yes (default)
No
Write Protection
No (default)
____ Yes
Availability
Run (default)
____ NoRun
✔
✔
✔
Figure 3–2. Storageset Profile
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3–7
Determining Storage Requirements
Start the planning process by determining your storage requirements. Here are a few
of the questions you should ask yourself:
■
What applications or user groups will access the subsystem? How much capacity
do they need?
■
What are the I/O requirements? If an application is data-transfer intensive, what
is the required transfer rate? If it is I/O-request intensive, what is the required
response time? What is the read/write ratio for a typical request?
■
■
Are most I/O requests directed to a small percentage of the disk drives? Do you
want to keep it that way or balance the I/O load?
Do you store mission-critical data? Is availability the highest priority or would
standard backup procedures suffice?
storagesets you should create to satisfy your organization’s requirements.
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3–8 Creating Storagesets
Choosing a Storageset Type
Different applications may have different storage requirements, so you will probably
want to configure more than one kind of storageset in your subsystem.
All of the storagesets described in this book implement RAID technology.
Consequently, they all share one important feature: each storageset, whether it
contains two disk drives or ten, looks like one large, virtual disk drive to the host.
Table 3–2 compares different kinds of storagesets to help you determine which ones
satisfy your requirements.
Table 3–2 A Comparison of Different Kinds of Storagesets
Storageset Type
Relative
Availability
Request Rate
(Read/Write) I/O per
second
Transfer Rate (Read/
Write) MB per
second
Applications
Array of disk
drives (JBOD)
Stripeset
Equivalent to a
single disk drive
Proportionate to
number of disk
Identical to single
disk drive
Identical to single
disk drive
Excellent if used
with large chunk
Excellent if used
with small chunk
size
High performance for
noncritical data
(RAID 0)
drives; worse than size
single disk drive
Mirrorset
(RAID1)
Excellent
Good/Fair
Good/Fair
Good/Poor
System drives; critical
files
RAIDset
Excellent
Excellent/Fair
High request rates,
read-intensive, data
lookup
(RAID 3/5)
Striped Mirrorset Excellent
(RAID 0+1)
Excellent if used
with large chunk
size
Excellent if used
with small chunk
size
Any critical response-
time application
For a comprehensive discussion of RAID, refer to The RAIDBOOK—A Source Book
for Disk Array Technology.
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3–9
Using Stripesets to Increase I/O Performance
Stripesets enhance I/O performance by spreading the data across multiple disk drives.
Large I/O requests are broken into small segments called “chunks.” These chunks are
then “striped” across the disk drives in the storageset, thereby allowing several disk
drives to participate in one large I/O request or handle several I/O requests
simultaneously.
For example, in a three-member stripeset that contains disk drives 10000, 20000, and
30000, the first chunk of an I/O request is written to 10000, the second to 20000, the
third to 30000, the fourth to 10000, and so forth until all of the data has been written
to the drives.
6
1
5
2
4
3
2
3
Chunk
1
4
2
3
6
5
CXO5507A
Figure 3–3. Striping Lets Several Disk Drives Participate in Each I/O Request
The relationship between the chunk size and the average request size determines if
striping maximizes the request rate or the data-transfer rate. You can set the chunk
information about setting the chunk size.
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3–10 Creating Storagesets
A major benefit of striping is that it balances the I/O load across all of the disk drives
in the storageset. This can increase the subsystem’s performance by eliminating the
hot spots, or high localities of reference, that occur when frequently accessed data
becomes concentrated on a single disk drive.
Considerations for Planning a Stripeset
Keep the following points in mind as you plan your stripesets:
■
A controller can support up to 45 storagesets, consisting of stripesets, mirrorsets
■
Reporting methods and size limitations prevent certain operating systems from
working with large stripesets. See the HSZ80 Array Controller ACS Version 8.3
Release Notes or the Quick Setup Guide that came with your software platform
kit for details about these restrictions.
■
A storageset should only contain disk drives of the same capacity. The controller
limits the capacity of each member to the capacity of the smallest member in the
storageset when the storagest is initialized (the base member size). Thus, if you
combine 9 GB disk drives with 4 GB disk drives in the same storageset, the 4 GB
disk drive will be the base member size and you will waste 5 GB of capacity on
each 9 GB member.
If you need high performance and high availability, consider using a RAIDset,
striped mirrorset, or a host-based shadow of a stripeset.
NOTE: A striped mirrorset cannot be created if the mirrorsets are enabled for
DT_SUPPORT.
■
Striping does not protect against data loss. In fact, because the failure of one
member is equivalent to the failure of the entire stripeset, the likelihood of losing
data is higher for a stripeset than for a single disk drive.
For example, if the mean time between failures (MTBF) for a single disk is one
hour, then the MTBF for a stripeset that comprises N such disks is l/N hours. As
another example, if a single disk’s MTBF is 150,000 hours (about 17 years), a
stripeset comprising four of these disks would only have an MTBF of slightly
more than four years.
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3–11
For this reason, you should avoid using a stripeset to store critical data. Stripesets
are more suitable for storing data that can be reproduced easily or whose loss
does not prevent the system from supporting its critical mission.
■
Evenly distribute the members across the device ports to balance load and
provide multiple paths as shown in the Figure 3–4.
Device ports
6
5
4
3
2
1
Backplane
4
0
3
0
0
3
2
3
0
2
0
0
2
0
1
0
0
1
0
1
0
0
0
0
1
2
3
4
5
6
CXO6235A
Figure 3–4. Distribute Members across Ports
■
■
Stripesets contain between 2 and 24 members.
Stripesets are well-suited for the following applications:
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3–12 Creating Storagesets
❏
❏
Storing program image libraries or run-time libraries for rapid loading
Storing large tables or other structures of read-only data for rapid application
access
❏
Collecting data from external sources at very high data transfer rates
■
Stripesets are not well-suited for the following applications:
❏
A storage solution for data that cannot be easily reproduced or for data that
must be available for system operation
❏
data
❏
Applications that make requests for small amounts of sequentially-located
Applications that make synchronous random requests for small amounts of
data
By spreading the traffic evenly across the buses, you will ensure that no bus handles
the majority of data to the storageset.
Using Mirrorsets to Ensure Availability
primary disk drive, there is at least one mirror disk drive. Thus, if a primary disk drive
fails, its mirror drive immediately provides an exact copy of the data.
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3–13
1
1
A
A'
2
2
Mirror drives contain
copy of data
B
B'
3
3
C
C'
CXO5511A
Figure 3–5. Mirrorsets Maintain Two Copies of the Same Data
Considerations for Planning a Mirrorset
Keep these points in mind as you plan your mirrorsets:
■
A controller can support up to 30 storagesets, consisting of mirrorsets and
RAIDsets. Mirrorsets that are members of a stripeset count against this limitation
■
Data availability with a mirrorset is excellent but costly—you need twice as
many disk drives to satisfy a given capacity requirement. If availability is your
top priority, consider using redundant power supplies and dual-redundant
controllers.
■
You can configure up to 30 mirrorsets per controller or pair of dual-redundant
controllers. Each mirrorset contains a minimum of one member and a maximum
of six members.
■
■
A write-back cache module is required for mirrorsets, but write-back cache need
not be enabled for the mirrorset to function properly.
Both write-back cache modules must be the same size.
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3–14 Creating Storagesets
■
If you are using more than one mirrorset in your subsystem, you should put the
first member of a mirrorset is the first disk drive you add.
When a controller receives a request to read data from a mirrorset, it typically
accesses the first member of the mirrorset. Read access depends upon the read
in your subsystem and their first members are on the same bus, that bus will be
forced to handle the majority of read traffic to your mirrorsets. When a controller
receives a request to write data to a mirrorset, it accesses and writes to all mem-
bers.
First member
First member
of Mirrorset 2
of Mirrorset 1
CXO5506A
Figure 3–6. First Mirrorset Members on Different Buses
To avoid an I/O bottleneck on one bus, you can simply put the first members on
different buses. Additionally, you can set the read-source switch to Round Robin.
See “Read Source,” page 3–46, for more information about this switch.
■
■
Place mirrorsets and RAIDsets on different ports to minimize risk in the event of
a single port bus failure.
Mirrorset units are set to WRITEBACK_CACHE by default, which increases a
unit’s performance.
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3–15
■
A storageset should only contain disk drives of the same capacity. The controller
limits the capacity of each member to the capacity of the smallest member in the
storageset when the storagest is initialized (the base member size). Thus, if you
combine 9 GB disk drives with 4 GB disk drives in the same storageset, the 4-GB
disk drive will be the base member size and you will waste 5 GB of capacity on
each 9-GB member.
■
■
Evenly distribute the members across the device ports to balance load and
provide multiple paths as shown in Figure 3–4 on page 3–11.
Mirrorsets are well-suited for the following:
❏
❏
❏
Any data for which availability requirements are extremely high
Data to which high-performance access is required
Applications for which cost is a secondary issue
■
Mirrorsets are not well-suited for the following applications:
❏
Write-intensive applications (worse than JBODs, better than RAID5 RAID-
sets)
❏
Applications for which cost is a primary issue
Using RAIDsets to Increase Performance and
Availability
RAIDsets are enhanced stripesets—they use striping to increase I/O performance and
RAIDsets and parity data.
Just as with stripesets, the I/O requests are broken into smaller “chunks” and striped
across the disk drives until the request is read or written. But, in addition to the I/O
data, chunks of parity data—derived mathematically from the I/O data—are also
striped across the disk drives. This parity data enables the controller to reconstruct the
I/O data if a disk drive fails. Thus, it becomes possible to lose a disk drive without
losing access to the data it contained. (Data could be lost if a second disk drive fails
before the controller replaces and reconstructs the first failed disk drive.)
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3–16 Creating Storagesets
For example, in a three-member RAIDset that contains disk drives 10000, 20000, and
30000, the first chunk of an I/O request is written to 10000, the second to 20000, then
parity is calculated and written to 30000; the third chunk is written to 30000, the
fourth to 10000, and so on until all of the data is saved.
The relationship between the chunk size and the average request size determines if
striping maximizes the request rate or the data-transfer rate. You can set the chunk
information about setting the chunk size.
I/O Request
Chunk 1
4
2
3
1
2
3
Parity
for
1 & 2
3
2
Parity
for
3 & 4
Chunk 1
4
CXO5509A
Figure 3–7. Parity Ensures Availability; Striping Provides Good Read Performance
Considerations for Planning a RAIDset
Keep these points in mind as you plan your RAIDsets:
■
A controller can support up to 20 storagesets, consisting of RAIDsets (see
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3–17
■
■
Reporting methods and size limitations prevent certain operating systems from
working with large RAIDsets. See the HSZ80 Array Controller ACS Version 8.3
Release Notes or the Quick Setup Guide that came with your platform kit for
details about these restrictions.
A cache module is required for RAIDsets, but write-back cache need not be
enabled for the RAIDset to function properly.
■
■
■
Both cache modules must be the same size.
A RAIDset must include at least 3 disk drives, but no more than 14.
Evenly distribute the members across the device ports to balance load and
provide multiple paths as shown in Figure 3–4 on page 3–11.
■
A storageset should only contain disk drives of the same capacity. The controller
limits the capacity of each member to the capacity of the smallest member in the
storageset when the storageset is initialized (the base member size). Thus, if you
combine 9 GB disk drives with 4 GB disk drives in the same storageset, the 4 GB
disk drive will be the base member size and you will waste 5 GB of capacity on
each 9 GB member.
■
■
■
RAIDset units are set to WRITEBACK_CACHE by default which increases a
unit’s performance.
RAIDset and mirrorset members should be placed on different ports to minimize
risk in the event of a single port bus failure.
RAIDsets are particularly well-suited for the following:
❏
❏
❏
❏
Small to medium I/O requests
Applications requiring high availability
High read request rates
Inquiry-type transaction processing
■
RAIDsets are not particularly well-suited for the following:
❏
❏
❏
❏
❏
Write-intensive applications
Applications that require high data transfer capacity
High-speed data collection
Database applications in which fields are continually updated
Transaction processing
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3–18 Creating Storagesets
Using Striped Mirrorsets for Highest
Performance and Availability
Striped mirrorsets are simply stripesets whose members are mirrorsets. Consequently,
this kind of storageset combines the performance of striping with the reliability of
mirroring. The result is a storageset with very high I/O performance and high data
Stripeset
Mirrorset1
Mirrorset2
Mirrorset3
2
3
A
B
C
2
3
A'
B'
C'
CXO5508A
Figure 3–8. Striping and Mirroring in the Same Storageset
The failure of a single disk drive has no effect on this storageset’s ability to deliver
data to the host and, under normal circumstances, it has very little effect on
performance. Because striped mirrorsets do not require any more disk drives than
mirrorsets, this storageset is an excellent choice for data that warrants mirroring.
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3–19
Considerations for Planning a Striped Mirrorset
Plan the mirrorset members, then plan the stripeset that will contain them. Review the
There are the following limitations for a striped mirrorset:
■
■
■
A maximum of 24 mirrorsets in a stripeset
A maximum of 6 disks in each mirrorset
A maximum of 48 disks in the entire striped mirrorset
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3–20 Creating Storagesets
Cloning Data for Backup
Use the CLONE utility to duplicate the data on any unpartitioned single-disk unit,
stripeset, mirrorset, or striped mirrorset in preparation for backup. When the cloning
operation is done, you can back up the clones rather than the storageset or single-disk
unit, which can continue to service its I/O load. When you are cloning a mirrorset,
CLONE does not need to create a temporary mirrorset. Instead, it adds a temporary
member to the mirrorset and copies the data onto this new member.
The CLONE utility creates a temporary, two-member mirrorset for each member in a
single-disk unit or stripeset. Each temporary mirrorset contains one disk drive from
the unit you are cloning and one disk drive onto which CLONE copies the data.
During the copy operation, the unit remains online and active so the clones contain
the most up-to-date data.
After the CLONE utility copies the data from the members to the clones, it restores
the unit to its original configuration and creates a clone unit you can backup. The
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3–21
Unit
Unit
Temporary mirrorset
Disk10300
New member
Disk10300
Unit
Temporary mirrorset
Unit
New member
Disk10300
Disk10300
Clone Unit
Clone of Disk10300
CXO5510A
Figure 3–9. CLONE Steps for Duplicating Unit Members
Use the following steps to clone a single-disk unit, stripeset, or mirrorset:
1. Establish a connection to the controller that accesses the unit you want to clone.
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3–22 Creating Storagesets
2. Start CLONE using the following syntax:
RUN CLONE
3. When prompted, enter the unit number of the unit you want to clone.
4. When prompted, enter a unit number for the clone unit that CLONE will create.
5. When prompted, indicate how you would like the clone unit to be brought online:
either automatically or only after your approval.
6. When prompted, enter the disk drives you want to use for the clone units.
7. Back up the clone unit.
Example
This example shows the commands you would use to clone storage unit D204. The
clone command terminates after it creates storage unit D205, a clone or copy of D204.
RUN CLONE
CLONE LOCAL PROGRAM INVOKED
UNITS AVAILABLE FOR CLONING:101
204
Enter unit to clone ? 204
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3–23
CLONE WILL CREATE A NEW UNIT WHICH IS A COPY OF UNIT 204.
Enter the unit number which you want assigned to the new unit ? 205
THE NEW UNIT MAY BE ADDED USING ONE OF THE FOLLOWING METHODS:
1. CLONE WILL PAUSE AFTER ALL MEMBERS HAVE BEEN COPIED. THE USER
MUST THEN PRESS RETURN TO CAUSE THE NEW UNIT TO BE ADDED.
2. AFTER ALL MEMBERS HAVE BEEN COPIED, THE UNIT WILL BE ADDED
AUTOMATICALLY.
Under which above method should the new unit be added[]?1
DEVICES AVAILABLE FOR CLONE TARGETS:
DISK20200 (SIZE=832317)
DISK20400 (SIZE=832317)
DISK30100 (SIZE=832317)
Use available device DISK20200(size=832317) for member
DISK10300(size=832317) (y,n) [y] ? y
MIRROR DISK10300 C_MA
SET C_MA NOPOLICY
SET C_MA MEMBERS=2
SET C_MA REPLACE=DISK220
DEVICES AVAILABLE FOR CLONE TARGETS:
DISK20400 (SIZE=832317)
DISK30100 (SIZE=832317)
Use available device DISK20400(size=832317) for member
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DISK20000(size=832317) (y,n) [y] ? y
MIRROR DISK20000 C_MB
SET C_MB NOPOLICY
SET C_MB MEMBERS=2
SET C_MB REPLACE=DISK20400
COPY IN PROGRESS FOR EACH NEW MEMBER. PLEASE BE PATIENT...
.
.
.
COPY FROM DISK10300 TO DISK20200 IS 100% COMPLETE
COPY FROM DISK10000 TO DISK20400 IS 100% COMPLETE
Press RETURN when you want the new unit to be created
REDUCE DISK20200 DISK20400
UNMIRROR DISK10300
UNMIRROR DISK20000
ADD MIRRORSET C_MA
ADD MIRRORSET C_MB
DISK20200
DISK20400
ADD STRIPESET C_ST1 C_MA C_MB
INIT C_ST1
NODESTROY CHUNK=128
ADD UNIT D205 C_ST1
D205 HAS BEEN CREATED. IT IS A CLONE OF D204.
CLONE - NORMAL TERMINATION
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3–25
Backing Up Your Subsystem Configuration
Your controller stores information about your subsystem configuration in its
nonvolatile memory. This information could be lost if the controller fails or when you
replace a module in your subsystem.
3–56, for more information.
You can avoid reconfiguring your subsystem manually by saving configuration
information on one or more of your subsystem disks using the INITIALIZE
SAVE_CONFIGURATION command. The controller updates the configuration
information saved to disk whenever it changes. If the controller fails or you replace a
module, you can easily restore your subsystem configuration from this information on
the disks. Storing the configuration information uses a small amount of space on each
device.
You do not need to store the configuration on all devices in the subsystem. You can
use the INITIALIZE command without the SAVE_CONFIGURATION switch for
any devices on which you do not want to save the configuration.
You cannot use the SAVE_CONFIGURATION switch on TRANSPORTABLE disks.
Saving Subsystem Configuration Information
to a Single Disk
You can choose to save your subsystem configuration information on a single disk.
Choose a disk on which to save the information by using the
SAVE_CONFIGURATION switch when you initialize the disk with the INITIALIZE
command. Use the following syntax:
INITIALIZE DISKnnnn SAVE_CONFIGURATION
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3–26 Creating Storagesets
Saving Subsystem Configuration Information
to Multiple Disks
You can save your subsystem configuration information to as many individual disks
as you would like, but you must initialize each using the SAVE_CONFIGURATION
switch. Use the following syntax for each:
INITIALIZE DISKnnnn SAVE_CONFIGURATION
Saving Subsystem Configuration Information
to a Storageset
You can save your subsystem configuration information to a storageset. The
configuration information is duplicated on every disk that is a member of the
storageset. Use the following syntax:
INITIALIZE storageset-name SAVE_CONFIGURATION
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3–27
Displaying the Status of the Save Configuration
Feature
You can use the SHOW THIS_CONTROLLER FULL command to find out if the
save configuration feature is active and which devices are being used to store the
configuration. The display includes a line that indicates status and how many devices
have copies of the configuration, as shown in the following example.
SHOW THIS_CONTROLLER FULL
Controller:
HSZ80 (C) DEC ZG07010098 SOFTWARE XXXX-0, HARDWARE 0000
NODE ID = XXXX-XXXX-XXXX-XXXX
ALLOCATION_CLASS = 0
SCSI_VERSION = SCSI-2
CONFIGURED FOR DUAL-REDUNDANCY WITH ZG06309900
IN DUAL-REDUNDANT CONFIGURATION
DEVICE PORT SCSI ADDRESS 7
TIME: NOT SET
Host port_1:
SCSI TARGET(S) (0,1)
PREFERRED TARGET(S) (0)
TRANSFER_RATE_REQUESTED = 20MHZ
HOST FUNCTIONALITY MODE FOR ID 0 = A
HOST FUNCTIONALITY MODE FOR ID 1 = D
Host port_2:
SCSI TARGET(S) (2,3)
PREFERRED TARGET(S) (3)
TRANSFER_RATE_REQUESTED = 20MHZ
HOST FUNCTIONALITY MODE = A
COMMAND CONSOLE LUN IS TARGET 2, LUN 5
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3–28 Creating Storagesets
Cache:
128 MEGABYTE WRITE CACHE, VERSION UNKNOWN
CACHE IS GOOD
UNFLUSHED DATA IN CACHE
CACHE_FLUSH_TIMER = DEFAULT (10 SECONDS)
Mirrored Cache:
NOT ENABLED
Battery:
FULLY CHARGED
EXPIRES: 08-MAY-2000
NOCACHE_UPS
Extended information:
TERMINAL SPEED 19200 BAUD, EIGHT BIT, NO PARITY, 1 STOP BIT
OPERATION CONTROL: 00000000 SECURITY STATE CODE: 36415
CONFIGURATION BACKUP ENABLED ON 2 DEVICES
The following example shows sample devices with the SAVE_CONFIGURATION
switch enabled:
$ SHOW DEVICES FULL
Name
------------------------------------------------------------------------------
DISK10000 disk S2
Type
Port Targ Lun
Used by
1
0
0
DEC RZ28M (C) DEC 1003
Switches:
NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 10.00 MHZ negotiated)
LOCAL
Size: 4108970 blocks
Configuration being backed up on this container
DISK30300 disk
3
3
0
S2
DEC RZ28M (C) DEC 1003
Switches:
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3–29
NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 10.00 MHZ negotiated)
LOCAL
Size: 4108970 blocks
Configuration being backed up on this container
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3–30 Creating Storagesets
Node IDs
A node ID is a unique 64-bit number assigned to a subsystem by the Institute of
Electrical and Electronics Engineers (IEEE) and set by Compaq manufacturing prior
to shipping. The node ID assigned to a subsystem never changes.
Each subsystem’s node ID ends in zero, for example, 5000-1FE1-FF0C-EE00. The
controller port IDs are derived from the node ID. In a subsystem with two controllers
(a dual-redundant configuration), the port ID of Port 1 for both controllers is the node
ID plus 1. In this example, both controllers’ Port 1 port ID would be 5000-1FE1-
FF0C-EE01. Similarly, both controllers would have the same port ID for Port 2, 5000-
1FE1-FF0C-EE02. The controllers automatically assign their port IDs.
Use the CLI command SHOW THIS_CONTROLLER to display the subsytem’s node
command and node IDs. When you enter the SHOW command, the subsystem node
ID displays as the REPORTED NODEID and will look like the following:
5000-1FE1-FF0C-EE00
Restoring Node IDs
When you remove a controller to replace it in a dual-redundant configuration, the
remaining controller remembers the subsystem node ID. When you install the
replacement controller, the remaining controller tells the new controller the node ID;
the replacement controller assumes the correct port IDs.
If you have a single-controller configuration, you must have a save configuration disk
if you want to be able to automatically restore the node ID in the event of a failure. In
this case, the controller could read the node ID from the save configuration disk.
If a situation occurs that requires you to restore the node ID, you can restore it using
the node ID and check sum printed on the sticker on the frame into which your
Commands,” for details about setting the node ID.
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3–31
CAUTION: Never set two subsystems to the same node ID, or data cor-
ruption will occur. Each subsystem has its own unique node ID. This
name is printed on the sticker affixed to the horizontal top edge of the
Controller Card Cage above the EMU/PVA into which your controller is
inserted. If you attempt to set the subsystem node ID to a name other
than the one that came with the subsystem, the data on the subsystem
will not be accessible.
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3–32 Creating Storagesets
Assigning Unit Numbers for Host Access to
Storagesets
The HSZ80 controller supports up to 15 SCSI target IDs, each of which can present
up to 32 logical unit numbers (LUNs) to a host, depending on the requirements of
your operating system. However, a maximum number of 128 storage units can be
presented to a host by a controller or a dual-redundant pair of controllers. One of these
is reserved for the StorageWorks Command Console (SWCC) interface, which leaves
127 available for use.
You will need to assign a unique unit number to each storageset, single disk unit, or
storage device that you want your host to know about in your subsystem. A unit
number is an alphanumeric name that identifies each storage unit in your subsystem,
such as D102 for a disk-based storage unit. The host uses these names to indicate the
source or target for every I/O request it sends to a controller.
Each unit number contains the following:
■
A letter that indicates the kind of devices in the storage unit: use D for disk drives
or P for passthrough devices such as tape drives, loaders, and libraries.
■
A first number that indicates which controller accesses the storage unit during
normal operation. Use one of the controller’s SCSI target IDs: 0 to 15.
By carefully choosing the first number, you can establish preferred paths for all
of your storage units in a dual-redundant configuration.
■
■
A second number that is always zero.
A third number that identifies the LUN for the device or storage unit (0 to 7).
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3–33
Omit the leading zeroes for storage units associated with the controller’s SCSI
target ID zero. For example, use D2 instead of D002 for a storageset that’s
additional unit numbering examples.
Table 3–3 Unit Numbering Examples
Unit Number
D401
Device Type
Target ID Number
LUN
Disk
Disk
Disk
4
1
7
5
D1207
D5
12
0
NOTE: The host communicates with a logical unit based on its LUN address. The
controller communicates with a device based on its Port-Target-LUN (PTL) address
CAUTION: Selecting SCSI-3 mode enables access to the Command
Console LUN (CCL) by all hosts. If the hosts access the CCL simulta-
neously, unpredictable consequences can occur. In cases where the CCL
can be accessed through multiple paths and LUNs, systems administra-
tors of each host must not attempt to access the CCL simultaneously.
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3–34 Creating Storagesets
Creating a Storageset Map
Configuring your subsystem will be easier if you know how the storagesets
correspond to the disk drives in your subsystem. You can see this relationship by
for a subsystem that contains two RAIDsets, two mirrorsets, and three disk drives in
the spareset. Each enclosure also has redundant power supplies.
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3–35
Figure 3–10. Storageset Map
To create a storageset map:
1. Copy the template from “Enclosure Template” in Appendix A.
2. Establish a local or remote connection to one of the controllers in your
subsystem.
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3–36 Creating Storagesets
3. Show the devices that are assigned to the controller. Use the following syntax:
SHOW DEVICES
4. Locate each device assigned to the controller and record its location on your copy
of the cabinet template. Use the following syntax:
LOCATE device_name
The LOCATE command causes the device’s LED to flash continuously.
5. Turn off the LED using the following syntax:
LOCATE CANCEL
The controller names each device based on its PTL location. See the next section for
for each controller or dual-redundant pair of controllers.
6. After you have mapped the devices to your cabinet template, create the storageset
map by circling each group of disk drives that you want to combine into a
storageset or put into the spareset. Label each group with a storageset name, for
example: RAID1 for a RAIDset; Mirr1 for a mirrorset; and Stripe1 for a stripeset.
Device PTL Addressing Convention within the
Controller
Your controller has six SCSI–2 device ports. Each device port supports one to four
devices or “targets” per port. Every device uses LUN 0, except remote devices in a
DT configuration, which can use nonzero LUN values.
The controller identifies the location of devices based on a PTL numbering scheme.
The controller uses the PTL address to locate devices.
■
■
P—Designates the controller’s SCSI device port number (1 through 6).
T—Designates the target ID number of the device. Valid target ID numbers for a
single-controller configuration and dual-redundant controller configuration are 0
through 15, excluding ID numbers 4 through 7. ID numbers 6 and 7 are used for
the controllers; ID numbers 4 and 5 are never used.
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3–37
NOTE: The controller operates with BA370 rack-mountable enclosures assigned
enclosure ID numbers 0, 2, and 3. You set these ID numbers using the PVA module.
Enclosure ID number 1, which houses devices at targets 4 through 7, is not
supported. Do not use device target ID numbers 4 through 7 in a storage
subsystem.
■
L—Designates the LUN of the device.
Place one space between the port number, target number, and the two-digit LUN
number when entering the PTL address. An example of a PTL address is shown in
1 02 00
LUN 00 (leading zeros are not required)
Target 02 (leading zeros are not required)
Port 1
Figure 3–11. PTL Naming Convention
Figure 3–12 shows the addresses for each device in an extended configuration. Use
devices in your configuration.
CAUTION: Selecting SCSI-3 mode enables LUN 0 of each target for the
Command Console LUN (CCL) by all hosts. If the hosts access the CCL
simultaneously, unpredictable consequences can occur. In cases where
the CCL can be accessed through multiple paths and LUNs, systems
administrators of each host must not attempt to access the CCL simulta-
neously.
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3–38 Creating Storagesets
Device port numbers
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
3
2
1
0
11
10
9
15
14
13
12
8
PVA 0
PVA 2
PVA 3
EMU
EMU
EMU
Controller A
Controller B
Cache A
Cache B
PTL location = Device port number = 3
Target number = 08
LUN = 00
CXO5851B
Figure 3–12. PTL Addressing in an Extended Configuration
LUN 00. This PTL location indicates the pathway the controller uses to address a disk
drive (device) in the subsystem. It also indicates the device name.
The controller uses the PTL location to name each device that you add to your
subsystem with StorageWorks Command Console or the CONFIG utility. (Factory-
installed devices are added with the CONFIG utility. Thus, their names derive from
their PTL locations.) For example, if the controller finds a disk in PTL 10200, it
names it DISK10200.
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3–39
When your controller receives an I/O request, it identifies the storageset unit number
for the request, then correlates the unit number to the storageset name. From the
storageset name, the controller locates the appropriate device for the I/O request. (For
example, the RAIDset “RAID1” might contain DISK10000, DISK20000, and
DISK30000.) The controller generates the read or write request to the appropriate
PTL addressing.
D100
Host addressable
unit number
RAID1
Storageset
name
Controller
PTL addresses
Disk 10000
Disk 20000
Disk 30000
CXO6186A
Figure 3–13. Locating Devices using PTLs
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3–40 Creating Storagesets
Planning Partitions
Use partitions to divide a storageset or disk drive into smaller pieces, which can be
of partitioning a single-disk unit.
Partition 1
Partition 2
Partition 3
CXO-5316A-MC
Figure 3–14. Partitioning a Single-Disk Unit
You can create up to eight partitions per disk drive, RAIDset, mirrorset, stripeset, or
striped mirrorset. Each partition has its own unit number so that the host can send I/O
requests to the partition just as it would to any unpartitioned storageset or device.
Because partitions are separately-addressable storage units, you can partition a single
storageset to service more than one user group or application.
Defining a Partition
Partitions are expressed as percentages of the storageset or single disk unit that
contains them. For mirrorsets and single disk units, the controller allocates the largest
whole number of blocks that are equal to or less than the percentage you specify. For
RAIDsets and stripesets, the controller allocates the largest whole number of stripes
that are less than or equal to the percentage you specify. For stripesets, the stripe size
= chunk size x number of members. For RAIDsets, the stripe size = chunk size x
(number of members-1).
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3–41
An unpartitioned storage unit has more capacity than a partition that uses the whole
unit because each partition requires five blocks of administrative metadata. Thus, a
single disk unit that contains one partition can store n-5 blocks of user or application
data.
See “Partitioning a Storageset or Disk Drive,” page 4–10, for information on
manually partitioning a storageset or single-disk unit.
Guidelines for Partitioning Storagesets and
Disk Drives
Keep these points in mind as you plan your partitions:
■
■
You can create up to eight partitions per storageset or disk drive.
All of the partitions on the same storageset or disk drive must be addressed
through the same target ID (host-addressable SCSI ID). Thus, if you set a
preferred controller for that ID, all the partitions in that storageset will inherit that
preferred controller. This ensures a transparent failover of devices should one of
the dual-redundant controllers fail.
■
■
Partitions cannot be combined into storagesets. For example, you cannot divide a
disk drive into three partitions, then combine those partitions into a RAIDset.
Partitioned storagesets cannot function in multiple bus failover dual-redundant
configurations. Because they are not supported, you must delete your partitions
before configuring the controllers for multiple bus failover.
■
■
Once you partition a container, you cannot unpartition it without reinitializing the
container.
Just as with storagesets, you do not have to assign unit numbers to partitions until
you are ready to use them.
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3–42 Creating Storagesets
Choosing Switches for Storagesets and
Devices
Depending upon the kind of storageset or device you are configuring, you can enable
the following options or “switches”:
■
■
■
■
RAIDset and mirrorset switches
Initialize switches
Unit switches
Device switches
Enabling Switches
If you use StorageWorks Command Console to configure the device or storageset,
you can set switches from the command console screens during the configuration
process. The Command Console automatically applies them to the storageset or
device. See Getting Started with Command Console for information about using the
Command Console.
When you use CLI commands to manually configure the storageset or device, the
procedures in Chapter 4, “Configuring Storagesets”, indicate when and how to enable
each switch.
Changing Switches
You can change the RAIDset, mirrorset, device, and unit switches at any time. See
“Changing Switches for a Storageset or Device,” page 4–17, for information about
changing switches for a storageset or device.
You cannot change the initialize switches without destroying the data on the
storageset or device. These switches are integral to the formatting and can only be
changed by re-initializing the storageset. (Initializing a storageset is similar to
formatting a disk drive; all of the data is destroyed during this procedure.)
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3–43
RAIDset Switches
You can enable the following switches to control how a RAIDset behaves to ensure
data availability:
■
■
■
Replacement policy
Reconstruction policy
Membership
Replacement Policy
Specify a replacement policy to determine how the controller replaces a failed disk
drive:
■
POLICY=BEST_PERFORMANCE (default) puts the failed disk drive in the
failedset, then tries to find a replacement (from the spareset) that is on a different
device port than the remaining operational disk drives. If more than one disk
drive meets this criterion, this switch selects a drive that also provides the best fit.
■
POLICY=BEST_FIT puts the failed disk drive in the failedset, then tries to find a
replacement (from the spareset) that equals or exceeds the base member size
(smallest disk drive at the time the RAIDset was initialized). If more than one
disk drive meets this criterion, this switch selects one that also provides the best
performance.
■
NOPOLICY puts the failed disk drive in the failedset and does not replace it. The
storageset operates with less than the nominal number of members until you
specify a replacement policy or manually replace the failed disk drive.
Reconstruction Policy
Specify the speed with which the controller reconstructs the data from the remaining
operational disk drives and writes it to a replacement disk drive:
■
RECONSTRUCT=NORMAL (default) balances the overall performance of the
subsystem against the need for reconstructing the replacement disk drive.
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3–44 Creating Storagesets
■
RECONSTRUCT=FAST gives more resources to reconstructing the replacement
disk drive, which may reduce the subsystem’s overall performance during the
reconstruction task.
Membership
Indicate to the controller that the RAIDset you are adding is either complete or
reduced, which means it is missing one of its members:
■
NOREDUCED (default) indicates to the controller that all of the disk drives are
present for a RAIDset.
■
REDUCED lets you add a RAIDset that is missing one of its members. For
example, if you dropped or destroyed a disk drive while moving a RAIDset, you
could still add it to the subsystem by using this switch.
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3–45
Mirrorset Switches
You can enable the following switches to control how a mirrorset behaves to ensure
data availability:
■
■
■
■
Replacement policy
Copy speed
Read source
Disaster Tolerance Support
Replacement Policy
Specify a replacement policy to determine how the controller replaces a failed disk
drive:
NOTE: If DT_SUPPORT is enabled, no policy can be selected.
POLICY=BEST_PERFORMANCE (default) puts the failed disk drive in the
failedset, then tries to find a replacement (from the spareset) that is on a different
device port than the remaining operational disk drives. If more than one disk
drive meets this criterion, this switch selects a drive that also provides the best fit.
This switch is not valid if DT_SUPPORT is enabled.
■
■
■
POLICY=BEST_FIT puts the failed disk drive in the failedset, then tries to find a
replacement (from the spareset) that equals or exceeds the base member size
(smallest disk drive at the time the mirrorset was initialized). If more than one
disk drive meets this criterion, this switch selects one that also provides the best
performance. This switch is not valid if DT_SUPPORT is enabled.
NOPOLICY puts the failed disk drive in the failedset and does not replace it. The
storageset operates with less than the nominal number of members until you
specify a replacement policy or manually replace the failed disk drive.
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3–46 Creating Storagesets
Copy Speed
Specify a copy speed to determine the speed with which the controller copies the data
from an operational disk drive to a replacement disk drive:
■
COPY=NORMAL (default) balances the overall performance of the subsystem
against the need for reconstructing the replacement disk drive.
■
COPY=FAST allocates more resources to reconstructing the replacement disk
drive, which may reduce the subsystem’s overall performance during the
reconstruction task.
Read Source
Specify the read source to determine how the controller reads data from the members
of a mirrorset:
■
■
■
READ_SOURCE=LEAST_BUSY (default) forces the controller to read data
from the “normal” or operational member that has the least-busy work queue. If
multiple disks have equally short queues, the controller queries normal local
disks for each read request as it would when READ_SOURCE=
ROUND_ROBIN is specified. If no normal local disk exists, then the controller
will query any remote disks, if they are available.
READ_SOURCE=ROUND_ROBIN forces the controller to read data
sequentially from all “normal” or operational members in a mirrorset. For
example, in a four-member mirrorset (A, B, C, and D), the controller reads from
A, then B, then C, then D, then A, then B, and so forth. No preference is given to
any member. If no normal local disk exists, then the controller will query any
remote disks, if they are available.
READ_SOURCE=DISKnnnn forces the controller to always read data from a
particular “normal” or operational member. If the specified member fails, the
controller reads from the least busy member.
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3–47
Disaster Tolerance Support
Specify if disaster tolerant functionality is supported by this mirrorset:
■
DT_SUPPORT is enabled if some members are or may be remote and disaster
tolerant functionality is supported. The mirrorset has the following restrictions:
NOPOLICY is enforced and NOWRITEBACK_CACHE is enforced
■
NODT_SUPPORT is enabled if all members are—and intend to remain—local,
and if disaster tolerant functionality is not supported
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3–48 Creating Storagesets
Device Switches
When you add a disk drive or other storage device to your subsystem, you can enable
the following switches:
■
■
■
Transportability (only disk drives)
Device transfer rate
Local/Remote (only disk drives)
Transportability
Indicate whether a disk drive is transportable when you add it to your subsystem:
■
NOTRANSPORTABLE disk drives (default) are marked with StorageWorks-
exclusive metadata. This metadata supports the error-detection and recovery
methods that the controller uses to ensure data availability. Disk drives that
contain this metadata cannot be used in non-StorageWorks subsystems.
Consider these points when using the NOTRANSPORTABLE switch:
❏
When you bring nontransportable devices from another subsystem to your
controller subsystem, add the device to your configuration using the ADD com-
mand. Do not initialize the device, or you will reset and destroy any forced error
information contained on the device.
❏
When you add units, the controller software verifies that the disks or storag-
esets within the units contain metadata that matches the configuration. If there is
no match or metadata is not present, the controller displays a message; initialize
the disk or storageset before adding it.
■
TRANSPORTABLE disk drives can be used in non-StorageWorks subsystems.
Transportable disk drives can be used as single-disk units in StorageWorks
subsystems as well as disk drives in other systems. They cannot be combined into
storagesets in a StorageWorks subsystem.
TRANSPORTABLE is especially useful for moving a disk drive from a worksta-
tion into your StorageWorks subsystem. When you add a disk drive as transport-
able, you can configure it as a single-disk unit and access the data that was
previously saved on it.
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3–49
Transportable devices have these characteristics:
Can be interchanged with any SCSI interface that does not use the device
metadata, for example, a PC.
❏
❏
❏
❏
❏
Cannot have write-back caching enabled.
Cannot be members of a storageset or spareset.
Cannot be partitioned.
Do not support forced errors.
Consider these points when using the TRANSPORTABLE switch:
Before you move devices from the subsystem to a foreign subsystem, delete
❏
the units and storagesets associated with the device and set the device as trans-
portable. Initialize the device to remove any metadata.
❏
When you bring foreign devices into the subsystem with customer data, fol-
low this procedure:
a. Add the disk as a transportable device. Do not initialize it.
b. Copy the data the device contains to another nontransportable unit.
c. Initialize the device again after resetting it as nontransportable. Initializing it
now places metadata on the device.
❏
Storagesets cannot be made transportable. Specify NOTRANSPORTABLE
for all disks used in RAIDsets, stripesets, and mirrorsets.
Device Transfer Rate
Specify a transfer rate that the controller uses to communicate with the device. Use
one of these switches to limit the transfer rate to accommodate long cables between
the controller and a device, such as a tape library. Use one of the following values:
■
■
■
■
TRANSFER_RATE_REQUESTED=20MHZ (default)
TRANSFER_RATE_REQUESTED=10MHZ
TRANSFER_RATE_REQUESTED=5MHZ
TRANSFER_RATE_REQUESTED=ASYNCHRONOUS
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3–50 Creating Storagesets
Local/Remote
Specify the disk characteristics in a mirrorset, either local (default) or remote.
■
■
■
■
■
Disks set to REMOTE can only be added to mirrorsets and JBOD (that is, not
RAID5 raidsets).
Disks set to REMOTE can only be added to mirrorsets that are set to
DT_SUPPORT.
Disks set to LOCAL can be added to mirrorsets that are set to either
NODT_SUPPORT or DT_SUPPORT.
Disks set to REMOTE that are part of a mirrorset will not normally be the read
source.
Setting the switch to REMOTE forces a disk to be NOTRANSPORTABLE.
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3–51
Initialize Switches
You can enable the following kinds of switches to affect the format of a disk drive or
storageset:
■
■
■
Chunk size (for stripesets and RAIDsets only)
Save configuration
Destroy/Nodestroy
After you initialize the storageset or disk drive, you cannot change these switches
without reinitializing the storageset or disk drive.
Chunk Size
Specify a chunk size to control the stripesize used for RAIDsets and stripesets:
■
CHUNKSIZE=DEFAULT lets the controller set the chunk size based on the
number of disk drives (d) in a stripeset or RAIDset. If d < 9, then chunk size =
256. If d > 9, then chunk size = 128.
■
CHUNKSIZE=n lets you specify a chunk size in blocks. The relationship
between chunk size and request size determines whether striping increases the
request rate or the data-transfer rate.
IMPORTANT: While a storageset may be initialized with a user-selected chunk
size, it is recommended that only the default value be used. The default value is
chosen to produce optimal performance for a wide variety of loads. The use of a
chunk size less than 128 blocks (64K) is strongly discouraged. There are
almost no customer loads for which small chunk sizes are of value and, in almost
all cases, selecting a small chunk size will severely degrade the performance of
the storageset and the controller as a whole. Use of a small chunk size on any
storageset can result in severe degradation of overall system performance.
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3–52 Creating Storagesets
Increasing the Request Rate
A large chunk size (relative to the average request size) increases the request rate by
allowing multiple disk drives to respond to multiple requests. If one disk drive
contains all of the data for one request, then the other disk drives in the storageset are
available to handle other requests. Thus, in principle, separate I/O requests can be
handled in parallel, thereby increasing the request rate. This concept is shown in
Chunk size = 128k (256 blocks)
Request A
Request B
Request C
Request D
CXO-5135A-MC
Figure 3–15. Chunk Size Larger than the Request Size
Applications such as interactive transaction processing, office automation, and file
services for general timesharing tend to require high I/O request rates.
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3–53
Large chunk sizes also tend to increase the performance of random reads and writes.
It is recommended that you use a chunk size of 10 to 20 times the average request
size, rounded up to the nearest multiple of 64. In general, a chunk size of 256 works
well for UNIX® systems; 128 works well for OpenVMS™ systems.
Increasing the Data Transfer Rate
A small chunk size relative to the average request size increases the data transfer rate
by allowing multiple disk drives to participate in one I/O request. This concept is
shown in Figure 3–16.
Chunk size = 128k (256 blocks)
A1
A2
A3
Request A
A4
CXO-5172A-MC
Figure 3–16. Chunk Size Smaller than the Request Size
Applications such as CAD, image processing, data collection and reduction, and
sequential file processing tend to require high data-transfer rates.
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3–54 Creating Storagesets
Increasing Sequential Write Performance
For stripesets (or striped mirrorsets), use a large chunk size relative to the I/O size to
increase the sequential write performance. A chunk size of 256 generally works well.
Chunk size does not significantly affect sequential read performance.
Maximum Chunk Size for RAIDsets
chunk size is derived by 2048/(d – 1) where d is the number of disk drives in the
RAIDset.
Table 3–4 Maximum Chunk Sizes for a RAIDset
RAIDset Size
Maximum Chunk Size
1024 blocks
3 members
4 members
5 members
6 members
7 members
8 members
9 members
10 members
11 members
12 members
13 members
14 members
682 blocks
512 blocks
409 blocks
341 blocks
292 blocks
256 blocks
227 blocks
204 blocks
186 blocks
170 blocks
157 blocks
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3–55
Save Configuration
Indicate whether to save the subsystem’s configuration on the storage unit when you
initialize it:
■
NOSAVE_CONFIGURATION (default) means that the controller stores the
subsystem’s configuration in its nonvolatile memory only. Although this is
generally secure for single-controller configuration configurations, the
configuration could be jeopardized if the controller fails. For this reason, you
may initialize at least one of your storage units with the
SAVE_CONFIGURATION switch enabled.
■
SAVE_CONFIGURATION allows the controller to use 256K of each device in a
storage unit to save the subsystem’s configuration. The controller saves the
configuration every time you change it or add a patch to your controller. If the
controller should fail, you can recover your latest configuration from the storage
unit rather than rebuild it from scratch.
The save configuration option saves all configuration information normally saved
when you restart your controller except the controller serial number, product ID
number, vendor ID number, and any manufacturing fault information.
Considerations for Saving the Configuration
■
Use the SET FAILOVER COPY command to restore configuration information
in a replacement controller. See “Saving Configuration Information in Dual-
■
Do not remove and replace disk devices between the time you save and restore
your configuration. This is particularly important for devices that you migrate
from another system. The controller could recover and use the wrong
configuration information on your subsystem.
■
Save your subsystem configuration as soon as possible after removing and
replacing any disk devices in your subsystem. This ensures that the devices
always contain the latest, valid information for your system.
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3–56 Creating Storagesets
■
When you incorporate a spare into a storageset that you initialized with the
INITIALIZE SAVE_CONFIGURATION command, the controller reserves
space on the spare for configuration information. The controller updates this
information when the configuration changes.
■
■
To enable SAVE_CONFIGURATION on a storageset containing user data, you
must back up the data, re-initialize the storageset, and restore the user data.
If you previously configured storagesets with the SAVE_CONFIGURATION
option, you do not need to initialize them again after you reconfigure your
devices with a new controller. The storageset retains the option until it is re-
initialized, even if the controller is replaced or the storageset is moved to a new
subsystem.
■
When you replace a controller, make sure the replacement controller does not
contain any configuration data. If the controller is not new, initialize it with the
SET THIS_CONTROLLER INITIAL_CONFIGURATION command. If you do
not take this precaution, you can lose configuration data if nonvolatile memory
changes.
Saving Configuration Information in Dual-Redundant
Controller Configurations
If you decide to use SAVE_CONFIGURATION in a dual-redundant configuration,
keep these points in mind:
■
■
The controller-unique data for both controllers is saved.
The restore feature (holding in port button 6 and pressing the reset button on the
controller’s operator control panel) will not function in a dual-redundant
controller configuration. If the saved configuration was for a dual-redundant
controller configuration, the data will be restored to a single controller and that
controller will be set to NOFAILOVER. You must use the SET FAILOVER
COPY command to restore the configuration information to the other controller.
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3–57
■
■
When replacing both controllers, you can replace the first and restart it alone by
holding in port button 6 and pressing the reset button on the controller’s operator
control panel. This controller picks up any previously saved configuration data on
disk and uses it to set up the subsystem configuration. Replace the second
controller using the SET FAILOVER COPY command to copy the configuration
information from the operating controller.
Both controllers update the saved data; each writes to only those devices
currently preferred to it. This process prevents conflicting data transfer.
Destroy/Nodestroy
Specify whether to destroy or retain (nodestroy) the user data and metadata when you
initialize a disk drive that has been previously used in a mirrorset or as a single-disk
unit:
NOTE: The DESTROY and NODESTROY switches are only valid for striped
mirrorsets and mirrorsets.
■
■
DESTROY (default) overwrites the user data and forced-error metadata on a disk
drive when it is initialized.
NODESTROY preserves the user data and forced-error metadata when a disk
drive is initialized. Use NODESTROY to create a single-disk unit from any disk
drive that has been used as a member of a mirrorset. See the REDUCE command
mirrorset.
The NODESTROY switch is not valid for RAIDsets and single-disk configura-
tions.
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3–58 Creating Storagesets
Unit Switches
following Unit switches.
Table 3–5 UNIT Switches for Storagesets
Container Type
RAIDset
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
Stripeset
Mirrorset
✔
NoTransportable Disk
Transportable Disk
Passthrough
NOTE: ERROR_MODE is only valid on mirrorsets that have been enabled for
DT_SUPPORT.
Regardless of storageset type, the RUN and NORUN switches cannot be specified
for partitioned units.
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4–2 Configuring Storagesets
Introduction
One method of configuring storagesets is manual configuration. This method allows
Commands,” for complete information about the CLI commands shown in this
chapter.
Adding Disk Drives
The factory-installed devices in your StorageWorks subsystem have already been
added to the controller’s list of eligible devices. If you want to add new devices to
your subsystem, you must issue one of the following CLI commands before you can
use them in any kind of storageset, single disk unit, or spareset:
ADD DISK
RUN CONFIG
Adding One Disk Drive at a Time
To add one new disk drive to your controller’s list of eligible devices, enter the
following command at the prompt:
ADD DISK DISKnnnn ptl-location switch_value
Adding Several Disk Drives at a Time
To add several new disk drives to your controller’s list of eligible devices, enter the
following command at the prompt:
RUN CONFIG
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4–3
Configuring a Stripeset
for information about creating a profile and understanding the switches you can set
for this kind of storage unit.
To configure a stripeset:
1. Create the stripeset by adding its name to the controller’s list of storagesets and
specifying the disk drives it contains. Use the following syntax:
ADD STRIPESET stripeset-name DISKnnnn DISKnnnn
2. Initialize the stripeset. If you want to set any Initialize switches, you must do so
in this step. Use the following syntax:
INITIALIZE stripeset-name switch
See “INITIALIZE,” page 5–62, for valid switches and values.
3. Present the stripeset to the host by giving it a unit number the host can recognize.
Optionally, you can append Unit switch values. If you do not specify switch
values, default values are applied.
ADD UNIT unit-number stripeset-name switch
4. Verify the stripeset configuration and switches. Use the following syntax:
SHOW stripeset-name
5. Verify the unit configuration and switches. Use the following syntax:
SHOW unit-number
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4–4 Configuring Storagesets
Example
The following example shows the commands you would use to create Stripe1, a three-
member stripeset:
ADD STRIPESET STRIPE1 DISK10000 DISK20000 DISK30000
INITIALIZE STRIPE1 CHUNKSIZE=128
ADD UNIT D100 STRIPE1 MAXIMUM_CACHED_TRANSFER=16
SHOW STRIPE1
SHOW D100
Configuring a Mirrorset
See “Creating a Storageset and Device Profile,” page 3–5, for information about
creating a profile and understanding the switches you can set for this kind of storage
unit.
To configure a mirrorset:
1. Create the mirrorset by adding its name to the controller’s list of storagesets and
specifying the disk drives it contains. Optionally, you can append Mirrorset
switch values. If you do not specify switch values, default values are applied.
Use the following syntax to create a mirrorset:
ADD MIRRORSET mirrorset-name DISKnnnn DISKnnnn switch
2. Initialize the mirrorset. If you want to set any Initialize switches, you must do so
in this step. Use the following syntax:
INITIALIZE mirrorset-name switch
See “INITIALIZE,” page 5–62, for valid switches and values.
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4–5
3. Present the mirrorset to the host by giving it a unit number the host can recognize.
Optionally, you can append Unit switch values. If you do not specify switch
values, default values are applied. Use the following syntax:
ADD UNIT unit-number mirrorset-name switch
4. Verify the mirrorset configuration and switches. Use the following syntax:
SHOW mirrorset-name
5. Verify the unit configuration and switches. Use the following syntax:
SHOW unit-number
Example
The following example shows the commands you would use to create Mirr1, a two-
member stripeset:
ADD MIRRORSET Mirr1 DISK10000 DISK20000
INITIALIZE MIRR1
ADD UNIT D110 MIRR1
SHOW MIRR1
SHOW D110
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4–6 Configuring Storagesets
Configuring a RAIDset
See “Creating a Storageset and Device Profile,” page 3–5 for information about
creating a profile and understanding the switches you can set for this kind of storage
unit.
To configure a RAIDset:
1. Create the RAIDset by adding its name to the controller’s list of storagesets and
specifying the disk drives it contains. Optionally, you can append RAIDset
switch values. If you do not specify switch values, default values are applied.
Use the following syntax to create a RAIDset:
ADD RAIDSET RAIDset-name DISKnnnn DISKnnnn DISKnnnn switch
See “ADD RAIDSET,” page 5–19 for switches and values.
2. Initialize the RAIDset. Optional: If you want to set the Initialize switches, you
must do so in this step. Use the following syntax:
INITIALIZE RAIDset-name switch
See “INITIALIZE,” page 5–62, for valid switches and values.
NOTE: It is recommended that you allow initial reconstruct to complete before
allowing I/O to the RAIDset. Not doing so may generate forced errors at the host
level. To determine whether initial reconstruct has completed, enter SHOW
RAIDSET FULL.
3. Present the RAIDset to the host by giving it a unit number the host can recognize.
Optionally, you can append Unit switch values. If you do not specify switch
values, default values are applied.
Use the following syntax to present the RAIDset to the host:
ADD UNIT unit-number RAIDset-name switch
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4–7
4. Verify the RAIDset configuration and switches. Use the following syntax:
SHOW RAIDset-name
5. Verify the unit configuration and switches. Use the following syntax:
SHOW unit-number
Example
The following example shows the commands you would use to create RAID1, a three-
member RAIDset:
ADD RAIDSET RAID1 DISK10000 DISK20000 DISK30000
INITIALIZE RAID1
ADD UNIT D300 RAID1
SHOW RAID1
SHOW D300
Configuring a Striped Mirrorset
See “Creating a Storageset and Device Profile,” page 3–5 for information about
creating a profile and understanding the switches you can set for this kind of storage
unit.
NOTE: A striped mirrorset cannot be created if the mirrorsets are enabled for
DT_SUPPORT.
To configure a striped mirrorset:
1. Create—but do not initialize—at least two mirrorsets.
2. Create a stripeset and specify the mirrorsets it contains. Use the following syntax:
ADD STRIPESET stripeset-name mirrorset_1 mirrorset_2
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4–8 Configuring Storagesets
3. Initialize the stripeset. If you want to set any Initialize switches, you must do so
in this step. Use the following syntax:
INITIALIZE stripeset-name switch
See “INITIALIZE,” page 5–62, for valid switches and values.
4. Present the stripeset to the host by giving it a unit number the host can recognize.
Optionally, you can append Unit switch values. If you do not specify switch
values, default values are applied.
Use the following syntax to present the stripeset to the host:
ADD UNIT unit-number stripeset-name switch
5. Verify the striped mirrorset configuration and switches. Use the following syntax:
SHOW stripeset-name
6. Verify the unit configuration and switches. Use the following syntax:
SHOW unit-number
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4–9
Example
The following example shows the commands you would use to create Stripe1, a three-
member striped mirrorset that comprises Mirr1, Mirr2, and Mirr3, each of which is a
two-member mirrorset:
ADD MIRRORSET MIRR1 DISK10000 DISK20000
ADD MIRRORSET MIRR2 DISK30000 DISK40000
ADD MIRRORSET MIRR3 DISK50000 DISK60000
ADD STRIPESET STRIPE1 MIRR1 MIRR2 MIRR3
INITIALIZE STRIPE1 CHUNKSIZE=DEFAULT
ADD UNIT D101 STRIPE1
SHOW STRIPE1
SHOW D101
Configuring a Single-Disk Unit
Use the following steps to use a single disk drive as a single-disk unit in your
subsystem:
1. Add the disk drive using the following syntax:
ADD DISK DISKnnnn ptl-location switch_value
Optionally, you can append Device switch values. If you do not specify switch values,
2. Initialize the disk drive using the following syntax:
INITIALIZE DISKnnnn switch
3. Present the disk drive to the host by giving it a unit number the host can
recognize. Optionally, you can append Unit switch values. If you do not specify
switch values, default values are applied. Use the following syntax:
ADD UNIT unit-number DISKnnnn switch_value
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4–10 Configuring Storagesets
NOTE: If you make a disk transportable, you cannot specify WRITEBACK_CACHE
for that disk.
4. Verify the configuration using the following command:
SHOW DEVICES
Example
The following example shows the commands you would use to configure DISK10000
as a single-disk unit.
ADD DISK DISK10000 1 0 0
ADD UNIT D101 DISK10000
SHOW DEVICES
Partitioning a Storageset or Disk Drive
See “Planning Partitions,” page 3–40, for details about partitioning a storage unit.
Partitioning cannot be used in multiple bus failover mode.
To partition a storageset or disk drive:
1. Add the storageset or disk drive to the controller’s list of storagesets and specify
the disk drives it contains. Use the following syntax:
ADD storageset-name DISKnnnn DISKnnnn
or
ADD DISK DISKnnnn ptl-location
Do not split partitioned units across ports. They must be on a single port.
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4–11
2. Initialize the storageset or disk drive. If you want to set any Initialize switches,
you must do so in this step. Use the following syntax:
INITIALIZE storageset-name switch
3. Create each partition in the storageset or disk drive by indicating the partition’s
size. Use the following syntax:
CREATE_PARTITION storageset-name SIZE=n
where n is the percentage of the disk drive or storageset that will be assigned to the
partition. Enter SIZE=LARGEST to let the controller assign the largest free space
available to the partition.
4. Verify the partitions using the following syntax:
SHOW storageset-name
The partition number appears in the first column, followed by the size and starting
block of each partition.
5. Present each partition to the host by giving it a unit number the host can
recognize. (You can skip this step until you are ready to put the partitions online.)
Optionally, you can append Unit switch values. If you do not specify switch
values, default values are applied.
Use the following syntax to present partitions to the host:
ADD UNIT unit-number storageset-name PARTITION=partition-number
switch
6. Verify the unit numbers for the partitions using the following syntax:
SHOW storageset-name
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4–12 Configuring Storagesets
Example
The following example shows the commands you would use to create RAID1, a three-
member RAIDset partitioned into four storage units:
ADD RAIDSET RAID1 DISK10000 DISK20000 DISK30000
INITIALIZE RAID1
CREATE_PARTITION RAID1 SIZE=25
CREATE_PARTITION RAID1 SIZE=25
CREATE_PARTITION RAID1 SIZE=25
CREATE_PARTITION RAID1 SIZE=LARGEST
SHOW RAID1
Partition number
Size
Starting Block
Used by
1
2
3
4
.
.
.
1915 (0.98 MB)
1915 (0.98 MB)
1915 (0.98 MB)
2371 (1.21 MB)
0
1920
3840
5760
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ADD UNIT D1 RAID1 PARTITION=1
ADD UNIT D2 RAID1 PARTITION=2
ADD UNIT D3 RAID1 PARTITION=3
ADD UNIT D4 RAID1 PARTITION=4
SHOW RAID1
.
.
.
Partition number
1
Size
1915 (0.98
Starting Block
0
Used by
D1
MB)
2
3
4
1915 (0.98
1920
3840
5760
D2
D3
D4
MB)
1915 (0.98
MB)
2371 (1.21
MB)
.
.
.
Adding a Disk Drive to the Spareset
The spareset is a collection of hot spares that are available to the controller should it
need to replace a failed member of a RAIDset or mirrorset.
Use the following steps to add a disk drive to the spareset. This procedure assumes
that the disks that you are adding to the spareset have already been added to the
controller’s list of eligible devices.
1. Add the disk drive to the controller’s spareset list. Use the following syntax:
ADD SPARESET DISK nnnn
Repeat this step for each disk drive you want to add to the spareset.
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4–14 Configuring Storagesets
2. Verify the contents of the spareset using the following syntax:
SHOW SPARESET
Example
The following example shows the commands you would use to add DISK60000 and
DISK60100 to the spareset.
ADD SPARESET DISK60000
ADD SPARESET DISK60100
SHOW SPARESET
Removing a Disk Drive from the Spareset
You cannot delete the spareset—it always exists whether or not it contains disk drives.
However, you can delete disks in the spareset if you need to use them elsewhere in
your StorageWorks subsystem.
To remove a disk drive from the spareset:
1. Show the contents of the spareset using the following syntax:
SHOW SPARESET
2. Delete the desired disk drive using the following syntax:
DELETE SPARESET DISKnnnn
Verify the contents of the spareset using the following syntax:
SHOW SPARESET
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Example
The following example shows the commands you would use to remove DISK60000
from the spareset.
SHOW SPARESET
Name
SPARESET
Storageset
spareset
Uses
disk60000
disk60100
Used by
DELETE SPARESET DISK60000
SHOW SPARESET
Name
SPARESET
Storageset
spareset
Uses
disk60100
Used by
Enabling Autospare
With AUTOSPARE enabled on the failedset, any new disk drive that is inserted into
the PTL location of a failed disk drive is automatically initialized and placed into the
spareset. If initialization fails, the disk drive remains in the failedset until you
manually delete it from the failedset.
To enable autospare, use the following syntax:
SET FAILEDSET AUTOSPARE
To disable autospare, use the following syntax:
SET FAILEDSET NOAUTOSPARE
During initialization, AUTOSPARE checks to see if the new disk drive contains
metadata—the information that indicates it belongs to, or has been used by, a known
storageset. If the disk drive contains metadata, initialization stops. A new disk drive
will not contain metadata, but a repaired or re-used disk drive might. To erase
metadata from a disk drive, add it to the controller’s list of devices, then set it to be
TRANSPORTABLE and initialize it.
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4–16 Configuring Storagesets
Deleting a Storageset
If the storageset you are deleting is partitioned, you must delete each partitioned unit
before you can delete the storageset. Use the following steps to delete a storageset:
1. Show the configuration using the following syntax:
SHOW STORAGESETS
2. Delete the unit number shown in the “Used by” column. Use the following
syntax:
DELETE unit-number
3. Delete the name shown in the “Name” column. Use the following syntax:
DELETE storageset-name
4. Verify the configuration using the following syntax:
SHOW STORAGESETS
Example
The following example shows the commands you would use to delete Stripe1, a three-
member stripeset comprised of DISK10000, DISK20000, and DISK30000.
SHOW STORAGESETS
Name
STRIPE1
Storageset
stripeset
Uses
Used by
D100
DISK10000
DISK20000
DISK30000
DELETE D100
DELETE STRIPE1
SHOW STORAGESETS
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4–17
Changing Switches for a Storageset or Device
You can optimize a storageset or device at any time by changing the switches that are
for an explanation of the switches. Remember to update the storageset’s profile
(hardcopy) when you change its switches.
Displaying the Current Switches
To display the current switches for a storageset or a single disk, enter the following
command at a CLI prompt:
SHOW storageset-name or device-name FULL
Changing RAIDset and Mirrorset Switches
Use the SET storageset-name command to change the RAIDset and Mirrorset
switches associated with an existing storageset. For example, the following command
changes the replacement policy for RAIDset RAID1 to BEST_FIT:
SET RAID1 POLICY=BEST_FIT
Changing Device Switches
Use the SET command to change the device switches. For example, the following
command enables DISK10000 to be used in a non-StorageWorks’ environment:
SET DISK10000 TRANSPORTABLE
The TRANSPORTABLE switch cannot be changed for a disk if the disk is part of an
upper-level container. Additionally, the disk cannot be configured as a unit if it is to
be used as indicated in this example.
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4–18 Configuring Storagesets
Changing Initialize Switches
The Initialize switches cannot be changed without destroying the data on the
storageset or device. These switches are integral to the formatting and can only be
changed by reinitializing the storageset. Initializing a storageset is similar to
formatting a disk drive; all data is destroyed during this procedure.
Changing Unit Switches
Use the SET command to change Unit switches that are associated with a unit. For
example, the following command enables write protection for unit D100:
SET D100 WRITE_PROTECT
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4–19
Configuring with the Command Console LUN
The Command Console LUN (CCL) acts as a type of access device in the form of a
LUN for communicating between the host and the controller. You can access the CCL
using either StorageWorks Command Console (SWCC) or CLI commands. When the
CCL is enabled, you can communicate between the controller and the host without a
maintenance port cable.
The most common tasks performed with the CCL include configuring storage units,
preparing the subsystem for use, checking a failed set, checking performance by
running VTDPY, and running FMU for troubleshooting. You should not use the CCL
for maintenance using the following utilities and exercisers: HSUTIL, FRUTIL, and
DILX. For these tasks, you would need to communicate with the controller through
the maintenance port cable.
Enabling and Disabling the CCL
IMPORTANT: You cannot disable the CCL in SCSI-3 mode. It is always enabled.
If the CCL is not enabled automatically on your controller, use the following
command:
SET THIS_CONTROLLER COMMAND_CONSOLE_LUN
To turn it off, use the following command:
CAUTION: Disabling the CCL while SWCC is running may result in loss
of connection for the StorageWorks Command Console. Turn off SWCC
before issuing the command.
SET THIS_CONTROLLER NOCOMMAND_CONSOLE_LUN
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4–20 Configuring Storagesets
Finding the CCL Location
To see where each CCL is located, use the following commands:
SHOW THIS_CONTROLLER
or
SHOW OTHER_CONTROLLER
Look under host port to find the Command Console LUN location. Because the CCL
is not an actual device or unit, the SHOW UNITS command will display only unit
information and no CCL locations.
Multiple-Port and Multiple-Host Use
The way the host sees the CCL varies, depending whether you are in SCSI-2 or SCSI-
3 mode and whether you’ve enabled transparent or multiple-bus failover modes,
SCSI-2 Mode
If you are in SCSI-2 mode and have enabled the SET FAILOVER command, only one
CCL will be enabled. However, in SCSI-2 mode with SET MULTIBUS_FAILOVER
enabled, all ports will see the CCL and will be able to access it. In addition, the CCL
appears to the host as a direct access device.
SCSI-3 Mode
In SCSI-3 mode, a CCL will appear at LUN 0 of each target ID. If you are in
transparent failover mode, each CCL will be accessible from the port that has the
SCSI target ID enabled. Ports with multiple target IDs enabled will have multiple
CCLs, and they will appear to the host as an array controller.
If you are in multiple-bus failover mode, all ports will see the CCLs and will be able
to access them. As a result, all hosts will have access to each CCL, and they will
appear to the host as array controllers.
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4–21
CAUTION: Selecting SCSI-3 mode enables multiple CCLs—one for each
target at LUN 0. If the hosts access the CCL simultaneously, unpredict-
able consequences can occur. In cases where the CCL can be accessed
through multiple paths and LUNs, systems administrators of each host
must not attempt to access the CCL simultaneously.
Troubleshooting with the CCL
Troubleshooting and maintaining the controller should not be done using the CCL.
Instead, run the utilities and exercisers with the local connection that uses the
maintenance port cable. See “Establishing a Local Connection to the Controller,”
Adding Storage Units with the CCL
If you have not configured any units and have not yet enabled the CCL, you must
establish a local connection as described previously in “Establishing a Local
Connection to the Controller,” page 2–26. This local connection through the
maintenance port cable provides a means of enabling the CCL, so that you can
communicate either through SWCC or through a PC or terminal.
To start configuring storage units, you must first set target ID numbers. See “Setting
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4–22 Configuring Storagesets
SCSI-2 Mode
As you add storage units and set SCSI IDs over the CCL or above its location, the
CCL immediately and automatically moves into the next available free space, which
would be the lowest available Target ID/LUN setting.
IMPORTANT: If you delete a unit at a setting below the CCL setting, the CCL
does not automatically move to that setting. Instead, it only moves to the lowest
deleted unit’s setting when you restart the controller.
SCSI-3 Mode
The CCL always remains in a fixed location. It is always located at LUN 0 of every
target ID. If you have the CCL enabled, the controller will let you configure a device
above LUN 0 of each target ID.
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4–23
Configuring Units with Multiple Hosts
The HSZ80 Array Controller allows equal but separate access to the targets and units
through multiple hosts running on different operating systems, which is called
heterogeneous host support. The array controller allows hosts equal access to their
targets and units by designating the host mode using the HOST_FUNCTION switch.
The controller prevents one host from accessing another host’s units through the use
of separate SCSI buses or through the ENABLE_ACCESS_PATH switch.
Host Modes
Each target may have only one host mode assigned to it, making it possible for
multiple units to be accessible by one host. This process allows designated targets to
talk to their host and vice versa. Host modes allow hosts that implement different
SCSI-2 behavior to have equal access to their targets on a shared controller or
controller pair.
All hosts are allowed equal access to the controller, but not all hosts implement the
same SCSI-2 behavior. This process is achieved by setting a host mode for each
target, except when you use the default setting. The default host mode is Host Mode
A, which includes DIGITAL UNIX and Open VMS. You only set the host mode on
targets if you are using a host operating system that is different than the default.
For targets being accessed by the default host, Host Mode A, you will not need to use
the SET controller HOST_FUNCTION switch.
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4–24 Configuring Storagesets
The following modes can be assigned:
■
A—DIGITAL UNIX®, OpenVMS, and Hewlett-Packard® HP–UX (Default)
■
■
B—IBM AIX®
C—HSZ15
■
■
■
D—Windows NTTM Server
E—Silicon Graphics Inc. IRIX
F—Sun Solaris
host mode setting on the controller, use the following syntax:
SHOW THIS_CONTROLLER FULL
or
SHOW OTHER_CONTROLLER FULL
To set the host mode, use one of the following syntax:
SET THIS_CONTROLLER HOST_FUNCTION = (ID, MODE)
or
SET OTHER_CONTROLLER HOST_FUNCTION = (ID, MODE)
Example
Port 1 of a shared controller. Targets 0 and 1 (units D0–D2, D100–D102) are
configured in DIGITAL Open VMS mode and targets 2 and 3 (D200–D202 and
D300–D302) are configured in Windows NT Server mode. Because the default host
mode includes DIGITAL Open VMS in Host Mode A, all of the targets are
automatically assigned to Host Mode A.
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4–25
supported host operating systems, refer to the HSZ80 Array Controller ACS
Version 8.3 Release Notes.
Host bus
HSZ80
Windows
NT
Digital
OpenVMS
Port 1
Port 2
Controller device bus
Controller device bus
D0
D1
D2
D100 D101 D102
D200 D201 D202 D300 D301 D302
CXO6477A
Figure 4–1. Setting Host Modes
To reassign targets 2 and 3 to the Windows NT Server mode, use the following
syntax:
SET THIS_CONTROLLER HOST_FUNCTION = (2,D)
SET THIS_CONTROLLER HOST_FUNCTION = (3,D)
The controller will then use default SCSI-2 behavior when units D0–D2 and
D100–D102 are accessed by a host. It will also use Windows-NT-compatible SCSI-2
behavior when units D200–D202 and D300–D302 are accessed by a Windows NT
host.
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4–26 Configuring Storagesets
Transparent Failover Mode
In transparent failover mode, units can be assigned to a host in a variety of setups,
including these three common ways:
■
■
■
by designating the port of the controller, either Port 1 or Port 2 or both.
by designating the host SCSI ID number of the hosts configured on a shared bus.
by designating the port of the controller and by designating the host SCSI ID
number of the hosts configured on a shared bus.
Designating the Port
The HSZ80 Array Controller has two host ports where separate hosts can then be
attached to the controller through separate buses. Units can be assigned to either port,
depending on their target ID and by setting PORT_1_ID and PORT_2_ID.
The configurations best suited to using the PORT_n_ID switch and separate SCSI
buses include the following:
■
■
■
Separate operating systems accessing units on the same pair of HSZ80 Array
Controllers.
The same operating systems (nonclustered, only) accessing units on the same
pair of HSZ80 Array Controllers.
Any environment in which multiple hosts access the pair of HSZ80 Array
Controllers, but where a specific host must have sole access to units.
Example
host is connected to Port 2. Targets 1 and 2 (D100 and D200) have been assigned to
Port 1 and targets 3 and 4 (D300 and D400) have been assigned to Port 2.
supported host operating systems, refer to the HSZ80 Array Controller ACS
Version 8.3 Release Notes.
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4–27
Host bus
Host bus
Windows
NT
Digital
UNIX
Port 1
Port 2
HSZ80
Controller
Controller
device bus
device bus
D100
D200
D300
D400
CXO6478A
Figure 4–2. Accessing Units on a Given Port
To assign the units to Port 1 and Port 2, use the following syntax:
SET THIS PORT_1_ID = (1,2)
SET THIS PORT_2_ID = (3,4)
To reassign target 1 and 2 to the Windows NT server host mode, use the following
syntax:
SET THIS_CONTROLLER HOST_FUNCTION (1,D)
SET THIS_CONTROLLER HOST_FUNCTION (2,D)
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4–28 Configuring Storagesets
Designating the Host SCSI ID Number
The HSZ80 Array Controller allows multiple hosts on the same SCSI host bus to
access units individually and based on a host port’s SCSI ID number. The
ENABLE_ACCESS_PATH syntax implements this access, but restricts each host on
the same bus from accessing other hosts’ units. For each unit, you must use two
commands:
SET UNIT unit number DISABLE_ACCESS_PATH = ALL
SET UNIT unit number ENABLE_ACCESS_PATH = SCSI ID
The DISABLE_ACCESS_PATH switch disables all hosts from accessing a unit. But,
the ENABLE_ACCESS PATH switch restricts access to a specific host.
NOTE: By default, units are enabled for all SCSI ID numbers. You must first disable
the unit for all SCSI ID numbers, then followed by enabling the unit for a specific
host SCSI ID number.
Example
same host bus. Units D100 and D101 have been assigned to SCSI ID 7, the DIGITAL
UNIX host. Units D102 and 103 have been assigned to SCSI ID 6, the Windows NT
host.
supported host operating systems, refer to the HSZ80 Array Controller ACS
Version 8.3 Release Notes.
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4–29
Host bus
HSZ80
SCSI ID 7
SCSI ID 6
Sun
Digital
UNIX
Port 1
Port 2
Controller
Controller
device bus
device bus
D100
D102
D101
D103
CXO6479A
Figure 4–3. Accessing Units with the Host Port’s SCSI ID Number
To assign the units to one host using SCSI ID numbers, yet restrict the other host’s
access, use the following syntax:
SET D100 DISABLE_ACCESS_PATH = ALL
SET D100 ENABLE_ACCESS_PATH = 7
SET D101 DISABLE_ACCESS_PATH = ALL
SET D101 ENABLE_ACCESS_PATH = 7
SET D102 DISABLE_ACCESS_PATH = ALL
SET D102 ENABLE_ACCESS_PATH = 6
SET D103 DISABLE_ACCESS_PATH = ALL
SET D103 ENABLE_ACCESS_PATH = 6
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4–30 Configuring Storagesets
Designating the Port and Designating the Host SCSI ID
Number
Using a two-step process, port access can be combined with shared host access on the
same bus further restricting one host from accessing another host’s units. You start by
assigning units on a port using the SET THIS PORT_n_ID command, followed by
restricting access between hosts on the same host SCSI bus using the
DISABLE_ACCESS_PATH and ENABLE_ACCESS_PATH switches.
Example
and a DIGITAL UNIX host is connected to Port 2 on a separate SCSI host bus.
Because all targets default to Host Mode A—which includes DIGITAL UNIX—you
only need to set targets to other host operating systems, such as Windows NT.
Units D100 and D101 have been assigned to Port 1 and SCSI ID 7, a Windows NT
host. Units D102, D103, and D104 have been assigned to Port 1 and SCSI ID 6,
another Windows NT host. Units D200 and D201 have been assigned to Port 2, the
DIGITAL UNIX host.
NOTE: By default, units are enabled for all SCSI ID numbers. You must first disable
the unit for all SCSI ID numbers, followed by enabling the unit for a specific host
SCSI ID number.
supported host operating systems, refer to the HSZ80 Array Controller ACS
Version 8.3 Release Notes.
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4–31
r
Host bus
Host bus
SCSI ID 7
Windows
NT
Digital
UNIX
SCSI ID 6
Port 1
Port 2
Windows
NT
HSZ80
Controller device bus
D100 D101 D102 D103 D104 D200 D201
CXO6480A
Figure 4–4. Accessing Units through Port Access and the Host Port’s SCSI ID Number
To assign the units to Port 1 and Port 2, use the following syntax:
SET THIS PORT_1_ID = 1
SET THIS PORT_2_ID = 2
To reassign target 1 to the Windows NT server host mode, use the following syntax:
SET THIS_CONTROLLER HOST_FUNCTION (1,D)
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4–32 Configuring Storagesets
To assign the units to one of the Windows NT hosts using SCSI ID numbers, yet
restrict the other Window NT host’s access, use the following syntax:
SET D100 DISABLE_ACCESS_PATH = ALL
SET D100 ENABLE_ACCESS_PATH = 7
SET D101 DISABLE_ACCESS_PATH = ALL
SET D101 ENABLE_ACCESS_PATH = 7
SET D102 DISABLE_ACCESS_PATH = ALL
SET D102 ENABLE_ACCESS_PATH = 6
SET D103 DISABLE_ACCESS_PATH = ALL
SET D103 ENABLE_ACCESS_PATH = 6
SET D104 DISABLE_ACCESS_PATH = ALL
SET D104 ENABLE_ACCESS_PATH = 6
Multiple-Bus Failover Mode
Multiple-bus failover is a dual-redundant controller configuration where each
controller in a controller pair has its own connection to the host. In such a dual-
redundant configuration, units can be made available on both ports of the controller
pair. Regardless of which controller a host is using, that host will always have access
to its units while also being restricted from accessing other hosts’s units. The
command that limits host access is THIS_PORT_n_ENABLE_ACCESS_PATH.
Example
dual-redundant pair of HSZ80 Array Controllers in multiple-bus failover mode. Each
host has two host port controllers. One host port is connected to controller A and the
other host port is connected to controller B. All commands are entered from
controller A.
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4–33
supported host operating systems, refer to the HSZ80 Array Controller ACS
Version 8.3 Release Notes.
Host bus
SCSI ID 7
SCSI ID 6
Windows
NT
Digital
UNIX
Port 1
Port 2
SCSI ID 7
SCSI ID 6
HSZ80 controller A
HSZ80 controller B
Port 1
Port 2
Device bus
D100 D101 D102 D200 D201
Host bus
CXO6488A
Figure 4–5. Assigning Units through Multiple Host Adapters
To reassign target 1 to the Windows NT server host mode, use the following syntax:
SET THIS HOST_FUNCTION (1,D)
To assign the units to each host using SCSI ID numbers, yet restrict host access by the
other hosts, use the following syntax:
SET D100 THIS_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D100 OTHER_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D100 THIS_PORT_1_ENABLE_ACCESS_PATH = 7
SET D100 OTHER_PORT_1_ENABLE_ACCESS_PATH = 6
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4–34 Configuring Storagesets
SET D101 THIS_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D101 OTHER_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D101 THIS_PORT_1_ENABLE_ACCESS_PATH = 7
SET D101 OTHER_PORT_1_ENABLE_ACCESS_PATH = 6
SET D102 THIS_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D102 OTHER_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D102 THIS_PORT_1_ENABLE_ACCESS_PATH = 7
SET D102 OTHER_PORT_1_ENABLE_ACCESS_PATH = 6
SET D200 THIS_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D200 OTHER_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D200 THIS_PORT_1_ENABLE_ACCESS_PATH = 6
SET D200 OTHER_PORT_1_ENABLE_ACCESS_PATH = 7
SET D201 THIS_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D201 OTHER_PORT_1_DISABLE_ACCESS_PATH = ALL
SET D201 THIS_PORT_1_ENABLE_ACCESS_PATH = 6
SET D201 OTHER_PORT_1_ENABLE_ACCESS_PATH = 7
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Moving Storagesets
You can move a storageset from one subsystem to another without destroying its data
storageset to a new location within the same subsystem.
NOTE: You can use the procedure in this section to migrate wide devices from an
HSZ70 controller in a BA370 rack-mountable enclosure to an HSZ80 environment.
However, if you have an HSZ40 or HSZ50 subsystem, you cannot migrate to an
HSZ80 in a BA370 rack-mountable enclosure. Refer to the HSZ80 Array Controller
ACS Version 8.3 Release Notes for drives that can be supported.
CXO5595A
Figure 4–6. Moving a Storageset from one Subsystem to Another
CAUTION: Never initialize any container or this procedure will not pro-
tect data.
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4–36 Configuring Storagesets
Use the following procedure to move a storageset while maintaining the data it
contains:
1. Show the details for the storageset you want to move. Use the following syntax:
SHOW storageset-name
2. Physically label each member with its name and PTL location.
If you do not have a storageset map for your subsystem, you can enter the LOCATE
command for each member to find its PTL location. Use the following syntax:
LOCATE disk-name
To cancel the locate command, use the following syntax:
LOCATE CANCEL
3. Delete the unit-number shown in the “Used by” column of the SHOW storageset-
name command. Use the following syntax:
DELETE unit-number
4. Delete the storageset shown in the “Name” column of the SHOW storageset-
name command. Use the following syntax:
DELETE storageset-name
5. Delete each disk drive—one at a time—that the storageset contained. Use the
following syntax:
DELETE disk-name
DELETE disk-name
DELETE disk-name
6. Remove the disk drives and move them to their new PTL locations.
7. Add each disk drive to the controller’s list of valid devices. Use the following
syntax:
ADD DISK disk-name PTL-location
ADD DISK disk-name PTL-location
ADD DISK disk-name PTL-location
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4–37
8. Recreate the storageset by adding its name to the controller’s list of valid
storagesets and specifying the disk drives it contains. Although you have to
recreate the storageset from its original disks, you do not have to add them in
their original order. Use the following syntax:
ADD storageset-name disk-name disk-name
9. Represent the storageset to the host by giving it a unit number the host can
recognize. You can use the original unit number, if it is not already in use, or you
can create a new one. Use the following syntax:
ADD UNIT unit-number storageset-name
Example
The following example show the commands you would use to move unit D100 to
another cabinet. D100 is the RAIDset RAID99 is comprised of members DISK10000,
DISK20000, and DISK30000.
SHOW RAID99
Name
RAID99
Storageset
raidset
Uses
disk10000
Used by
D100
disk20000
disk30000
DELETE D100
DELETE RAID99
DELETE DISK10000
DELETE DISK20000
DELETE DISK30000
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4–38 Configuring Storagesets
(...move disk drives to their new location...)
ADD DISK DISK20000 2 0 0
ADD DISK DISK30000 3 0 0
ADD DISK DISK40000 4 0 0
ADD RAIDSET RAID99 DISK20000 DISK30000 DISK40000
ADD UNIT D100 RAID99
Example
The following example shows the commands you would use to move the reduced
RAIDset, R3, to another cabinet. R3 used to contain DISK20000, which failed before
the RAIDset was moved. R3 contained DISK10000, DISK30000, and DISK40000 at
the beginning of this example.
DELETE D100
DELETE R3
DELETE DISK10000
DELETE DISK30000
DELETE DISK40000
(...move disk drives to their new location...)
ADD DISK DISK10000 1 0 0
ADD DISK DISK30000 3 0 0
ADD DISK DISK40000 4 0 0
ADD RAIDSET R3 DISK10000 DISK30000 DISK40000 REDUCED
ADD UNIT D100 R3
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Chapter 5
CLI Commands
This appendix contains the Command Line Interpreter (CLI) commands you can use
to interact with your controller. Each command description contains the full syntax
and examples of the use of the command. The Overview provides a general
description of the CLI and how to use it.
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5–2 CLI Commands
CLI Overview
The Command Line Interpreter (CLI) is one of the user interfaces through which you
control your StorageWorks array controller in the StorageWorks subsystem. The CLI
commands allow you to manage the subsystem by viewing and modifying the
configuration of the controller and the devices attached to them. You can also use the
CLI to start controller diagnostic and utility programs.
While the CLI provides the most detailed level of subsystem control, a graphical user
interface (GUI) is available for use with the CLI. The GUI, StorageWorks Command
Console (SWCC), replicates most of the functions available within the CLI in graphic
form and provides a user-friendly method of executing CLI commands.
CLI commands for configuring and viewing the controllers use the relative terms
“this controller” and “other controller.” See “Typographical Conventions,” page xviii,
for an explanation of these terms.
Using the CLI
You can access the CLI by connecting a maintenance terminal to the maintenance port
on the front of the controller. See “Establishing a Local Connection to the Controller,”
page 2–26 for instructions explaining how to connect a local terminal to the
controller. After you have initially configured the controller, making it visible to the
host, you can perform all other configuration tasks through a remote connection.
you should observe when operating the CLI through a maintenance port.
Command Overview
The CLI consists of six basic command types:
■
Controller Commands—Configure the controller’s SCSI ID numbers,
maintenance terminal characteristics, CLI prompt, and so forth. Controller
commands are also used to shut down and restart the controller.
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5–3
■
■
Device Commands—Create and configure containers made from physical
devices attached to the controller.
Storageset Commands—Create and configure complex containers made from
groups of device containers. There are four basic types of storagesets: stripesets,
RAIDsets, striped-mirrorsets, and mirrorsets. Storageset commands group device
containers together and allow them to be handled as single units.
■
■
Logical Unit Commands—Create and optimize access to logical units made from
containers.
Failover Commands—Configure the controllers to operate in transparent or
multiple bus failover while also providing support for dual-redundant
configurations.
■
Diagnostic and Utility Commands—Perform general controller support functions
Getting Help
Help for using the CLI is at your fingertips. For an overview of the CLI help system,
enter help at the prompt. For help on a specific command or to determine what
switches are available with a command, enter as much of the command as you know
followed by a space and a question mark. For example, to get information on the
switches used with the SET THIS_CONTROLLER command, enter:
SET THIS_CONTROLLER ?
Entering CLI Commands
Use the following tips and techniques when entering CLI commands:
■
■
Commands are not case sensitive.
For most commands, you only need to enter enough of the command to make the
command unique. For example, SHO is the same as entering SHOW.
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5–4 CLI Commands
■
The controller processes each command in sequence. You can continue entering
subsequent commands while the controller is processing prior commands. A
controller experiencing heavy data I/O may respond slowly to CLI commands.
NOTE: Due to space limitations, some examples in this manual contain commands
that exceed one line in length. In these instances, the paragraph preceding the
example identifies which command is continued on the next line.
Specific keys or a combination of keys allow you to recall and edit the last four
commands. This feature can save time and help prevent mistakes when you need to
used to recall and edit commands.
Table 5–1 Recall and Edit Command Keys
Key
Function
Up Arrow or Ctrl/B,
Steps backward and forward through the four most recent
CLI commands
Down Arrow or Ctrl/N
Left arrow or Ctrl/D,
Right arrow or Ctrl/F
Moves the cursor left or right in a command line.
Ctrl/A
Toggles between insert and overstrike.
Ctrl/E
Moves the cursor to the end of the line.
Ctrl/H or Backspace
Ctrl/J or Linefeed
Ctrl/U
Moves the cursor to the beginning of the line.
Deletes the word to the left of the cursor.
Deletes all characters on the same line as the cursor.
Unit Naming
The host operating system identifies the location of units based on a logical unit
numbering (LUN) scheme.
Each unit number contains the following:
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5–5
■
■
The first character is a letter indicating the kind of device in the storage unit: use
D for disk devices or P to indicate passthrough devices such as tape devices,
loaders, and libraries.
If entered, the next one or two digits indicate which target ID number is to access
the unit during normal operation. Use one of the controller’s SCSI target ID
numbers assigned to the controller with the SET controller ID command. Omit
leading zeroes for SCSI target ID numbers less than ten. For example, use 2
instead of 02 for a storageset being accessed through the controller SCSI target
ID number 0, LUN 2. The SCSI target ID number is initially set with the SET
the SET controller commands.
By carefully choosing the SCSI target ID number when adding units, the pre-
ferred paths for all of your storage units in a dual-redundant configuration can be
established. Data I/O load to the units can likewise be controlled by equally dis-
tributing unit access between the controllers.
NOTE: When operating in multiple bus failover mode, settings specified with the
PORT_1_PREFERRED_ID (or PORT_2) switch takes priority over settings assigned
with the SET controller PORT_1_ID (or PORT_2) switch.
■
■
The digit following the SCSI target ID number is always zero.
The last digit identifies the logical unit number (LUN) for the device or storage
unit. Acceptable LUN numbers are 0 through 31, depending on your operating
system.
Table 5–2 Unit Numbering Examples
Unit Number
D1207
D401
Device Type
disk
Target ID Number
LUN
7
12
disk
4
1
D39
(not an acceptable unit number)
0
D5
disk
5
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5–6 CLI Commands
Changing the CLI Prompt
You can change the CLI prompt that displays. Use the SET THIS_CONTROLLER
PROMPT command. Enter a 1- to 16- character string as the new prompt. For
example, you could use the prompt to indicate the array controller’s name, such as
“HSZ>.”
Command Syntax
Commands to the controller must use the following command structure:
COMMAND parameter SWITCHES
■
■
Command. A word or phrase expressed as a verb that is used to instruct the
controller what to do. Every CLI command begins with a command. Commands
are represented in this manual in capitalized form.
Parameter. When required in the command, one or more words or phrases that
supply necessary information to support the action of the command. Not all CLI
commands require parameters. the parts of parameters that have to be entered as
predefined text are in uppercase italics and the variables are in lower-case
italicized text.
■
Switches. An optional word or phrase that modifies the command. Not all CLI
commands require switches. Switches are represented in this manual as
capitalized, italicized text.
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ADD DISK
Names a disk drive and adds it to the controller’s configuration.
NOTE: The controller supports a maximum of 72 storage devices, even though
more than 72 target IDs are available. Do not exceed the maximum number of
devices in the subsystem.
Syntax
ADD DISK container-name scsi-port-target-lun
Parameters
container-name
Assigns a name to the disk device. This is the name used with the ADD UNIT
command to create a single-disk unit.
The disk name must start with a letter (A through Z) and may consist of a maximum
of nine characters including letters A through Z, numbers 0 through 9, periods (.),
dashes (-), or underscores (_).
IMPORTANT: It is common to name a disk drive DISKpttll, where pttll is the
disk’s Port-Target-LUN address. Although other naming conventions are accept-
able, this one presents the user with the type of disk drive and its SCSI location.
scsi-port-target-lun
Indicates the SCSI device PTL address. Place one space between the port number,
target number, and the two-digit LUN number when entering the PTL address. See
explanation of the PTL addressing naming format.
NOTE: See the HSZ80 Array Controller ACS Version 8.3 Release Notes to
determine whether the disk drive you are planning to use is compatible with the
controller.
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5–8 CLI Commands
Switches
NOTRANSPORTABLE (Default)
TRANSPORTABLE
Indicates whether a disk drive can be accessed exclusively by StorageWorks
controllers.
If the NOTRANSPORTABLE switch is specified, the controller makes a small
portion of the disk inaccessible to the host. This restricted space is used to store
information (metadata) used to improve data reliability, error detection, and the ability
to recover data. Because of this metadata, only StorageWorks controllers can retrieve
data from non-transportable devices.
Transportable disk drives do not contain any metadata or restricted areas. Therefore,
transportable disks forfeit the advantage metadata provides, but can be moved to a
non-StorageWorks environment with their data intact. Disks that are to be used in
storagesets cannot be set as transportable.
If you specify the NOTRANSPORTABLE switch and there is no metadata on the
unit, the unit must be initialized. If you specify TRANSPORTABLE for a disk that
was originally initialized as a NOTRANSPORTABLE, you should initialize the disk.
NOTE: Compaq recommends you avoid using transportable disks unless there is
no other way to move the data.
LOCAL (Default)
REMOTE
Specifies the disk characteristics in a mirrorset, either local or remote.
■
■
■
■
Disks set to REMOTE can only be added to mirrorsets and JBOD (that is, not
RAID5 raidsets).
Disks set to REMOTE can only be added to mirrorsets that are set to
DT_SUPPORT.
Disks set to LOCAL can be added to mirrorsets that are set to either
NODT_SUPPORT or DT_SUPPORT.
Disks set to REMOTE that are part of a mirrorset will not be the read source.
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5–9
■
Setting the switch to REMOTE forces a disk to be NOTRANSPORTABLE.
TRANSFER_RATE_REQUESTED=ASYNCHRONOUS
TRANSFER_RATE_REQUESTED=20MHZ (Default)
TRANSFER_RATE_REQUESTED=10MHZ
TRANSFER_RATE_REQUESTED=5MHZ
Specifies the maximum data transfer rate at which the controller is to communicate
with the disk drive. The user might need to limit the transfer rate to accommodate
long cables between the controllers and the device.
Examples
This example shows how to add DISK10000 at port 1, target 0, LUN 0:
ADD DISK DISK10000 1 0 0
This example shows how to add DISK40200 as a transportable disk drive to port 4,
target 2, LUN 0.
ADD DISK DISK40200 4 2 0 TRANSPORTABLE
This example shows how to:
■
Add a disk drive named DISK30200 as a non-transportable disk to port 3, target
2, LUN 0
■
Set the data transfer rate to 10 MHz.
Enter the following command on one line.
ADD DISK DISK30200 3 2 0 NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED=10MHZ
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5–10 CLI Commands
This example creates a host-addressable unit after the disk is added:
INITIALIZE DISK20000 2 0 0
ADD UNIT D199 DISK20000
This example shows how to add DISK200 as a remote disk drive to port 2, target 0,
LUN 0:
ADD DISK DISK200 2 0 0 REMOTE
See also
ADD MIRRORSET
ADD UNIT
DELETE container-name
LOCATE
SHOW DISKS
SHOW DEVICES
SET container-name
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5–11
ADD MIRRORSET
Names a mirrorset and adds it to the controller configuration.
Syntax
ADD MIRRORSET mirrorset-name disk-name1 [disk-nameN]
Parameters
mirrorset-name
Assigns a name to the mirrorset. This is the name used with the ADD UNIT
command to identify the mirrorset as a host-addressable unit.
The mirrorset name must start with a letter (A through Z) and may consist of a
maximum of nine characters including letters A through Z, numbers 0 through 9,
periods (.), dashes (-), or underscores (_).
IMPORTANT: It is common to name a mirrorset MIRRn, where n is a sequentially
assigned, unique identifier. Other naming conventions are acceptable, but this
naming convention presents both the type of container and its unique identifier in
an intuitive manner.
disk-name1 [disk-nameN]
Identifies the disk drives making up the mirrorset. A mirrorset may contain one to six
disk drives.
Switches
COPY=FAST
COPY=NORMAL (Default)
Sets the speed at which the controller copies data to a new member from normal
mirrorset members when data is being mirrored to the storageset’s disk drives.
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5–12 CLI Commands
Specify COPY=FAST to allow the creation of mirrored data to take precedence over
other controller operations. When you specify COPY=FAST, the controller uses more
resources to create the mirrored data, and copying takes less time. However, overall
controller performance is reduced.
Specify COPY=NORMAL when operations performed by the controller should take
priority over the copy operation. If you specify COPY=NORMAL creating the
mirrored data has a minimal impact on performance.
DT_SUPPORT
NODT_SUPPORT
Specifies if disaster tolerant functionality is enabled on this mirrorset. If some
members are or may be remote and disaster tolerant functionality is supported, set
DT_SUPPORT. If all members are—and intend to remain—local and disaster tolerant
functionality is not supported, set NODT_SUPPORT.
If DT_SUPPORT is enabled, the mirrorset has the following restrictions: NOPOLICY
is enforced and NOWRITEBACK_CACHE is enforced.
If NODT_SUPPORT is enabled and any of the members have REMOTE set, then the
command will fail with an error.
NOTE: This command will fail if you change the setting while the mirrorset is in use
by a higher level.
POLICY=BEST_FIT
POLICY=BEST_PERFORMANCE (Default)
NOPOLICY
Sets the selection criteria the controller uses to choose a replacement disk from the
spareset when a mirrorset member fails. If DT_SUPPORT is enabled, no policy can
be selected.
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Specify POLICY=BEST_FIT to choose a replacement disk drive from the spareset
that equals or exceeds the base member size (smallest disk drive at the time the
mirrorset was initialized). If there is more than one disk drive in the spareset that
meets the criteria, the controller selects a disk drive with the best performance. This
switch is not valid if DT_SUPPORT is enabled.
Specify POLICY=BEST_PERFORMANCE to choose a replacement disk drive from
the spareset with the best performance. The controller attempts to select a disk on a
different port than existing mirrorset members. If there is more than one disk drive in
the spareset matching the best performance criteria, the controller selects a disk drive
that equals or exceeds the base member size. This switch is not valid if
DT_SUPPORT is enabled.
Specify NOPOLICY to prevent the controller from automatically replacing a failed
disk device. The mirrorset operates in a reduced state until a POLICY=BEST_FIT or
POLICY=BEST_PERFORMANCE is selected, or a member is manually placed in
the mirrorset (see “SET mirrorset-name,” page 5–112).
READ_SOURCE=disk-name
READ_SOURCE=LEAST_BUSY (Default)
READ_SOURCE=ROUND_ROBIN
Selects the mirrorset member used by the controller to satisfy a read request. A
member with REMOTE set may be selected.
Specify the READ_SOURCE=disk-name of a specific member to which you want the
controller to direct all read requests. If the member fails out of the mirrorset, the
controller selects the first normal member it finds to satisfy its read requests.
Specify READ_SOURCE=LEAST_BUSY to direct read requests to the local
mirrorset disk with the least amount of work in its queue. If multiple disks have
equally short queues, the controller queries normal local disks for each read request as
it would when READ_SOURCE= ROUND_ROBIN is specified. If no normal local
disk exists, then the controller will query the remote disks.
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5–14 CLI Commands
Specify READ_SOURCE=ROUND_ROBIN to sequentially direct read requests to
each local mirrorset disk. The controller equally queries all normal local disks for
each read request. If no normal local disk exists, then the controller will query the
remote disks.
Examples
This example shows how to add DISK10000, DISK20100, and DISK30200 as a
mirrorset with the name MIRR1:
ADD DISK DISK10000 1 0 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30200 3 2 0
ADD MIRRORSET MIRR1 DISK10000 DISK20100 DISK30200
This example creates a host-addressable unit after the mirrorset MIRR1 has been
created:
INITIALIZE MIRR1
ADD UNIT D104 MIRR1
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See also
ADD DISK
ADD UNIT
DELETE container-name
INITIALIZE
MIRROR
REDUCE
SHOW mirrorset-name
SHOW MIRRORSETS
SHOW STORAGESETS
UNMIRROR
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5–16 CLI Commands
ADD PASSTHROUGH
Creates a passthrough container. A passthrough container bypasses controller
processing and allows the host to have direct access to the device. A passthrough
device appears as if it were connected directly to the host bus rather than to the
controller. Use passthrough containers to communicate with tape devices and tape
loaders because they do not require the controller for optimum operation
performance.
Passthrough units can be created for passthrough Command Console LUNs to allow
SWCC to configure and monitor the controllers and devices on the backend in a
remote mirroring implementation. The passthrough devices are automatically
configured by the controller if they exist. The unit above the passthrough is not
automatically configured by the controller.
Syntax
ADD PASSTHROUGH passthrough-name scsi-port-target-lun
Parameter
Names the device being added to or changed in a subsystem configuration. This is the
same name used with the ADD UNIT command to create a host-addressable unit. You
may want to use a name indicating the type of device is being added as a passthrough
container, such as TAPE or LOADER.
The container name must start with a letter (A through Z) and may consist of a
maximum of nine characters including letters A through Z, numbers 0 through 9,
periods (.), dashes (-), or underscores (_).
IMPORTANT: It is common to name a tape passthrough device TAPEpttll, where
pttll is the tape’s Port-Target-LUN address. Although other naming conventions
are acceptable, this naming convention offers the advantage of presenting to the
user both the type of device and its SCSI location in an intuitive manner.
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scsi-port-target-lun
Indicates the SCSI device PTL address. Place one space between the port number,
target number, and the two-digit LUN number when entering the PTL dress. See the
explanation of the PTL addressing naming format.
NOTE: See the HSZ80 Array Controller ACS Version 8.3 Release Notes to
determine whether the disk drive you are planning to use is compatible with the
controller.
TRANSFER_RATE_REQUESTED=ASYNCHRONOUS
TRANSFER_RATE_REQUESTED=20MHZ (Default)
TRANSFER_RATE_REQUESTED=10MHZ
TRANSFER_RATE_REQUESTED=5MHZ
Specifies the maximum data transfer rate for the controller to use in communicating
with the device. For example, the transfer rate may need to be limited to
accommodate long cables between the controller and the device, such as with a tape
library. The transfer rate is negotiated immediately and does not require a restart in
order to take effect.
Example
This example shows how to add tape device TAPE20300 at port 2, target 3, LUN 0:
ADD PASSTHROUGH TAPE20300 2 3 0
ADD UNIT P100 TAPE20300
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5–18 CLI Commands
See also
ADD UNIT
DELETE container-name
SHOW DEVICES
SHOW PASSTHROUGH
SHOW passthrough-name
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5–19
ADD RAIDSET
Names a RAIDset and adds the RAIDset to the controller’s configuration. Compaq
RAIDsets are often referred to as RAID level 3/5 storagesets because they use the best
characteristics of RAID level 3 and RAID level 5. The number of members in the
storageset is determined by the number of containers specified by the container-name
parameter in the command. The data capacity of the RAIDset is determined by the
storage size of the smallest member.
Syntax
ADD RAIDSET RAIDset-name container-name1 container-name2 container-name3
[container-nameN]
Parameters
RAIDset-name
Assigns a name to the RAIDset. This is the name used with the ADD UNIT command
to identify the RAIDset as a host-addressable unit.
The RAIDset name must start with a letter (A through Z) and may consist of a
maximum of nine characters including letters A through Z, numbers 0 through 9,
periods (.), dashes (-), or underscores (_).
IMPORTANT: It is common to name a RAIDset RAIDn, where n is a sequentially
assigned, unique identifier. This naming convention presents the user with the
type of container and its unique identifier.
container-name1 container-name2 container-name3 [container-nameN]
Identifies the disks making up the RAIDset. RAIDsets must include at least 3 disk
drives, and no more than 14.
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5–20 CLI Commands
Switches
POLICY=BEST_FIT
POLICY=BEST_PERFORMANCE (Default)
NOPOLICY
Set the selection criteria the controller uses to choose a replacement member from the
spareset when a RAIDset member fails.
Specify POLICY=BEST_FIT to choose a replacement disk drive from the spareset
that equals or exceeds the base member size (smallest disk drive at the time the
RAIDset was initialized) of the remaining members of the RAIDset. If more than one
disk drive in the spareset is the correct size, the controller selects a disk drive giving
the best performance.
Specify POLICY=BEST_PERFORMANCE to choose a replacement disk drive from
the spareset resulting in the best performance of the RAIDset. The controller attempts
to select a disk on a different port than existing RAIDset members. If there is more
than one disk drive in the spareset matching the best performance criteria, the
controller selects a disk drive that equals or exceeds the base member size of the
RAIDset.
Specify NOPOLICY to prevent the controller from automatically replacing a failed
disk device. This RAIDset operates in a reduced state until you select either
POLICY=BEST_PERFORMANCE or POLICY=BEST_FIT, or manually place a
information regarding this procedure.
RECONSTRUCT=FAST
RECONSTRUCT=NORMAL (Default)
Sets the speed at which the controller reconstructs data to a new RAIDset disk that
replaces the failed disk.
Specify FAST to allow the reconstruct process to take precedence over other
controller operations. When the RECONSTRUCT=FAST switch is specified, the
controller uses more resources to perform the reconstruction. Reconstruction takes
less time, but overall controller performance is reduced during reconstruction.
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5–21
Specify NORMAL to balance other controller operations with the reconstruct
operation. The controller uses relatively few resources to perform the reconstruct
process: there is little impact on performance.
REDUCED
NOREDUCED (Default)
Permits the addition of a RAIDset missing a member. Specify the REDUCED switch
when you add a reduced RAIDset (a RAIDset that is missing a member).
Specify the NOREDUCED switch when all the disks making up the RAIDset are
present—for instance, when creating a new RAIDset.
Verify the RAIDset contains all but one of its disks before specifying the REDUCED
switch.
Examples
This example shows how to create a RAIDset named RAID9 that contains disks
DISK10000, DISK20100, and DISK30200.
ADD DISK DISK10000 1 0 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30200 3 2 0
ADD RAIDSET RAID9 DISK10000 DISK20100 DISK30200
This example shows how to create a RAIDset named RAID8 that contains disks
DISK10000, DISK20100, and DISK30200, and uses the BEST_FIT switch to
indicate the replacement policy. Enter the ADD RAIDSET command on one line.
ADD DISK DISK10000 1 0 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30200 3 2 0
ADD RAIDSET RAID8 DISK10000 DISK20100 DISK30200 POLICY=BEST_FIT
This example creates RAIDset RAID8, and then creates a host-addressable unit.
INITIALIZE RAID8
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5–22 CLI Commands
ADD UNIT D70 RAID8
This example shows how you can create a three-member RAIDset from the members
of a reduced four-member RAIDset. Do not initialize the RAIDset again.
CAUTION: Data contained on the RAIDset will be erased if you reinitial-
ize the RAIDset.
ADD DISK DISK10300 1 3 0
ADD DISK DISK20400 2 4 0
ADD DISK DISK30200 3 2 0
ADD RAIDSET RAID6 DISK10300 DISK20400 DISK30200 REDUCED
See also
ADD UNIT
DELETE container-name
SET RAIDSET
SHOW RAIDSET
SHOW RAIDset-name
SHOW STORAGESETS
INITITALIZE
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5–23
ADD SPARESET
Adds a disk drive to the spareset.
Syntax
ADD SPARESET disk-name
Parameter
disk-name
Indicates the name of the disk drive being added to the spareset. Only one disk drive
can be added to the spareset with each ADD SPARESET command. Disks set to
REMOTE cannot be added to the spareset.
Example
This example shows how to add a disk drive named DISK20200 and DISK30300 to a
spareset:
ADD DISK DISK20200 2 2 0
ADD DISK DISK30300 3 3 0
ADD SPARESET DISK20200
ADD SPARESET DISK30300
See also
DELETE SPARESET
SHOW SPARESET
SHOW STORAGESETS
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5–24 CLI Commands
ADD STRIPESET
Names a stripeset and adds it to the controller configuration. Stripesets are sometimes
referred to as RAID level 0 storagesets. The number of members in the stripeset is
determined by the number of container-name parameters specified.
Syntax
ADD STRIPESET stripeset-name container-name1 container-name2
[container-nameN]
Parameters
stripeset-name
Assigns a name to the stripeset. This is the name used with the ADD UNIT command
to identify the stripeset as a host-addressable unit.
container-name1 container-name2 [container-nameN]
Identifies the members (disk drives or mirrorsets) making up the stripeset. Stripesets
can contain between 2 and 24 members.
The container name must start with a letter (A through Z) and may consist of a
maximum of nine characters including letters A through Z, numbers 0 through 9,
periods (.), dashes (-), or underscores (_).
IMPORTANT: It is common to name a stripeset STRIPEn, where n is a sequen-
tially assigned, unique identifier. This naming convention presents to the user
both the type of container and its unique identifier.
NOTE: A 240-character limit exists for the command line. If you are configuring a
stripeset with multiple members (for example, more than 20), you will have to
rename the members in order to execute the command.
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5–25
Examples
This example shows how to create a stripeset named STRIPE1 with three disks:
DISK10000, DISK20100, and DISK30200:
ADD DISK DISK10000 1 0 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30200 3 2 0
ADD STRIPESET STRIPE1 DISK10000 DISK20100 DISK30200
This example show how to create a stripeset named STRIPE1 and then create a
logical unit from it:
INITIALIZE STRIPE1
ADD UNIT D103 STRIPE1
This example shows how to create a two-member striped mirrorset (a stripeset whose
members are mirrorsets), and how to create a logical unit from it. Because you can
initialize the stripeset, you do not need to individually initialize the mirrorsets.
ADD DISK DISK10000 1 0 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30200 3 2 0
ADD DISK DISK40300 4 3 0
ADD MIRRORSET MR1 DISK10000 DISK20100
ADD MIRRORSET MR2 DISK30200 DISK40300
ADD STRIPESET STRIPE1 MR1 MR2
INITIALIZE STRIPE1
ADD UNIT D104 STRIPE1
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5–26 CLI Commands
See also
ADD UNIT
ADD MIRRORSET
DELETE container-name
INITIALIZE
SHOW STORAGESET
SHOW STRIPESET
SHOW stripeset-name
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5–27
ADD UNIT
Creates a logical unit from a device, container, or partition. The controller maps all
requests from the host to the logical-unit number as requests to the container specified
in the ADD UNIT command.
If you add a newly created storageset or disk to your subsystem, you must initialize it
before it can be added as a logical unit. If you are adding a storageset or disk that has
data on it that you want to maintain, do not initialize it; it will be added as a logical
unit.
Syntax
ADD UNIT unit-number container-name
Parameters
unit-number
Assigns a number to the unit being created from a device, container, or partition in the
subsystem. The host uses this number to indicate the source or target for every I/O
request it sends to the controller. The unit-number is a host-addressable LUN. The
unit-number is assigned to one of the host ports.
Containers must have units that are on a single port. Do not split partitioned units
across ports.
container-name
Specifies the name of the container (disk drive, device, storageset, or partition) being
used to create the unit.
A maximum of 48 devices can make up one unit.
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Switches
Table 5–3 lists all switches for the ADD UNIT command and identifies which
switches may be used with each type of device or storageset. Descriptions of each
switch follow the table.
Table 5–3 ADD UNIT Switches for Storagesets
Container Type
RAIDset
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
Stripeset
Mirrorset
NoTransportable
Disk
Transportable
Disk
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
Passthrough
NOTE: Regardless of the storageset type, you cannot specify RUN and NORUN for
partitioned units.
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ENABLE_ACCESS_PATH=
DISABLE_ACCESS_PATH=
THIS_PORT_1_ENABLE_ACCESS_PATH=
THIS_PORT_1_DISABLE_ACCESS_PATH=
THIS_PORT_2_ENABLE_ACCESS_PATH=
THIS_PORT_2_DISABLE_ACCESS_PATH=
OTHER_PORT_1_ENABLE_ACCESS_PATH=
OTHER_PORT_1_DISABLE_ACCESS_PATH=
OTHER_PORT_2_ENABLE_ACCESS_PATH=
OTHER_PORT_2_DISABLE_ACCESS_PATH=
Specifies the access path. It can be a single specific host ID, multiple host IDs, or all
host IDs (ALL). If you have multiple hosts on the same bus, you can use this switch to
restrict hosts from accessing certain units. This switch limits visibility of specific
units from certain hosts. For example, if two hosts are on the same bus, you can
restrict each host to access only specific units.
ENABLE_ACCESS_PATH and DISABLE_ACCESS_PATH switches are available
only when in transparent mode; the other switches are available only when in multiple
bus failover mode.
If you enable another host ID, previously enabled hosts are not disabled. The new IDs
are added. If you wish to enable only certain IDs, disable all access paths
(DISABLE_ACCESS_PATH=ALL or
THIS(OTHER)_PORT_1(2)_DISABLE_ACCESS_PATH=ALL), then enable the
desired IDs. The system will display the following message (transparent failover
mode, typical):
Warning 1000: Access IDs in addition to the one(s) specified are still
enabled. If you wish to enable ONLY the id(s) listed, disable all
access paths (DISABLE_ACCESS_PATH=ALL), then enable the ones
previously listed.
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PARTITION=partition_number
Identifies the unit number for a partition on a container. The partition-number
identifies the partition associated with the unit number being added. Use the SHOW
container-name command to find the partition numbers used by a storageset or a
single-disk unit.
NOTE: Do not split partitioned units across ports. Partitioned units must be on a
single port.
MAXIMUM_CACHED_TRANSFER=32 (Default)
MAXIMUM_CACHED_TRANSFER=n
Sets the largest number of write blocks to be cached by the controller. The controller
will not cache any transfers over the set size. Accepted write block sizes are 1 through
2048.
PREFERRED_PATH=OTHER_CONTROLLER
PREFERRED_PATH=THIS_CONTROLLER
NOPREFERRED_PATH (Default)
May be set only when dual-redundant controllers are operating in a multiple bus
failover configuration. In a multiple bus failover configuration, the host determines
which controller the units are accessed through. The host’s unit-to-controller settings
always take precedence over the preferred path assigned to units with this switch. The
target ID numbers assigned with the SET controller PORT_1_ID (or PORT_2)
command determines which target ID number the controller uses to respond to the
host.
NOTE: If your controllers are configured to operate in transparent-failover mode,
do not set the PREFERRED_PATH switch with the ADD UNIT or SET unit-number
command—otherwise, an error message is displayed. The error message
indicates the assignment of a preferred controller path at the unit level is valid only
when operating in multiple bus failover mode.
When no preferred path is assigned, the unit is targeted through the controller which
detects the unit first after the controllers start.
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Select PREFERRED_PATH=THIS_CONTROLLER to instruct “this controller” to
bring the units online.
Select PREFERRED_PATH=OTHER_CONTROLLER to instruct the “other
controller” to bring the units online.
See Chapter 2 for information regarding multiple bus failover.
IMPORTANT: Subsystem performance is better if target ID numbers are bal-
anced across the dual-redundant pair.
READ_CACHE (Default)
NOREAD_CACHE
Sets the controller’s read-cache policy function.
Read caching improves performance in almost all situations. Therefore, it is
recommended you leave its default setting, READ_CACHE, enabled. However, under
certain conditions, such as when performing a backup, read caching may not be
necessary since only a small amount of data is cached. In such instances, it may be
beneficial to disable the read cache function and remove the processing overhead
associated with caching data.
READAHEAD_CACHE (Default)
NOREADAHEAD_CACHE
Enables the controller to keep track of read I/Os. If the controller detects sequential
read I/Os from the host, it will then try to keep ahead of the host by reading the next
sequential blocks of data (those the host has not yet requested) and put the data in
cache. This process is sometimes referred to as prefetch. The controller can detect
multiple sequential I/O requests across multiple units.
Read ahead caching improves host application performance since the data will be read
from the controller cache instead of disk. Read ahead caching is the default for units.
If you are adding a unit that is not expected to get sequential I/O requests, select
NOREADAHEAD_CACHE for the unit.
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RUN (Default)
NORUN
Controls the unit’s availability to the host.
Specify RUN to make a unit available to the host.
Specify NORUN to make a unit unavailable to the host and to cause any data in cache
to be flushed to one or more drives. NORUN spins down all the disks used in the unit.
The drives making up the unit spin down after the data has been completely flushed.
NOTE: Do not specify the RUN and NORUN switches for partitions.
WRITE_PROTECT (Default)
NOWRITE_PROTECT
Tells the controller whether data contained on the unit can be overwritten.
Specify WRITE_PROTECT to prevent host write operations to the unit. However, the
controller may still write to a write-protected RAIDset to satisfy a reconstruct pass or
to reconstruct a newly replaced member. Additionally, metadata, reconstruct, and
copy writes are still allowed to RAIDsets and mirrorsets.
Specify NOWRITE_PROTECT to allow the host to write data to the unit. This allows
the controller to overwrite existing data. NOWRITE_PROTECT is the default for
transportable disks.
WRITEBACK_CACHE (Default)
NOWRITEBACK_CACHE
Enable or disable the write-back data caching function of the controller. The
controller’s write-back caching feature improves write performance.
NOWRITEBACK_CACHE is the default on transportable disks.
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5–33
Specify WRITEBACK_CACHE for all new RAIDsets, mirrorsets, and units you want
to take advantage of the controller’s write-back caching feature.
WRITEBACK_CACHE cannot be enabled on units with an underlying
DT_SUPPORT mirrorset container.
Specify NOWRITEBACK_CACHE for units you want to receive data directly from
the host without being cached.
CAUTION: Though there is built-in redundancy to protect data contained
in cache, allowing data to be written to write-back cache may result in
the loss of data if the controller fails.
NOTE: The controller may take up to five minutes to flush data contained within
the write-back cache when you specify the NOWRITEBACK_CACHE switch.
Examples
This example shows how to create unit D102 from a single-disk drive named
DISK10000 and sets the host’s access to the unit through “this controller”:
ADD DISK DISK10000 1 0 0
INITIALIZE DISK10000
ADD UNIT D102 DISK10000 PREFERRED_PATH=THIS_CONTROLLER
This example shows how to create unit D107 from a RAIDset named RAID9 and
instructs the unit to take advantage of the controller’s write-back caching feature.
ADD DISK DISK10100 1 1 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30100 3 1 0
ADD DISK DISK40100 4 1 0
ADD RAIDSET RAID9 DISK10100 DISK20100 DISK30100 DISK40100
INITIALIZE RAID9
ADD UNIT D107 RAID9 WRITEBACK_CACHE
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5–34 CLI Commands
See also
CREATE_PARTITION
DELETE unit-number
SET unit-number
SHOW UNITS
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5–35
CLEAR_ERRORS CLI
Stops the display of current or previous error messages at the CLI prompt. This
command does not clear the error conditions, it only stops the display of errors at the
CLI prompt.
After the cause of the error condition has been corrected, issue the CLEAR_ERRORS
CLI command to clear the error message.
NOTE: There are three message types: info—general information; warning—user
may want to examine, but command will be executed; and error—command will
not execute.
Syntax
CLEAR_ERRORS CLI
Example
This example shows how to clear the message “All NVPM components initialized to
their default settings” from the CLI prompt:
All NVPM components initialized to their default settings
CLEAR_ERRORS CLI
See also
CLEAR_ERRORS controller INVALID_CACHE
CLEAR_ERRORS unit-number LOST_DATA
CLEAR_ERRORS device-name UNKNOWN
CLEAR_ERRORS unit-number UNWRITEABLE_DATA
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CLEAR_ERRORS controller INVALID_CACHE
Clears an invalid cache error and allows the controller and cache to resume operation.
If the error is due to an incorrectly mirrored configuration, the controller indicates
mirrored mode status after the error is cleared.
Use this command for the following situations:
■
When the controller or cache modules have been replaced, resulting in
mismatched data between the controllers.
■
When the controller or cache module is replaced while data is still in cache and
not properly flushed with the SHUTDOWN or SET NOFAILOVER commands.
Syntax
CLEAR_ERRORS controller INVALID_CACHE
Spell out INVALID_CACHE when using this command.
Parameters
controller
Identifies which controller is to receive the CLEAR_ERRORS command. You must
specify THIS_CONTROLLER or OTHER_CONTROLLER.
data-retention-policy
DESTROY_UNFLUSHED_DATA
NODESTROY_UNFLUSHED_DATA (Default)
Instructs the controller how to handle write-back cached data.
Specify NODESTROY_UNFLUSHED_DATA(default) to retain the cached data and
discard controller information.
Specify DESTROY_UNFLUSHED_DATA to retain the controller information and
discard the cached data.
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Specify NODESTROY_UNFLUSHED_DATA in the following situations:
■
■
If the controller module has been replaced.
If the controller’s nonvolatile memory (NVMEM) has lost its contents.
Specify DESTROY_UNFLUSHED_DATA in the following situations:
■
■
If the cache module has been replaced.
Any other reason not listed above.
CAUTION: Specifying the DESTROY_UNFLUSHED_DATA switch destroys
data remaining in cache, which can result in data loss.
Examples
This example shows how to clear an invalid cache error on “this controller” after you
have replaced a controller module. Enter the command on one line.
CLEAR_ERRORS THIS_CONTROLLER INVALID_CACHE
NODESTROY_UNFLUSHED_DATA
This example shows how to clear an invalid cache error on the “other controller” after
a cache module has been replaced. Enter the command on one line.
CLEAR_ERRORS OTHER_CONTROLLER INVALID_CACHE
DESTROY_UNFLUSHED_DATA
See also
CLEAR_ERRORS CLI
CLEAR_ERRORS LOST_DATA
CLEAR_ERRORS UNKNOWN
CLEAR_ERRORS UNWRITEABLE_DATA
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CLEAR_ERRORS device-name UNKNOWN
If a device failure causes the controller to label the device as unknown, the controller
does not check the device again to see if it has been repaired or if the error condition
has been corrected. You must enter this command so the controller can recognize the
device after the cause of the error has been corrected.
Use this command to force the controller to recognize a failed device, regardless of
the controller’s prior evaluation of the device’s condition.
Syntax
CLEAR_ERRORS device-name UNKNOWN
Spell out UNKNOWN when using this command.
Parameters
device-name
Identifies the device with the unknown error.
Example
This example shows how to force the controller to recognize a previously unknown
device named DISK30000:
CLEAR_ERRORS DISK30000 UNKNOWN
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5–39
See also
CLEAR_ERRORS CLI
CLEAR_ERRORS INVALID_CACHE
CLEAR_ERRORS UNKNOWN
CLEAR_ERRORS UNWRITEABLE_DATA
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5–40 CLI Commands
CLEAR_ERRORS unit-number LOST_DATA
Clears lost data errors on a unit and all partitions on the unit’s container are affected.
The controller reports a lost data error on the unit when you remove a write-back
cache module or when the cache module contains unflushed data, possibly due to an
interruption in the primary power source with no backup power present. The
CLEAR_ERRORS LOST_DATA command clears the lost data error but does not
recover the lost data.
NOTE: Clearing lost data errors or lost data block errors on a RAIDset causes a
reconstruction of all parity blocks. Clearing lost data errors or lost data block errors
on a mirrorset causes members to normalize.
Syntax
CLEAR_ERRORS unit-number LOST_DATA
Spell out LOST_DATA when using this command.
CAUTION: This command may cause data loss.
Parameters
unit-number
Identifies the unit on which the lost data error is to be cleared. The unit-number is the
same name given to the unit when you added it to the controller’s configuration.
Example
This example shows how to clear the lost data error on disk unit number D103:
CLEAR_ERRORS D103 LOST_DATA
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See also
CLEAR_ERRORS CLI
CLEAR_ERRORS INVALID_CACHE
CLEAR_ERRORS UNKNOWN
CLEAR_ERRORS UNWRITEABLE_DATA
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5–42 CLI Commands
CLEAR_ERRORS unit-number
UNWRITEABLE_DATA
Clears an unwriteable data error on a unit.
It affects all partitions on the same container.
If a storageset or disk drive fails before its data has been written to it, the controller
reports an unwriteable data error. The CLEAR_ERRORS UNWRITEABLE_DATA
command removes the data from the cache and clears the unwriteable data error.
CAUTION: This command causes data loss.
Syntax
CLEAR_ERRORS unit-number UNWRITEABLE_DATA
Spell out UNWRITEABLE_DATA when using this command.
Parameters
unit-number
Identifies the unit having the unwriteable data error. The unit-number is the name
given to the unit when it was created with the ADD UNIT command.
Example
This example shows how to clear the unwriteable data error on disk unit D103:
CLEAR_ERRORS D103 UNWRITEABLE_DATA
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See also
CLEAR_ERRORS CLI
CLEAR_ERRORS INVALID_CACHE
CLEAR_ERRORS LOST_DATA
CLEAR_ERRORS UNKNOWN
RETRY_ERRORS UNWRITEABLE_DATA
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5–44 CLI Commands
CONFIGURATION RESET
Erases the entire configuration on “this controller,” restores the controller’s default
configuration, and shuts down the controller.
NOTE: If you plan to use this feature, SAVE_CONFIGURATION must be set when you
initialize the container. See “INITIALIZE,” page 5–62.
Specify the CONFIGURATION RESET command on “this controller” in nofailover
mode only. Enter this command to ensure all of the old configuration information is
removed when a controller is moved from one subsystem to another.
This command disables communication between host and controller. Enter new
configuration information through the SET THIS_CONTROLLER command or the
CONFIGURATION RESTORE command to make the controller operational.
You can also initiate the CONFIGURATION RESET command from the controller’s
operator control panel (OCP) by holding in port button 5 and pressing the reset
button.
Syntax
CONFIGURATION RESET
See also
CONFIGURATION RESTORE
CONFIGURATION SAVE
INITIALIZE
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CONFIGURATION RESTORE
Copies a controller’s configuration from the disk configuration file into the
controller’s non-volatile memory. This command locates the most recent
configuration file created on disk and restores it. This command causes a reboot and
takes effect immediately.
Use this command for a single controller configuration only. Do not use it for
controllers in a dual-redundant configuration.
You can also initiate the CONFIGURATION RESTORE command from the
controller’s operator control panel (OCP) by holding in port button 6 and pressing the
reset button.
NOTE: The controller must not have devices configured prior to issuing this
If the controller you’re installing was previously used in another subsystem, it will
restart with the configuration that resides in its nonvolatile memory. If this differs
from the subsystem’s current configuration, you can purge the controller’s old
configuration with the following command:
CONFIGURATION RESET
This will erase the entire configuration on the controller, restore the controller’s
default configuration, and shut down the controller. Press its reset button to restart the
controller after the controller has been configured (see “Configuring an HSZ80 Array
NOTE: The INITIALIZE container-name SAVE_CONFIGURATION must be used to
save the controller’s configuration to a disk (see “SAVE_CONFIGURATION,” page
to restore the configuration (see “CREATE_PARTITION,” page 5–48).
Syntax
CONFIGURATION RESTORE
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See also
CONFIGURATION RESET
CONFIGURATION SAVE
INITIALIZE
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5–47
CONFIGURATION SAVE
Forces a current copy of configuration information in a controller’s non-volatile
memory into a configuration file on a disk. This allows the user to determine when a
copy of the configuration is saved. Use this command to explicitly save a single
controller’s configuration. The command takes effect immediately. In a dual-
redundant configuration, issue this command to both controllers.
Use the INITIALIZE container-name SAVE_CONFIGURATION command to set up
the location of the configuration file on disk.
Syntax
CONFIGURATION SAVE
See also
CONFIGURATION RESET
CONFIGURATION RESTORE
INITIALIZE
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5–48 CLI Commands
CREATE_PARTITION
Divides a non-transportable disk drive storageset into several, separately addressable
storage units. The command marks a specified percentage of a disk drive or storageset
to be used as a separately addressable unit. You can divide any nontransportable disk
or storageset into a maximum of eight partitions. Each partition can be separately
presented to the host. Partitions are not supported in multiple bus failover mode.
Initialize disks and storagesets before creating partitions.
NOTE: Partitioned units cannot function in multiple bus failover dual-redundant
configurations. Because they are not supported, you must delete your partitions
before configuring the controllers for multiple bus failover.
After you partition a container, you must initialize it in order to destroy the partitions.
Syntax
CREATE_PARTITION container-name SIZE=percent
Parameters
container-name
Identifies the disk or storageset to partition. This is the same name given to the disk or
storageset when it was created with the ADD command (for example, ADD DISK,
ADD STRIPESET, and so forth). Any disk, stripeset, mirrorset, striped mirrorset, or
RAIDset can be partitioned. A transportable disk cannot be partitioned. You must
initialize the container before creating the first partition.
SIZE=percent
SIZE=LARGEST
Specifies the size of the partition to be created as a percentage of the total container’s
storageset size.
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To create a partition, specify a percentage of the container’s total capacity. The entire
container is then divided into segments equal to the percentage specified. For
example, if SIZE=20, the container is divided into five (1.0/0.2=5) equal segments.
The resulting partition is slightly smaller than the size specified because metadata
also occupies some of partition’s allocated space.
Specify LARGEST in the following situations:
■
To have the controller create the largest partition possible from unused space on
the disk or storageset.
■
To create the last partition on a container. Because the remaining space is not
equal to an exact percentage value, specifying LARGEST allows you to optimize
use of the remaining space.
CAPACITY=
CYLINDERS=
HEADS=
SECTORS_PER_TRACK=
CAPACITY may be specified 1 to the maximum container size (in blocks);
CYLINDERS may be specified 1 to16,777,215; HEADS may be specified 1 to 255;
and SECTORS_PER_TRACK may be specified 1 to 255.
NOTE: These are used to set the SCSI parameters reported to the host. They
should not be used unless there is a compatibility problem with the existing
defaults.
The geometry parameter switches for the INITIALIZE command are ignored when
you create partitions. The parameters supplied with the CREATE_PARTITION
command are used by the unit.
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5–50 CLI Commands
Example
This example shows how to create a RAIDset named RAID9 and divide it into four
equal parts. It also creates host-addressable units for each partition:
ADD DISK DISK10000 1 0 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30200 3 2 0
ADD RAIDSET RAID9 DISK10000 DISK20100 DISK30200
INITIALIZE RAID9
CREATE_PARTITION RAID9 SIZE=25
CREATE_PARTITION RAID9 SIZE=25
CREATE_PARTITION RAID9 SIZE=25
CREATE_PARTITOIN RAID9 SIZE=LARGEST
ADD UNIT D101 RAID9 PARTITION=1
ADD UNIT D102 RAID9 PARTITION=2
ADD UNIT D103 RAID9 PARTITION=3
ADD UNIT D104 RAID9 PARTITION=4
See also
ADD UNIT
DELETE unit-number
DESTROY PARTITION
SHOW
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DELETE container-name
Deletes a container belonging to the controller’s configuration. You cannot delete a
container in use by a higher-level container. For example, you cannot delete a disk
belonging to a member of a RAIDset, or a RAIDset unit; you must first delete the
higher-level container or containers.
NOTE: This command does not delete spareset or failedsets. You cannot delete
spareset and failedset containers. See the DELETE FAILEDSET and DELETE
SPARESET commands for details.
When a storageset is deleted, the individual disks are free to be used by another
container. If you create the container again with the exact same disk configuration,
and none of the disks have been used for anything, or initialized, then the container
can be reassembled using its original disks.
Syntax
DELETE container-name
Parameters
container-name
Identifies the container to be deleted. This is the name given to the container when it
was created using the ADD command (for example, ADD DISK, ADD STRIPESET,
and so forth).
Examples
This example shows how to delete a disk drive named DISK10000:
DELETE DISK10000
This example shows how to delete a stripeset named STRIPE1:
DELETE STRIPE1
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5–52 CLI Commands
This example shows how to delete a RAIDset named RAID9:
DELETE RAID9
See also
DELETE FAILEDSET
DELETE SPARESET
UNMIRROR
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5–53
DELETE FAILEDSET
Removes a disk drive from the failedset. The failedset contains disk drives removed
by the controller from RAIDsets and mirrorsets because they failed or were manually
removed using the SET command. Enter the DELETE FAILEDSET command before
physically removing failed members from the storage shelf for testing, repair, or
replacement.
You should consider defective all disk drives in the failedset. Repair or replace disks
found in the failedset.
Syntax
DELETE FAILEDSET disk-name
Parameter
disk-name
Identifies the disk you want to delete from the failedset. Only one disk at a time can
be removed from a failedset.
Example
This example shows how to delete DISK20200 from the failedset:
DELETE FAILEDSET DISK20200
See also
SET FAILEDSET
SHOW FAILEDSET
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5–54 CLI Commands
DELETE SPARESET
Removes a disk drive from the spareset.
Syntax
DELETE SPARESET disk-name
Parameter
disk-name
Identifies the disk drive being deleted from the spareset. Remove only one disk at a
time from a spareset.
Example
This example shows how to remove DISK20300 from the spareset:
DELETE SPARESET DISK20300
See also
ADD SPARESET
SHOW SPARESET
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5–55
DELETE unit-number
Deletes a logical unit from the controller configuration. The host cannot address
deleted units. If the controller’s write-back caching feature is enabled, the controller
flushes the cached data to the unit’s devices before deleting the unit.
Before using the DELETE unit-number command, clear any errors with the
CLEAR_ERRORS UNWRITEABLE_DATA or CLEAR_ERRORS LOST_DATA
commands.
Syntax
DELETE unit-number
Parameter
unit-number
Identifies the unit number to be deleted. The unit-number is the same name given to
the unit when it was created using the ADD UNIT command.
Example
This example shows how to delete disk unit number D103:
DELETE D103
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See also
ADD UNIT
CLEAR_ERRORS LOST_DATA
CLEAR_ERRORS UNWRITEABLE_DATA
DELETE container-name
DELETE FAILEDSETS
DELETE SPARESETS
DESTROY_PARTITION
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5–57
DESTROY_PARTITION
Marks the area reserved for a partition as available. The freed area is then
consolidated with any adjacent free areas.
CAUTION: Data contained on a partition is lost when you enter the
DESTROY_PARTITION command.
You cannot destroy a partition that has been assigned a unit number. First enter the
DELETE unit-number command to delete the unit using the partition.
After you partition a container, you must initialize it in order to destroy the partitions.
Syntax
DESTROY_PARTITION container-name PARTITION=partition-number
Parameters
container-name
Identifies the disk or storageset containing the partition to be destroyed. This is the
name given to the container when it was created using the ADD command (for
example, ADD DISK, ADD STRIPESET, and so forth).
partition-number
Identifies the partition to be destroyed. Use the SHOW container-name command to
identify the correct partition before carrying out the DESTROY_PARTITION
command.
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Example
This example shows how to delete the unit for partition 2 on RAIDset RAID9 and
destroy the partition:
DELETE D102
DESTROY_PARTITION RAID9 PARTITION=2
See also
CREATE_PARTITION
DELETE unit-number
SHOW
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5–59
DIRECTORY
Lists the diagnostics and utilities available on “this controller.”
Syntax
DIRECTORY
Example
This example shows how to display a directory listing:
DIRECTORY
HSUTIL V83Z D
FRUTIL V83Z D
CHVSN V83Z D
CLCP V83Z D
CLONE V83Z D
CONFIG V83Z D
DILX V83Z D
DIRECT V83Z D
DSTAT V83Z D
FMU V83Z D
VTDPY V83Z D
NOTE: CHVSN and DSTAT are not user utilities. They may be used by Compaq
authorized service personnel only.
See also
RUN
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HELP
Displays a brief explanation of how to use the question mark (?) to obtain help on any
command or CLI function. You must precede the question mark with a space.
Syntax
HELP
Example
This example shows how to display information regarding the HELP command:
HELP
Help may be requested by typing a question mark (?) at the CLI prompt.
This will print a list of all available commands For further information
you may enter a partial command and type a space followed by a (?) to
print a list of all available options at that point in the command. For
example:
SET THIS_CONTROLLER ?
Prints a list of all legal SET THIS_CONTROLLER commands
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This example shows how to get help on the SET command using the question mark
(?):
SET ?
Your options are:
EMU
FAILEDSET
FAILOVER
NOFAILOVER
MULTIBUS_FAILOVER
NOMULTIBUS_FAILOVER
OTHER_CONTROLLER
THIS_CONTROLLER . . . . . . . . . . . . . . . . . . . . . .
Unit number or mirrorset or raidset or device name
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5–62 CLI Commands
INITIALIZE
Initializes or destroys metadata on a container. During initialization, a small amount
of disk space is reserved for controller metadata and is made inaccessible to the host.
Disks made transportable do not contain controller metadata.
Syntax
INITIALIZE container-name
CAUTION: The INITIALIZE command destroys all user data on the con-
tainer unless you enter the NODESTROY switch. The NODESTROY switch
is only valid on mirrorsets and striped mirrorsets.
If you initialize a transportable disk, any metadata contained on the disk is destroyed
and the entire disk drive is accessible by the host. The drive does not have the error
detection and data security provided by the metadata that is on notransportable disks.
Use the INITIALIZE command when:
■
■
■
Creating a unit from a newly installed disk.
Creating a unit from a newly created RAIDset, stripeset, or mirrorset.
Initializing the data structure of a previously partitioned container.
Do not use the INITIALIZE command when:
■
Creating a unit from the same disks previously initialized, such as when a
RAIDset is moved.
■
■
Creating a storageset from existing members.
Adding a RAIDset with the REDUCED switch.
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5–63
Parameters
container-name
Specifies the container to initialize. This is the same name given to the disk or
storageset when it was created using the ADD command (for example, ADD DISK,
ADD STRIPESET, and so forth).
Switches
CAPACITY=
CYLINDERS=
HEADS=
SECTORS_PER_TRACK=
CAPACITY may be specified 1 to the maximum container size (in blocks);
CYLINDERS may be specified 1 to16,777,215; HEADS may be specified 1 to 255;
and SECTORS_PER_TRACK may be specified 1 to 255.
NOTE: These are used to set the SCSI parameters reported to the host. They
should not be used unless there is a compatibility problem with the existing
defaults.
The geometry parameter switches for the INITIALIZE command are ignored when
you create partitions. The parameters supplied with the CREATE_PARTITION
command are used by the unit.
CHUNKSIZE=DEFAULT (Default)
CHUNKSIZE=n
Specifies the block chunk size to be used for RAIDsets and stripesets. You can specify
the chunk block size by entering CHUNKSIZE=n, or allow the controller to
determine the optimal chunk block size by entering CHUNKSIZE=DEFAULT.
NOTE: The CHUNKSIZE switch is only valid with stripesets and raidsets.
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The default chunk size for storagesets with less than nine members is 256 blocks, or
128 kilobytes (K). The default chunk size for storagesets with more than nine
members is 128 blocks, or 64K. The default values provide optimal storageset
performance for a wide variety of applications. A chunk size less than 128 blocks
(64K) is not recommended.
IMPORTANT: Accept the default chunk size setting for most applications. Do not
change the default setting unless you are fully aware of the impact to the storag-
eset’s performance.
settings for your application.
DESTROY (Default)
NODESTROY
Controls how the metadata on the initialized container is to be handled.
NOTE: The DESTROY and NODESTROY switches are only valid with stripesets and
mirrorsets.
Specify NODESTROY to preserve forced error metadata during the initialization
process. Use the NODESTROY switch only when a unit is to be created from disk
drives reduced from mirrorsets. This allows the data on the container to be accessed
by a disk, stripeset, or mirrorset unit. The NODESTROY switch is not valid for
RAIDsets and single-disk configurations.
Specify DESTROY to overwrite user data and forced error flags during the
initialization.
SAVE_CONFIGURATION
NOSAVE_CONFIGURATION (Default)
Instructs the controller whether to save the controller’s configuration to the container
being initialized.
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5–65
The SAVE_CONFIGURATION switch requires only one disk to be initialized with
this option. However, more disks may be used, if desired, for redundancy.
Specify SAVE_CONFIGURATION to store a copy of the controller configuration on
the container being initialized. A new controller can receive information from a
container containing configuration information saved with the
SAVE_CONFIGURATION switch. If you specify SAVE_CONFIGURATION for a
multi-device storageset, such as a stripeset, the complete controller configuration
information is stored on each disk drive in the storageset.
A disk drive initialized with the SAVE_CONFIGURATION switch specified has
slightly less storage space available for user data.
Specify NOSAVE_CONFIGURATION if you do not want to store a copy of the
controller configuration on a container.
regarding SAVE_CONFIGURATION.
Examples
This example shows how to initialize container DISK10000 and how to save a copy of
the controller configuration on it.
ADD DISK DISK10000 1 0 0
INITIALIZE DISK10000 SAVE_CONFIGURATION
The following example shows sample devices with the SAVE_CONFIGURATION
switch enabled:
SHOW DEVICES FULL
Name
-----------------------------------------------------------------------------
DISK10000disk S2
Type
Port Targ Lun
Used by
1
0
0
DEC RZ28M (C) DEC 1003
Switches:
NOTRANSPORTABLE
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TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 10.00 MHZ negotiated)
LOCAL
Size: 4108970 blocks
Configuration being backed up on this container
DISK30300
disk
3
3
0
S2
DEC RZ28M (C) DEC 1003
Switches:
NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 10.00 MHZ negotiated)
LOCAL
Size: 4108970 blocks
Configuration being backed up on this container
This example shows how to initialize stripeset STRIPE1 with the default chunk size.
The chunk size is not specified, so the controller initializes the unit with the default
chunk size.
ADD DISK DISK10100 1 1 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30100 3 1 0
ADD STRIPESET STRIPE1 DISK10100 DISK20100 DISK30100
INITIALIZE STRIPE1
This example shows how to initialize RAIDset RAID9 with a chunk size of 20:
ADD DISK DISK10200 1 2 0
ADD DISK DISK20200 2 2 0
ADD DISK DISK30200 3 2 0
ADD RAIDSET RAID9 DISK10200 DISK20200 DISK30200
INITIALIZE RAID9 CHUNKSIZE=20
This example shows how to initialize DISK40400 and preserve the data after it is
removed (reduced) from a mirrorset:
REDUCE DISK40400
INITIALIZE DISK40400 NODESTROY
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LOCATE
Indicates the physical location of configured units, storagesets, and devices by
flashing the amber device fault LED on the front of the storage building block (SBB).
The device fault LED flashes once per second until turned off with the LOCATE
CANCEL command. The LOCATE command can also be used to test the LED itself.
The device fault LED on a failed device stays on continuously. When located, the
device fault LED on a good device flashes. The flashing LED helps to distinguish
between located devices and failed devices. The device fault LED on failed devices
stays on after the LOCATE CANCEL command is entered.
NOTE: LOCATE issued on a frontend controller will not locate devices hanging off a
backend controller.
Syntax
LOCATE parameter
Parameters
Only one of the following parameters may be entered with each LOCATE command.
ALL
Causes the green device fault LEDs of all configured devices to flash. You can also
specify ALL to test all of the LEDs at once. Enter LOCATE CANCEL to turn off the
LEDs.
CANCEL
Turns off all green device fault LEDs turned on with the LOCATE command.
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5–68 CLI Commands
DISKS
Causes the green device fault LEDs of all configured disks to flash. Enter LOCATE
CANCEL to turn off the LEDs.
PTL (SCSI-location)
Causes the green device fault LED on the device at the given SCSI location to flash.
explanation of the PTL addressing naming format.
Not all devices have a device fault LED. Therefore, they do not appear to respond to
the LOCATE command.
UNITS
Causes the green device fault LEDs of all devices used by the units to flash. This
command is useful to determine which devices are not currently configured into
logical units. Enter LOCATE CANCEL to turn off the device fault LEDs.
container-name
Causes the amber device fault LEDs on the devices within the container-name to
flash. If a device name is given, the device's fault LED is turned on. If a storageset
name is given, the fault LED on all of the devices assigned to the storageset turns on.
Use LOCATE CANCEL to turn off the LEDs.
unit-number
Causes the green device fault LEDs on the devices making up the unit-number to
flash. Use LOCATE CANCEL to turn off the LEDs.
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Examples
This example shows how to cause the amber device fault LED on device DISK10000
to flash:
LOCATE DISK10000
LOCATE CANCEL
This example shows how to cause the device fault LEDs on all of the devices assigned
to disk unit number D102 to flash:
LOCATE D102
This example shows how to cause the device fault LEDs on all configured disk
devices to flash:
LOCATE DISKS
This example shows how to turn off the flashing device fault LEDs on all devices:
LOCATE CANCEL
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5–70 CLI Commands
MIRROR
Creates a one-member mirrorset from a single disk. This command is used only on
disks configured as units or members of a stripeset. Enter the ADD MIRRORSET
command to create a mirrorset from disk drives not already members of higher level
containers.
After the disk drive is converted to a mirrorset, increase the nominal number of
members by entering the SET mirrorset-name MEMBERSHIP=number-of-members
command, then enter the SET mirrorset-name REPLACE=disk-name command to
add more members to the mirrorset.
NOTE: This command is also valid for a REMOTE disk, resulting in a single member
mirrorset with DT_SUPPORT enabled.
Syntax
MIRROR disk-name mirrorset-name
Parameters
disk-name
Specifies the name of the disk to convert to a one-member mirrorset. The disk must be
part of a unit.
mirrorset-name
Assigns a name for the mirrorset.
IMPORTANT: It is common to name a mirrorset MIRRn, where n is a sequentially
assigned, unique identifier. Other naming conventions are acceptable, but this
naming convention presents to the user both the type of container and its unique
identifier.
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Switches
COPY=FAST
COPY=NORMAL (Default)
Sets the speed at which the controller copies data to a new member from normal
mirrorset members when data is being mirrored to the storageset’s disk drives.
Specify COPY=FAST to allow the creation of mirrored data to take precedence over
other controller operations. When you specify COPY=FAST, the controller uses more
resources to create the mirrored data, and copying takes less time. However, overall
controller performance is reduced.
Specify COPY=NORMAL when operations performed by the controller should take
priority over the copy operation. If you specify COPY=NORMAL creating the
mirrored data has a minimal impact on performance.
POLICY=BEST_FIT
POLICY=BEST_PERFORMANCE
NOPOLICY (Default)
Sets the selection criteria the controller uses to choose a replacement disk from the
spareset when a mirrorset member fails. If DT_SUPPORT is enabled, no policy can
be selected.
Specify POLICY=BEST_FIT to choose a replacement disk drive from the spareset
that equals or exceeds the base member size (smallest disk drive at the time the
mirrorset was initialized). If there is more than one disk drive in the spareset that
meets the criteria, the controller selects a disk drive with the best performance. This
switch is not valid if DT_SUPPORT is enabled.
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Specify POLICY=BEST_PERFORMANCE to choose a replacement disk drive from
the spareset with the best performance. The controller attempts to select a disk on a
different port than existing mirrorset members. If there is more than one disk drive in
the spareset matching the best performance criteria, the controller selects a disk drive
that equals or exceeds the base member size. This switch is not valid if
DT_SUPPORT is enabled.
Specify NOPOLICY to prevent the controller from automatically replacing a failed
disk device. This causes the mirrorset to operate in a reduced state until either
POLICY=BEST_PERFORMANCE or POLICY=BEST_FIT is selected, or a
Example
This example shows how to create a one-member mirrorset from each member of a
stripeset. These commands set the nominal number of members in each mirrorset to
two and add a second disk to each mirrorset. It is not necessary to initialize the
mirrorsets or add them as units; the higher-level structure of the stripeset is carried
down to the mirrorsets.
ADD DISK DISK10100 1 1 0
ADD DISK DISK20100 2 1 0
ADD DISK DISK30100 3 1 0
ADD STRIPESET STRIPE1 DISK10100 DISK20100 DISK30100
INITIALIZE STRIPE1
ADD UNIT D102 STRIPE1
MIRROR DISK10100 MIRROR1
SET MIRROR1 MEMBERSHIP=2
SET MIRROR1 REPLACE=DISK20200
MIRROR DISK20100 MIRROR2
SET MIRROR2 MEMBERSHIP=2
SET MIRROR2 REPLACE=DISK30200
MIRROR DISK30100 MIRROR3
SET MIRROR3 MEMBERSHIP=2
SET MIRROR3 REPLACE=DISK10200
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See also
ADD MIRRORSET
REDUCE
SHOW MIRRORSETS
UNMIRROR
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5–74 CLI Commands
POWEROFF
Powers off all disk units in a cabinet and turns off the cabinet power in all cabinets
associated with the controller.
Syntax
POWEROFF
Switches
BATTERY _ON
BATTERY_OFF (Default)
Instructs the external cache battery (ECB) charger to turn off or remain on.
Specify BATTERY_ON to keep the ECB powering the cache module after the cabinet
is powered off.
Specify BATTERY_OFF to disable the cache batteries after the cabinet is powered
off.
NOTE: The ECB LEDs will continue to flash in both cases, but the cache module
LEDs cease flashing when BATTERY_OFF is chosen.
OVERRIDE_BAD_FLUSH
NO_OVERRIDE_BAD_FLUSH (Default)
Instructs the controller to either poweroff the cabinet or remain on depending on the
cache flush results.
Specify OVERRIDE_BAD_FLUSH to override a failed cache flush and poweroff the
cabinet.
Specify NO_OVERRIDE_BAD_FLUSH to prevent a poweroff when the cache flush
fails.
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SECONDS=nn
As soon as the POWEROFF command is entered, all disk units in the cabinet are set
to write-through. When the time interval, as represented by nn seconds, has elapsed,
an orderly rundown of all units is started. When all units in the cabinet are
successfully rundown, cabinet power is turned off.
Table 5–4 shows what action will be taken depending on the switch settings and the
results of the attempted flush:
CAUTION: If the BATTERY_OFF switch is used with the
OVERRIDE_BAD_FLUSH switch, unwritten data could be lost. Do not
power off the subsystem until the unwritten data has been recovered.
Table 5–4 Poweroff Switch Settings
Battery
Switch
Override Switch
Flush
Results
Action
BATTERY_ON
BATTERY_ON
BATTERY_ON
BATTERY_ON
OVERRIDE_BAD_FLUSH
Success
Failure
Controller and units in the cabinet are
shutdown and the ECB is powering the
cache module.
OVERRIDE_BAD_FLUSH
Controller and units in the cabinet are
shutdown and the ECB is powering the
cache module.
NO_OVERRIDE_BAD_FLUSH Success
NO_OVERRIDE_BAD_FLUSH Failure
Controller and units in the cabinet are
shutdown and the ECB is powering the
cache module.
Nothing is shutdown, the ECB is powering
the cache module, and the user is notified
of a bad flush.
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5–76 CLI Commands
Table 5–4 Poweroff Switch Settings (Continued)
Battery
Switch
Override Switch
Flush
Results
Action
BATTERY_OFF OVERRIDE_BAD_FLUSH
BATTERY_OFF OVERRIDE_BAD_FLUSH
Success
Failure
Controller and units in the cabinet are
shutdown and the ECB is not powering the
cache module.
Controller and units in the cabinet are
shutdown and the ECB is not powering the
cache module.
BATTERY_OFF NO_OVERRIDE_BAD_FLUSH Success
BATTERY_OFF NO_OVERRIDE_BAD_FLUSH Failure
Controller and units in the cabinet are
shutdown and the ECB is not powering the
cache module.
Nothing is shutdown, the ECB is powering
the cache module, and user is notified of a
bad flush.
In dual-redundant controller configurations, if both controllers can’t be shutdown,
then both controllers and their ECB chargers remain on.
Example
This example shows how to power off the disk units and the cabinet in 10 seconds:
POWEROFF SECONDS=10
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REDUCE
Removes member disk drives from mirrorsets and decreases the nominal number of
members in the mirrorsets.
Unlike the SET mirrorset-name REMOVE=disk-name command, the controller does
not put reduced members into the failedset. When using the REDUCE command to
take a snapshot of a striped mirrorset, you must reduce all mirrorsets with one
command. The CLONE utility does this automatically.
NOTE: An error is displayed if you attempt to reduce the only remote or local
normal member from the mirrorset if ERROR_MODE= FAILSAFE is enabled on the
unit.
The nominal number of members in a mirrorset is determined by the number of
members assigned to the mirrorset with the SET mirrorset-name
MEMBERSHIP=number-of-members command or the ADD MIRRORSET
mirrorset-name disk-name1 [disk-nameN] command—in other words, the number of
disks that the mirrorset originally contained before it was reduced. The actual number
of members contained in the mirrorset may be less than the nominal number of
members if:
■
■
■
A disk drive is not added back to the mirrorset.
A member remains removed from the mirrorset.
The mirrorset replacement policy switch NOPOLICY is specified with the SET
mirrorset-name command.
■
No spare disks exist.
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5–78 CLI Commands
The actual number of members in the mirrorset can never be greater than the nominal
number of members. The disks to be removed do not need to be members of the same
mirrorset. However, the disks must all be part of the same unit (for example, the same
striped mirrorset). When a disk is reduced from a mirrorset, the controller:
■
■
■
■
Pauses I/O to the unit.
Flushes all of the unit’s data from write-back data cache.
Removes the specified disks.
Decreases the nominal number of members of the mirrorsets by the number of
disks removed from the mirrosets.
For each reduced mirrorset, there must be at least one remaining normal member after
the reduction. If this is not true for all of the disk-names specified, the mirrorset is not
reduced.
Only normal members can be reduced. A normal member is a mirrorset member
whose entire contents are the same as all other normal members within the mirrorset.
NOTE: An error is displayed if you attempt to reduce any mirrorset so that there
would not be any normal member remaining.
Syntax
REDUCE disk-name1 disk-name2 disk-name3...
Parameters
disk-name1 disk-name2 disk-name3...
Specifies the names of the disk or disks to be removed from the mirrorset or
mirrorsets. Multiple members can be removed with the REDUCE command.
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5–79
Example
This example shows how to remove DISK20100, DISK20200, and DISK40200 from
their respective mirrorsets:
SHOW STRIPE1
Name
Storageset
Uses
Used by
-----------------------------------------------------------------------------
STRIPE1 stripeset
MIRR1
MIRR2
MIRR3
D104
SHOW MIRRORSETS
Name
Storageset
Uses
Used by
-----------------------------------------------------------------------------
MIRR1
MIRR2
MIRR3
mirrorset
mirrorset
mirrorset
DISK10100
DISK20100
DISK10200
DISK20200
DISK30300
DISK40200
STRIPE1
STRIPE1
STRIPE1
REDUCE DISK20100 DISK20200 DISK40200
SHOW MIRRORSETS
Name
Storageset
Uses
Used by
-----------------------------------------------------------------------------
MIRR1
MIRR2
MIRR3
mirrorset
mirrorset
mirrorset
DISK10100
DISK10200
DISK30300
STRIPE1
STRIPE1
STRIPE1
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5–80 CLI Commands
See also
ADD MIRRORSET
MIRROR
RUN CLONE
SHOW MIRRORSET
SET mirrorset-name
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RENAME
Renames a container.
Syntax
RENAME old-container-name new-container-name
Parameters
old-container-name
Specifies the existing name of the container.
new-container-name
Assigns the new name for the container.
naming rules.
NOTE: Units may not be renamed.
Example
This example shows how to rename DISK10000 to MYDISK:
SHOW DISKS
Name
Type
Port Targ Lun
Used by
-----------------------------------------------------------------
DISK10000
DISK10100
disk 1
disk 1
0
1
0
0
D100
D101
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5–82 CLI Commands
RENAME DISK10000 MYDISK
SHOW DISKS
Name Type
Port Targ Lun
Used by
-----------------------------------------------------------------
MYDISK disk
DISK10100disk
1
1
0
1
0
0
D100
D101
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RESTART controller
Flushes all user data from the specified controller’s write-back cache and restarts the
controller.
Syntax
RESTART controller
Parameters
controller
The controller parameter indicates which controller is to be restarted. Specify
OTHER_CONTROLLER or THIS_CONTROLLER.
Switches
IGNORE_ERRORS
NOIGNORE_ERRORS (Default)
Controls the reaction of the controller based on the status of write-back cache.
CAUTION: The IGNORE_ERRORS switch might cause the controller to
keep unflushed data in the write-back cache until it restarts and is able
to write the data to devices. Do not perform any hardware changes until
the controller flushes the cache.
Specify IGNORE_ERRORS to instruct the controller to restart even if the data within
write-back cache cannot be written to the devices.
Specify NOIGNORE_ERRORS to instruct the controller to not restart if the data
within write-back cache cannot be written to the devices.
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5–84 CLI Commands
IMMEDIATE_SHUTDOWN
NOIMMEDIATE_SHUTDOWN (Default)
Instructs the controller when to shutdown.
CAUTION: The IMMEDIATE_SHUTDOWN switch instructs the controller
to immediately shutdown, without regard to any data contained within
write-back cache. See “Fault-Tolerance for Write-Back Caching,” page
1–22 for considerations when implementing write-back cache. Do not
perform any hardware changes until the controller flushes the cache.
Specify IMMEDIATE_SHUTDOWN to instruct the controller to restart immediately
without flushing data from the write-back cache to devices.
Specify NOIMMEDIATE_SHUTDOWN to instruct the controller not to restart
without checking for online devices or before all data has been flushed from write-
back cache to the devices.
Examples
This example shows how to restart “this controller”:
RESTART THIS_CONTROLLER
This example shows how to restart the “other controller”:
RESTART OTHER_CONTROLLER
See also
SELFTEST controller
SHUTDOWN controller
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RETRY_ERRORS unit-number
UNWRITEABLE_DATA
Causes the controller to attempt to write previously unwriteable data from the write-
back cache to the devices. If a container fails, preventing the data in write-back cache
to be written to the container, an unwriteable data error is reported. If possible, correct
the condition that caused the unwriteable data and try the write operation again. No
data is lost if the retry fails.
Syntax
RETRY_ERRORS unit-number UNWRITEABLE_DATA
Parameter
unit-number
Identifies the unit number to which the data contained in write-back cache tries to
write. The unit-number is the same name given to the unit when it was created using
the ADD UNIT command.
Example
This example shows how to retry writing the cached data previously marked
unwriteable to disk unit D103:
RETRY_ERRORS D103 UNWRITEABLE_DATA
See also
CLEAR_ERRORS UNWRITEABLE_DATA
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RUN
Runs a diagnostic or utility program on “this controller.” Diagnostic and utility
programs only run on “this controller.”
Syntax
RUN program-name
Parameter
program-name
The program-name parameter specifies the name of the diagnostic or utility program
to be run. The following programs can currently be run:
■
■
CHVSN—This is not a user utility. This utility may be used by Compaq
authorized service personnel only.
CLCP—A utility used to load updated software code or patches. See Upgrading
the Subsystem in the Maintenance and Service Guide for more information
regarding this utility.
■
■
CLONE—A utility used to automate the process of mirroring units to create a
more information regarding this utility.
CONFIG—A utility used to locate and add devices to the controller
configuration. CONFIG may be run anytime new devices are added to the
this utility.
■
DILX—A utility used to test and verify the controller’s operation with attached
storage devices under a high or low I/O load. Run DILX (disk inline exerciser)
only when there is no activity on the controller. The total I/O load is handled by
the controller, bypassing the host.
The DILX utility has two modes, an autoconfigure mode, and a standard mode.
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CAUTION: Run the DILX utility in the autoconfigure mode only at initial
installations. When write operations are enabled, the DILX utility may
overwrite existing data.
The autoconfigure mode is the most thorough mode and allows you to:
❏
❏
Automatically test all of the disk units configured.
Automatically perform thorough tests on all units with writes enabled.
The standard mode is more flexible and allows you to:
❏
❏
❏
❏
Test disks you select.
Perform tests in read-only mode or write-only mode.
Provide run time and performance summary option.
Can be run in read-only mode.
■
■
■
DIRECT—A command used to display a list of all executable diagnostic or
utility programs.
DSTAT—This is not a user utility. This utility may be used by Compaq
authorized service personnel only.
FMU—A fault management utility used to control several spontaneous errors.
FMU also displays information regarding the most recent controller and memory
system failure.
■
■
■
FRUTIL—A utility used when replacing a failed controller, external cache
battery, or cache module.
HSUTIL—A utility used to format a disk device or to download new firmware to
a disk device.
VTDPY—A utility used to display the current controller state, performance data,
processor utilization, host post activity and status, device state, logical unit state,
cache performance, and I/O performance.
See the HSZ80 Array Controller ACS Version 8.3 Maintenance and Service Guide for
more information regarding the above utilities.
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Example
This example shows how to start the DILX diagnostic program:
RUN DILX
.
.
.
See also
DIRECTORY
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SELFTEST controller
Flushes the data from the specified controller’s write-back cache (if present) and shuts
down the controller. It then restarts the controller in self-test mode. Press the
controller reset (//) button to take the controller out of self-test mode.
Syntax
SELFTEST controller
Parameters
controller
The controller parameter indicates which controller is to perform the self-test
program. Specify OTHER_CONTROLLER or THIS_CONTROLLER.
Switches
IGNORE_ERRORS
NOIGNORE_ERRORS (Default)
Instruct the controller how to respond to write-back cache errors.
CAUTION: The IGNORE_ERRORS switch might cause data to remain in
write-back cache. See “Fault-Tolerance for Write-Back Caching,” page
1–22, for considerations when implementing write-back cache. Do not
perform any hardware changes until the controller flushes the cache.
Specify IGNORE_ERRORS to instruct the controller to ignore any write-back cache
errors. Such errors can result from data contained within write-back cache unable to
be written to the devices or lost data errors.
Specify NOIGNORE_ERRORS to instruct the controller not to run the self-test
program if the write-back cache errors are detected.
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IMMEDIATE_SHUTDOWN
NOIMMEDIATE_SHUTDOWN (Default)
Instructs the controller whether to flush the write-back cache or not.
CAUTION: The IMMEDIATE_SHUTDOWN switch instructs the controller
to immediately shut down, without regard to any data contained within
write-back cache. See “Fault-Tolerance for Write-Back Caching,” page
1–22, for considerations when implementing write-back cache. Do not
perform any hardware changes until the controller flushes the cache.
Select IMMEDIATE_SHUTDOWN to instruct the controller to run the self-test
program immediately without checking for online devices or without flushing user
data from write-back cache to devices.
Select NOIMMEDIATE_SHUTDOWN to instruct the controller to flush data from
write-back cache before running the self-test program.
Examples
This example shows how to start the self-test program on “this controller”:
SELFTEST THIS_CONTROLLER
This example shows how to run the self-test program on the “other controller,” even if
the “other controller” cannot flush all data from the write-back cache:
SELFTEST OTHER_CONTROLLER IGNORE_ERRORS
See also
RESTART controller
SHUTDOWN controller
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5–91
SET controller
Changes parameters on the specified controller.
Syntax
SET controller
Parameter
controller
Indicates which controller is to be set. Specify OTHER_CONTROLLER or
THIS_CONTROLLER.
Switches
Table 5–5 lists the switches available with this command. Descriptions of the
switches follow the table.
Table 5–5 SET controller Switches
Switch
ALLOCATION_CLASS
Values
0–4294967295
In DIGITAL Open VMS do not specify a
number over 65535
CACHE_FLUSH_TIMER
1–65535 sec, 10 (default)
None
CACHE_UPS
NOCACHE_UPS
COMMAND_CONSOLE_LUN
None
NOCOMMAND_CONSOLE_LUN
HOST_FUNCTION
NODE_ID
A, B, C, D, E, F
assigned during manufacturing
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Table 5–5 SET controller Switches (Continued)
Switch
Values
PORT_1_ ID
NOPORT_1_ID
PORT_2_ID
NOPORT_2_ID
MIRRORED_CACHE
None
NOMIRRORED_CACHE
PORT _1_PREFERRED_ID
NOPORT_1_PREFERRED_ID
PORT _2_PREFERRED_ID
NOPORT_2_PREFERRED_ID
PORT_1_TRANSFER_RATE_
REQUESTED
5MHz
10MHz
NOPORT_1_TRANSFER_RATE_
REQUESTED
20MHz (default)
PORT_2_TRANSFER_RATE_
REQUESTED
NOPORT_2_TRANSFER_RATE_
REQUESTED
PROMPT
1–16 characters
SCSI_VERSION
SCSI-2 (default)
SCSI-3
TERMINAL_PARITY
odd, even
NOTERMINAL_PARITY
TERMINAL_SPEED
TIME
4800, 9600, 19200
dd–mmm–yyy:hh:mm:ss
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ALLOCATION_CLASS
Allocation class is a unique identification number assigned to the controller pair
under certain operating systems. The value for an allocation class is 1–4294967295.
In DIGITAL Open VMS, this is a 2-byte number (do not specify a number over
65535); for DIGITAL UNIX, it is a 4-byte number. It is reported in response to the
SCSI inquiry command and is the same for all units connected to one or both
controllers. It allows the user to place a unique number in the allocation class value
(n). The allocation class value allows the host to identify the controllers that are a
matched dual-redundant pair. This number should be unique for every pair of dual-
redundant controllers in the cluster.
NOTE: This value must not be zero (default) in dual-redundant configurations in
host systems that implement allocation class. A zero value in this configuration
causes the operating system to disable failover between the controller pair. Some
operating systems do not implement allocation class, in which case the default of
zero has no meaning.
CACHE_FLUSH_TIMER=n
CACHE_FLUSH_TIMER=10 (Default)
Specifies how many seconds (1–65535) of idle time on a unit may elapse before the
write-back cache flushes data for that unit. The default setting is 10 seconds. When
changed, the new value entered for this switch takes effect immediately.
CACHE_UPS
NOCACHE_UPS (Default)
Specifies whether the controller should perform regular battery condition checks.
When changed, you must restart both controllers in order for the new setting to take
effect.
Specify CACHE_UPS if your storage subsystem power is supported by an
uninterruptable power supply (UPS). This causes RAIDsets and mirrorsets to always
be available, regardless of the condition of the cache batteries.
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CAUTION: Setting CACHE_UPS without having a UPS or similar backup
system in place may result in data loss if power is interrupted.
Specify NOCACHE_UPS to instruct the controller to perform regular cache battery
checks and evaluate the condition of the cache batteries.
Setting the CACHE_UPS switch for either controller sets the CACHE_UPS switch
for both controllers.
COMMAND_CONSOLE_LUN
NOCOMMAND_CONSOLE_LUN (Default)
Enable or disables the virtual LUN used with the StorageWorks Command Console.
When changed, the new setting for this switch takes effect immediately.
NOTE: This switch enables (COMMAND_CONSOLE_LUN) and disables
(NOCOMMAND_CONSOLE_LUN) the CCL in SCSI-2 mode only. This switch has no
effect in SCSI-3 mode.
Select COMMAND_CONSOLE_LUN to enable the virtual LUN. Select
NOCOMMAND_CONSOLE_LUN to disable the virtual LUN.
HOST_FUNCTION=mode
HOST_FUNCTION=(ID,mode)
Configures the host compatibility mode for a controller target ID number. When
changed, you must restart both controllers in order for the new setting to take effect.
Select the HOST_FUNCTION=mode switch to set all of the targets on the host
interface to the same mode. The default mode is A.
Select the HOST_FUNCTION=(ID,mode) switch to configure the host port on a
target-by-target basis for compatibility with various operating systems.
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The HOST_FUNCTION switch assigns only one host function to the specified target
ID number with each SET command. You must enter separate SET commands to set
multiple modes to different target ID number—for example, to support hosts with
different operating systems on a single SCSI bus.
Each controller or pair of controllers can service a maximum of two hosts
simultaneously as long as they as they are assigned to different targets. If the
HOST_FUNCTION switch is changed on a single controller in a dual-redundant
configuration, corresponding mode changes are automatically passed on to the other
controller. The controller does not have to restart for these changes to take affect.
The following modes can be assigned:
■
A—DIGITAL UNIX®, OpenVMS, and Hewlett-Packard® HP–UX (Default)
■
■
B—IBM AIX®
C—HSZ15
■
■
■
D—Windows NTTM Server
E—Silicon Graphics Inc. IRIX
F—Sun Solaris
Enter the SHOW controller command to display the current Host Function Mode
settings.
NODE_ID=nnnn-nnnn-nnnn-nnnn checksum
Sets the subsystem worldwide ID (node ID). If a situation occurs that requires you to
reset the subsystem worldwide ID (node ID), use the ID and check sum that appears
on the sticker on your enclosure.
CAUTION: Each subsystem has its own unique node ID. If you attempt
to set the subsystem node ID to an ID other than the one that came with
the subsystem, the data on the subsystem will not be accessible. Never
set two subsystems to the same node ID; data corruption will occur.
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5–96 CLI Commands
PORT_1_ID=(n1,n2,n3...)
NOPORT_1_ID
PORT_2_ID=(n1,n2,n3...)
NOPORT_2_ID
Assigns one to fifteen SCSI target ID numbers (0 through 15) to either port 1 or to
port 2. A total of 15 target ID numbers can be assigned to both ports. For example,
port 1 has eight target ID numbers and port 2 has seven target ID numbers for a total
of 15. Another example, port 1 has 15 target ID numbers and port 2 has none. Host on
port 1 can only see targets assigned to port 1 and hosts on port 2 can only see targets
assigned to port 2. If two or more target ID numbers are entered, the numbers must be
enclosed in parentheses and separated with commas. When changed, you must restart
both controllers in order for the new setting to take effect.
A controller can present up to 32 units to the host on each target ID number. Unit
numbers identify both the target ID number and the LUN. However, access to LUNs 8
through 31 requires support by both the host adapter and operating system. For
example, D203 indicates a disk is addressed through target 2, LUN 3. D5 is target 0,
LUN 5.
If two controllers are in a dual-redundant configuration, both controllers support the
same target ID numbers. When the ID numbers are changed on one controller, the
other controller is automatically updated.
NOTE: Use the PORT_1_PREFERRED_ID (or PORT_2) switch along with the
PORT_1_ID (or PORT_2) switch to specify which targets are assigned to each of
your controllers on port 1 (or 2). If you do not specify the preference of your targets
as you add them, the controller automatically prefers all of the targets to the “other
controller.”
MIRRORED_CACHE
NOMIRRORED_CACHE (Default)
Enables the mirrored-write-back-data cache feature on dual-redundant controllers.
When changed, both controllers restart for the new switch setting to take effect.
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The following tasks are performed when the NOMIRRORED_CACHE switch is
specified: Both controllers must be operational before this command is accepted.
■
Data in write-back cache is flushed when cache is configured in non-mirrored
mode.
■
■
Enables mirrored write-back cache on both controllers.
If an invalid cache configuration exists within the cache modules, an error is
generated.
Issue this switch through only one controller. The controller must contain a valid
cache configuration before specifying this switch. See Chapter 2 for rules regarding
valid cache configurations. The controllers automatically restart when this switch is
specified.
NOTE: All unwritten write-cached data is automatically flushed from cache before
restart when the MIRRORED_CACHE switch is specified. Depending on the amount
of data to be flushed, this command may take several minutes to complete before
the controller is restarted.
The NOMIRRORED_CACHE switch disables mirror mode. Data in write-back
cache is flushed when this switch is entered from mirrored mode. This switch disables
mirrored write-back cache on both controllers. Therefore, this switch is only to be
issued through one controller. The controller must contain a valid cache configuration
before this switch is assigned. Unlike going from nonmirrored mode to mirrored
mode, going from mirrored mode to nonmirrored mode is permitted with a failed
cache module. The controller automatically restarts when this switch is specified.
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PORT_1_PREFERRED_ID=(n1,n2,n3...)
NOPORT_1_PREFERRED_ID
PORT_2_PREFERRED_ID=(n1,n2,n3...)
NOPORT_2_PREFERRED_ID
May be set only when dual-redundant configurations are operating in a transparent
failover configuration. It specifies which targets and units are handled by the specified
controller port. First, specify, the total set of ID numbers with the preferred ID
number switch. If you enter two or more PORT_1_PREFERRED_ID (or PORT_2)
numbers, the numbers must be enclosed within parentheses and separated with
commas. When changed, the new setting for this switch takes effect immediately.
NOTE: Only target ID numbers set with the PORT_1_ID (or PORT_2) switch can be
preferred with the PORT_1_PREFERRED_ID (or PORT_2) switch.
The other controller is automatically updated to support the remaining ID numbers, if
any. For example, if a dual-redundant pair of controllers is set to ID numbers 0, 1, and
2, one controller can be set to respond to ID numbers 0 and 1; the other controller
automatically responds to ID number 2. The first controller presents unit numbers 0
through 7 and 100 through 107. The other controller presents unit numbers 200
through 207 to the controllers.
Specify NOPORT_1_PREFERRED_ID (or NOPORT_2) for one controller so it is
immediately available if the other controller fails. The other controller processes all of
the data during normal operation. However, if the other controller fails, the controller
assigned the NOPORT_1_PREFFERED_ID (or NOPORT_2) switch assumes control
of the targets assigned to the failed controller.
PROMPT=“new prompt”
Specifies a 1- to 16-character prompt displayed when the controller’s CLI prompts for
input. Only printable ASCII characters and spaces are valid. The new prompt name
must be enclosed within quotes. When changed, the new text entered for this switch
takes effect immediately.
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SCSI_VERSION=SCSI-2 (Default)
SCSI_VERSION=SCSI-3
Specifies the host protocol to use; requires operating system support. SCSI-3 is
limited SCSI-3. It also specifies how the command console LUN is handled. The
command console LUN (CCL) presents to the GUI a virtual LUN through which it
communicates with the controller.
SCSI-2 specifies that the CCL is not fixed at a particular location, but floats
depending on the configuration.
SCSI-3 specifies that the LLC is fixed at LUN 0. The SCSI device-type returned to
the host is array controller.
Changes to this switch take place at the next controller restart.
TERMINAL_PARITY=ODD
TERMINAL_PARITY=EVEN
NOTERMINAL_PARITY (Default)
Specifies the parity with which data is transmitted and received. When changed, the
new setting for this switch takes effect immediately.
TERMINAL_SPEED=baud_rate
TERMINAL_SPEED=9600 (Default)
Sets the terminal transmission and reception speed (baud rate) to 4800, 9600
(default), or 19200 baud. When changed, the new value entered for this switch takes
effect immediately.
TIME=dd–mmm–yyyy:hh:mm:ss
Sets the date and time using a 24-hour clock. The time is set on both controllers in a
dual-redundant configuration.When changed, the new value entered for this switch
takes effect immediately.
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PORT_1_TRANSFER_RATE_REQUESTED=20MHZ
PORT_1_TRANSFER_RATE_REQUESTED=10MHZ
PORT_1_TRANSFER_RATE_REQUESTED=5MHZ
PORT_1_TRANSFER_RATE_REQUESTED=DEFAULT
NOPORT_1_TRANSFER_RATE_REQUESTED
PORT_2_TRANSFER_RATE_REQUESTED=20MHZ
PORT_2_TRANSFER_RATE_REQUESTED=10MHZ
PORT_2_TRANSFER_RATE_REQUESTED=5MHZ
PORT_2_TRANSFER_RATE_REQUESTED=DEFAULT
NOPORT_2_TRANSFER_RATE_REQUESTED
Specifies the maximum data transfer rate the controllers use when communicating
with the host. The transfer rate may need to be limited to accommodate long cables
between the subsystem and the host system. Set the same transfer rate for both
controllers in a dual-redundant configuration. When changed in a dual-redundant
configuration, you must restart both controllers in order for the new setting to take
effect. When changed in a single configuration, restart only the controller on which
the new setting will take effect.
The controller must be restarted for any changes to the data transfer rate to take effect.
Table 5–6 lists the maximum transfer rates for different lengths of fast and slow SCSI
buses. These lengths represent cable lengths plus shelf-bus lengths.
Table 5–6 Maximum SCSI-Bus Lengths for Given Data Transfer Rate
Transfer Rate
5 MHz
Meter
Feet
19.7
9.8
6
3
10 MHz
20 MHz
25
82
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Examples
This example shows how to change the other controller’s CLI prompt:
SET OTHER_CONTROLLER PROMPT=“CONTROLLER B”
This example shows how to set “this controller” on host port 1, so it responds to
requests for target ID numbers 2 and 5:
SET THIS_CONTROLLER PORT_1_ID=(2,5)
See also
SHOW THIS_CONTROLLER
SHOW OTHER_CONTROLLER
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5–102 CLI Commands
SET device-name
Changes the transportable characteristics and the maximum data transfer rate between
the controller and the specified device.
Syntax
SET device-name
Parameter
device-name
Specifies the name of the device to change. This can be a previously named device,
disk, passthrough device, or container.
Switches
LOCAL (Default)
REMOTE
Specifies the disk characteristics in a mirrorset, either local or remote.
■
■
■
Disks set to REMOTE can only be added to mirrorsets and JBOD (that is, not
RAID5 raidsets).
Disks set to REMOTE can only be added to mirrorsets that are set to
DT_SUPPORT.
Disks set to LOCAL can be added to mirrorsets that are set to either
NODT_SUPPORT or DT_SUPPORT.
■
■
Disks set to REMOTE that are part of a mirrorset will not be the read source.
Setting the switch to REMOTE forces a disk to be NOTRANSPORTABLE.
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TRANSFER_RATE_REQUESTED=ASYNCHRONOUS
TRANSFER_RATE_REQUESTED=20MHZ (Default)
TRANSFER_RATE_REQUESTED=10MHZ
TRANSFER_RATE_REQUESTED=5MHZ
Specifies the maximum data transfer rate for the controller to use in communicating
with the device. You may need to limit the transfer rate to accommodate long cables
between the controllers and the device.
TRANSPORTABLE
NOTRANSPORTABLE (Default)
Indicates whether a disk can be accessed exclusively by StorageWorks controllers.
NOTE: Setting the switch to TRANSPORTABLE forces a disk to be LOCAL.
Set the TRANSPORTABLE switch for disks only.
Storagesets cannot be made transportable. Specify NOTRANSPORTABLE for all disks
used in RAIDsets, stripesets, mirrorsets, and sparesets. Transportable disks do not
contain any metadata or restricted areas on the disk. Therefore, transportable disks
forfeit the advantage metadata provides. Transportable disks can be moved to a non-
StorageWorks environment with their data intact.
If you specify the NOTRANSPORTABLE switch and there is no metadata on the
unit, the unit must be initialized. If you specify TRANSPORTABLE for a disk that
was originally initialized as a NOTRANSPORTABLE, you should initialize the disk.
If you specify NOTRANSPORTABLE and there is no metadata on the unit, the unit
must be initialized.
NOTE: Compaq recommends you avoid specifying TRANSPORTABLE unless
transportability of the device or media is imperative and there is no other way to
accomplish moving the data.
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5–104 CLI Commands
Examples
This example shows how to set the data transfer rate of DISK20000 to 5MHz:
SET DISK20000 TRANSFER_RATE_REQUESTED=5MHZ
This example shows how to set DISK10300 to transportable:
SET DISK10300 TRANSPORTABLE
This example shows how to set DISK10300 to remote:
SET DISK10300 REMOTE
See also
ADD DISK
SHOW DISKS
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SET EMU
Sets operating parameters for the environmental monitoring unit (EMU).
Syntax
SET EMU
Switches
The SENSOR and FANSPEED switches control both the master and slave EMU
settings. The EMU within the primary cabinet (master) instructs the EMUs within the
other cabinets to operate at the same SENSOR and FANSPEED settings to which the
master EMU is set.
SENSOR_1_SETPOINT=nn
SENSOR_2_SETPOINT=nn
SENSOR_3_SETPOINT=nn
SENSOR_x_SETPOINT=35 (Default)
Sets the acceptable temperatures (in Celsius) at which the subsystem operates. Sensor
1 and Sensor 2 set the maximum operating temperature for the primary subsystem
cabinet. Sensor 3 sets the maximum operating temperature for the EMU unit. The
allowable range for the setpoint is 0°C (32°F) to 49°C (120°F). The EMU determines
the default setpoint for all three sensors.
Table 5–7 lists the valid EMU set-point temperatures in both Fahrenheit and Celsius.
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.
Table 5–7 EMU Set Point Temperatures
ºC
0
ºF
32
ºC
10
ºF
50
ºC
20
ºF
68
ºC
30
ºF
86
ºC
40
ºF
104
106
108
109
111
113
115
117
118
120
1
34
46
37
39
41
43
45
46
48
11
12
13
14
15
16
17
18
19
52
54
55
57
59
61
63
64
66
21
22
23
24
25
26
27
28
29
70
72
73
75
77
79
81
82
84
31
32
33
34
35
36
37
38
39
88
41
42
43
44
45
46
47
48
49
2
90
3
91
4
93
5
95
6
97
7
99
8
100
102
9
If any of the setpoints assigned to a slave EMU do not match the corresponding
setpoints assigned to the master EMU, the slave EMU settings change to match the
corresponding master EMU settings.
Refer to the enclosure documentation for detailed information about setting the EMU
temperature set points.
FANSPEED=HIGH
FANSPEED=AUTOMATIC (Default)
Sets the speed at which the fan operates.
Select FANSPEED=HIGH to force the fans in all connected cabinets to operate at
high speed continuously.
Select FANSPEED=AUTOMATIC to allow the EMU to control the fan speed for the
fans in all connected cabinets.
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The EMU instructs the fans to operate at high speed when any of the temperature
setpoints are exceeded or when one or more fans are not functioning.
Examples
This example shows how to set EMU sensor number 2 to 34°C:
SET EMU SENSOR_2_SETPOINT=34
This example shows how to set the EMU fan to operate at high speed:
SET EMU FANSPEED=HIGH
See also
SHOW
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SET FAILEDSET
Changes the automatic replacement policy for the failedset.
Syntax
SET FAILEDSET
Switches
AUTOSPARE
NOAUTOSPARE
Specifies the policy to be used by the controller when a disk drive is physically
replaced in the failedset.
Specify AUTOSPARE to instruct the controller to automatically move devices
physically replaced in the failedset into the spareset. Disks set to REMOTE cannot be
autospared.
Specify NOAUTOSPARE to instruct the controller to leave devices physically
replaced in the failedset. The device, though replaced, remains in the failedset until it
is manually removed with the DELETE FAILEDSET command.
In most circumstances, a disk physically replaced into the failedset is functional and
contains no metadata—that is, a new, initialized device. If you specify the
AUTOSPARE switch when a disk is physically replaced in the failedset, the
controller checks to see if any metadata is present. If the controller detects metadata,
the disk remains in the failedset. If the controller does not detect metadata, the
controller automatically initializes the disk and moves it from the failedset to the
spareset. Now a member of the spareset, the disk is available for any mirrorset or
RAIDset requiring a replacement member. If the automatic initialization fails, the
disk remains in the failedset.
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Disks that you plan to use for AUTOSPARE must not have valid metadata on them. If
you suspect a disk does have metadata on it (it was used in a stripeset or was
initialized as NOTRANSPORTABLE) you must use the following steps to make the
disk available as a spareset replacement disk:
These steps use DISK10000 as an example.
1. Delete all containers to which the disk belongs.
2. Make the disk transportable.
SET DISK10000 TRANSPORTABLE
3. Initialize the disk.
INIT DISK10000
4. Delete the disk.
DELETE DISK10000
5. Remove DISK10000 from the cabinet until it is time to replace a failed disk.
Example
This example shows how to enable the automatic spare feature:
SET FAILEDSET AUTOSPARE
This example shows how to disable the automatic spare feature:
SET FAILEDSET NOAUTOSPARE
See also
DELETE FAILEDSET
SHOW FAILEDSET
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5–110 CLI Commands
SET FAILOVER
Configures both controllers to operate in a dual-redundant, transparent failover,
configuration. This allows both controllers to access the storage devices, providing
controller fault-tolerant data processing. If one of the two controllers fails, the devices
and any cache attached to the failed controller become available to and accessible
through the other controller.
NOTE: The controllers must be present and placed in non-failover mode by
entering the SET NOFAILOVER command before they can be set to failover mode.
Syntax
SET FAILOVER COPY=controller
Parameters
THIS_CONTROLLER
OTHER_CONTROLLER
Specifies which controller contains the source configuration for the copy. The
companion controller receiving the configuration information restarts after the
command is carried out.
CAUTION: Make sure you know which controller has the good configu-
ration information before entering this command. The device configura-
tion information from the controller specified by the controller parameter
overwrites the information on the companion controller.
Specify THIS_CONTROLLER to copy the device configuration information from
“this controller” to “other controller.”
Specify OTHER_CONTROLLER to copy the device configuration information from
“other controller” to “this controller.”
Due to the amount of information being passed from one controller to the other, this
command may take up to one minute to complete.
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Example
This example shows how to set the controllers in a dual-redundant configuration and
copy the configuration information from “this controller” to “other controller:”
SET FAILOVER COPY=THIS_CONTROLLER
See also
SET MULTIBUS_FAILOVER
SET NOFAILOVER
SET NOMULTIBUS_FAILOVER
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5–112 CLI Commands
SET mirrorset-name
Changes the characteristics of a mirrorset, including the addition and removal of
members.
Syntax
SET mirrorset-name
Parameter
mirrorset-name
Specifies the name of the mirrorset to modify. This is the same name given to the
mirrorset when it was created with the ADD MIRRORSET command.
Switches
COPY=FAST
COPY=NORMAL (Default)
Sets the speed at which the controller copies data to a new member from normal
mirrorset members when data is being mirrored to the storageset’s disk drives.
Specify COPY=FAST to allow the creation of mirrored data to take precedence over
other controller operations. When you specify COPY=FAST, the controller uses more
resources to create the mirrored data, and copying takes less time. However, overall
controller performance is reduced.
Specify COPY=NORMAL when operations performed by the controller should take
priority over the copy operation. If you specify COPY=NORMAL creating the
mirrored data has a minimal impact on performance.
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DT_SUPPORT
NODT_SUPPORT
Specifies if disaster tolerant functionality is enabled on this mirrorset. If some
members are or may be remote and disaster tolerant functionality is supported, set
DT_SUPPORT. If all members are—and intend to remain—local and disaster tolerant
functionality is not supported, set NODT_SUPPORT.
If DT_SUPPORT is enabled, the mirrorset has the following restrictions: NOPOLICY
is enforced and NOWRITEBACK_CACHE is enforced.
If NODT_SUPPORT is enabled and any of the members have REMOTE set, then the
command will fail with an error.
NOTE: This command will fail if changing the setting while the mirrorset is in use
by a higher level.
MEMBERSHIP=number-of-members
Sets the nominal number of mirrorset members to the number you specify for the
number-of-members value. A maximum of six members can be specified.
NOTE: No other switches can be set when you specify the MEMBERSHIP switch.
If you increase the number of members and specify a replacement policy with the
POLICY switch, the controller automatically adds disk drives from the spareset to the
mirrorset until the new number of members is reached, or there are no more suitable
disk drives in the spareset.
If you increase the number of members and the NOPOLICY switch is specified—it
will be specified if DT_SUPPORT is enabled—the REPLACE=disk-name switch
must be specified to bring the mirrorset up to the new nominal number of members.
You cannot set the nominal number of members lower than the actual number of
members. Specify the REMOVE switch to reduce the number of disk drives from the
mirrorset.
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REMOVE=disk-name
Instructs the controller to remove a member from an existing mirrorset. The disk drive
specified by disk-name is removed from the mirrorset specified by mirrorset-name.
The removed disk drive is added to the failedset.
NOTE: No other switches can be set when the REMOVE switch is specified.
If the mirrorset won’t have a normal or normalizing member remaining after you
remove the disk drive, the controller reports an error and no action is taken. A normal
or normalizing member is a mirrorset member whose contents are the same as all
other normal members.
For each reduced mirrorset, there must be at least one remaining normal member after
the reduction.
NOTE: An error is displayed if you attempt to remove the only remote or local
normal member from the mirrorset if ERROR_MODE= FAILSAFE is enabled on the
unit.
Unlike the REDUCE command, the REMOVE switch does not change the nominal
number of members in the mirrorset. If the mirrorset has a replacement policy and
there are acceptable disk drives in the spareset, the controller adds disk drives from
the spareset to the mirrorset to make the actual number of members equal to the
nominal number of members.
NOTE: Normalizing members exist only when you first create a mirrorset or when
you clear lost data on a mirrored unit. The controller recognizes the member as
normal, and all other original mirrorset members as “normalizing.” New data that
is written to the mirrorset is written to all members. The controller copies the data
existing before the mirrorset was created on the normal member to the normalizing
members. The controller recognizes the normalizing members as normal when the
mirrorset member’s blocks are all the same.
REPLACE=disk-name
Instructs the controller to add a disk member to an existing mirrorset if the following
conditions are met:
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■
■
The replacement policy is set to NOPOLICY
The mirrorset is missing at least one member
NOTE: An error is displayed if you attempt to replace a REMOTE disk into a
NODT_SUPPORT mirrorset.
If these conditions are met, the disk drive specified by disk-name is added to the
mirrorset specified by mirrorset-name. The nominal number of members does not
change.
The disk name used is the name given to a disk when it was added to the
configuration with the ADD DISK command.
NOTE: Do not specify any other switches when the REPLACE switch is specified.
POLICY=BEST_FIT
POLICY=BEST_PERFORMANCE (Default)
NOPOLICY
Sets the selection criteria the controller uses to choose a replacement disk from the
spareset when a mirrorset member fails. If DT_SUPPORT is enabled, NOPOLICY
must be selected.
Specify POLICY=BEST_FIT to choose a replacement disk drive from the spareset
that equals or exceeds the base member size (smallest disk drive at the time the
mirrorset was initialized). If there is more than one disk drive in the spareset that meet
the criteria, the controller selects a disk drive with the best performance. This switch
is not valid if DT_SUPPORT is enabled.
Specify POLICY=BEST_PERFORMANCE to choose a replacement disk drive from
the spareset with the best performance. The controller attempts to select a disk on a
different port than existing mirrorset members. If there is more than one disk drive in
the spareset matching the best performance criteria, the controller selects a disk drive
that equals or exceeds the base member size of the mirrorset. This switch is not valid
if DT_SUPPORT is enabled.
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5–116 CLI Commands
Specify NOPOLICY to prevent the controller from automatically replacing a failed
disk device. The mirrorset operates in a reduced state until a POLICY=BEST_FIT or
POLICY=BEST_PERFORMANCE is selected, or a member is manually placed in
the mirrorset.
READ_SOURCE=disk-name
READ_SOURCE=LEAST_BUSY (Default)
READ_SOURCE=ROUND_ROBIN
Selects the mirrorset member used by the controller to satisfy a read request. A
member with REMOTE set may be selected.
Specify the READ_SOURCE=disk-name of a specific member to which you want the
controller to direct all read requests. If the member fails out of the mirrorset, the
controller selects the first normal member it finds to satisfy its read requests.
Specify READ_SOURCE=LEAST_BUSY to direct read requests to the mirrorset
member with the least amount of work in its queue. If multiple members have equally
short queues, the controller queries these members for each read request as it would
when READ_SOURCE=ROUND_ROBIN is specified. If no normal local disk exists,
then the controller will query the remote disks.
Specify READ_SOURCE=ROUND_ROBIN to sequentially direct read requests to
each mirrorset member. The controller equally queries all normal members for each
read request. If no normal local disk exists, then the controller will query the remote
disks.
Examples
This example shows how to change the replacement policy of mirrorset MIRR1 to
BEST_FIT:
SET MIRR1 POLICY=BEST_FIT
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This example shows how to remove member DISK30000 from mirrorset MIRR1
created above. If the mirrorset has a replacement policy and an acceptable disk drive
is in the spareset, the controller automatically adds the spare disk drive to the
mirrorset.
SET MIRR1 REMOVE=DISK30000
This example shows how to add disk DISK30200 to the mirrorset MIRR1:
SET MIRR1 REPLACE=DISK30200
A copy operation begins immediately on DISK30200.
See also
ADD MIRRORSET
MIRROR
REDUCE
SHOW MIRRORSET
UNMIRROR
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5–118 CLI Commands
SET MULTIBUS_FAILOVER
Places “this controller” and the “other controller” into a dual-redundant (failover)
configuration within a multiple-bus environment. This allows both controllers to
access the storage devices and provide greater throughput. If one controller fails, the
devices and cache attached to the failed controller become available to and accessible
through the remaining controller. Both controllers must be configured for nofailover
before you enter the SET MULTIBUS_FAILOVER command.
NOTE: Partitioned storagesets and partitioned single-disk units cannot function in
multiple bus failover dual-redundant configurations. Because they are not
supported, you must delete your partitions before configuring the controllers for
multiple bus failover.
Syntax
SET MULTIBUS_FAILOVER COPY=controller
Parameters
controller
Specifies which controller contains the source configuration for the copy. The
companion controller receiving the configuration information restarts after the
command is carried out.
CAUTION: Make sure you know which controller has the good configu-
ration information before entering this command. The device configura-
tion information from the controller specified by the controller parameter
overwrites the information on the companion controller.
Specify THIS_CONTROLLER to copy the device configuration information from the
“this controller” to “other controller.”
Specify OTHER_CONTROLLER to copy the device configuration information from
the “other controller” to “this controller.”
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Due to the amount of information being passed from one controller to the other, this
command may take up to one minute to complete.
Example
This example shows how to configure two controllers to operate in dual-redundant
mode within a multiple bus environment:
SET THIS_CONTROLLER PORT_1_ID=(0,1,2,3)
RESTART THIS_CONTROLLER
SET MULTIBUS_FAILOVER COPY=THIS_CONTROLLER
The configuration on “this controller” is automatically copied to the “other
controller” when you issue the SET MULTIBUS_FAILOVER COPY command. If
you want to prefer specific units to specific controllers, use the following command
after setting multiple bus failover:
SET D100 PREFERRED_PATH=THIS_CONTROLLER
SET D101 PREFERRED_PATH=OTHER_CONTROLLER
See also
SET FAILOVER
SET NOFAILOVER
SET NOMULTIBUS_FAILOVER
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SET NOFAILOVER
Reconfigures both controllers to operate in a nondual-redundant (nonfailover)
configuration. Immediately after entering this command, remove one controller from
the shelf because the sharing of devices is not supported by nonredundant controllers.
NOTE: SET NOFAILOVER and SET NOMULTIBUS_FAILOVER have the same effect.
Either command exits from transparent or multiple bus failover mode.
It is recommended that both controllers be present when this command is carried out.
Otherwise, the controllers become misconfigured with each other, requiring
additional steps later to allow the “other controller” to be configured for failover.
This command affects both controllers, regardless of the controller on which the
command is carried out. All units accessed through the “other controller” failover to
“this controller” and the “other controller” is shut down. No configuration
information is lost when the SET NOFAILOVER command is carried out.
Syntax
SET NOFAILOVER
Switches
DESTROY_UNFLUSHABLE_DATA
NODESTROY_UNFLUSHABLE_DATA (Default)
Instructs the controller how to handle unflushable data contained within the write-
back cache. Unflushable data may be present if, for example, a member of a stripeset
has failed. If the other controller is not running, use this switch to specify how to
handle this unflushable data when taking the controller pair out of failover mode. If
the other controller is running, unflushable data must be cleared from the other
controller with the CLI command, CLEAR_ERRORS controller INVALID_CACHE,
5–36.
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Specify NODESTROY_UNFLUSHABLE_DATA to leave the unwritten data intact in
the failed controller’s write-back cache. When the failed controller is replaced and
placed into service, the write-back cache data is flushed to the appropriate devices.
Specify DESTROY_UNFLUSHABLE_DATA to reconfigure the operational
controller before replacing the failed controller. The unwritten data of the failed
controller may reference devices not present in the new configuration. If you do not
destroy the old configuration data, it may conflict with the new configuration and
cause the subsystem to behave unpredictably.
CAUTION: Unflushed data cannot be recovered after it is destroyed.
Example
This example shows how to terminate failover mode between two controllers in a
dual-redundant configuration:
SET NOFAILOVER
See also
SET FAILOVER
SET MULTIBUS_FAILOVER
SET NOMULTIBUS_FAILOVER
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SET NOMULTIBUS_FAILOVER
Reconfigures both controllers to operate in a non-dual-redundant (non-failover)
configuration. Immediately after entering this command, remove one controller from
the shelf because the sharing of devices is not supported by nonredundant controllers.
NOTE: SET NOFAILOVER and SET NOMULTIBUS_FAILOVER have the same effect.
Either command exits from transparent or multiple bus failover mode.
It is recommended that both controllers be present when this command is carried out.
Otherwise, the controllers become misconfigured with each other, requiring
additional steps later to allow the “other controller” to be configured for failover.
This command affects both controllers, regardless of the controller on which the
command is carried out. All units accessed through the “other controller” failover to
“this controller” and the “other controller” is shut down. No configuration
information is lost when the SET NOMULTIBUS_FAILOVER command is carried
out.
Syntax
SET NOMULTIBUS_FAILOVER
Switches
DESTROY_UNFLUSHABLE_DATA
NODESTROY_UNFLUSHABLE_DATA (Default)
Instructs the controller how to handle data contained within write-back cache. These
switches have no effect if both controllers are operational. Select one of these
switches to indicate how the controller is to handle data contained in cache if one of
the controllers fails before it can properly shut down with the SET NOFAILOVER,
SET NOMULTIBUS_FAILOVER, or SHUTDOWN commands.
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Under some circumstances, the data in a failed controller’s write-back cache may not
fail over to the operating controller’s write-back cache. For example, cache data will
not failover if the operating controller has a failed cache battery because of the risk of
data loss if the power is interrupted.
Specify NODESTROY_UNFLUSHABLE_DATA to leave the unwritten data intact in
the failed controller’s write-back cache. When the failed controller is replaced and
placed into service, the write-back cache data is flushed to the appropriate devices.
Specify DESTROY_UNFLUSHABLE_DATA to reconfigure the operational
controller before replacing the failed controller. The unwritten data of the failed
controller may reference devices not present in the new configuration. If you do not
destroy the old configuration data, it may conflict with the new configuration and
cause the subsystem to behave unpredictably.
CAUTION: Unflushed data cannot be recovered after it is destroyed.
Example
This example shows how to terminate failover mode between two controllers in a
dual-redundant configuration and destroy any cache data that remains in either
controller’s cache:
SET NOMULTIBUS_FAILOVER DESTROY_UNFLUSHABLE_DATA
See also
SET FAILOVER
SET MULTIBUS_FAILOVER
SET NOFAILOVER
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5–124 CLI Commands
SET RAIDset-name
Changes the characteristics of a RAIDset.
Syntax
SET RAIDset-name
Parameters
RAIDset-name
Specifies the name of the RAIDset to modify. This is the name used with the ADD
UNIT command to identify the RAIDset as a host-addressable unit.
Switches
POLICY=BEST_FIT
POLICY=BEST_PERFORMANCE (Default)
NOPOLICY
Specifies the replacement policy to use when a member within the RAIDset fails.
Specify BEST_FIT to choose a replacement disk drive from the spareset that equals
or exceeds the base member size (smallest disk drive at the time the RAIDset was
initialized). If more than one disk drive in the spareset is the correct size, the
controller selects a disk drive having the best performance.
Specify POLICY=BEST_PERFORMANCE to choose a replacement disk drive from
the spareset resulting in the best performance of the RAIDset. The controller attempts
to select a disk on a different port than existing members. If more than one disk drive
in the spareset matches the best performance criteria, the controller selects a disk
drive that equals or exceeds the base member size of the RAIDset.
Specify NOPOLICY to prevent the controller from automatically replacing a failed
disk device. This causes the RAIDset to operate in a reduced state until either
POLICY=BEST_PERFORMANCE or POLICY=BEST_FIT is selected, or a
member is manually replaced in the mirrorset.
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RECONSTRUCT=FAST
RECONSTRUCT=NORMAL (Default)
Sets the speed at which the controller reconstructs the data on the new RAIDset
member replacing a failed member.
Specify NORMAL to balance other controller operations against the reconstruct
operation. The controller uses relatively few resources to perform the reconstruct, and
there is little impact on performance.
Specify FAST when the reconstruct operation must take precedence over other
controller operations. The controller uses more resources to perform the
reconstruction. Reconstruction takes less time, but overall controller performance is
reduced during the reconstruction.
REMOVE=disk-name
Instructs the controller to remove a member from an existing RAIDset. The disk drive
specified by disk-name is removed from the RAIDset specified by RAIDset-name.
The removed disk drive is added to the failedset.
If a RAIDset is already in a reduced state, an error is displayed and the command is
rejected. If a replacement policy is specified, the replacement is taken from the
spareset to replace the removed member using the policy specified.
If the NOPOLICY switch is specified with the SET RAIDset command, the RAIDset
continues to operate in a reduced state until a replacement policy is specified or the
REPLACE switch is specified. See the REPLACE=disk-name switch for information
on manually replacing a RAIDset member. See the POLICY and NOPOLICY
replacement.
NOTE: Do not specify other switches when you use the REMOVE switch.
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REPLACE=disk-name
Instructs the controller to add a disk member to an existing RAIDset if the following
conditions are met:
■
■
The replacement policy is set to NOPOLICY.
The disk member is not in any configuration, including a spareset.
An error is displayed and the command is rejected if the RAIDset is not in a reduced
state, if a replacement policy is already specified, or if the disk specified is already
being used by a configuration (including a spareset).
NOTE: Do not specify other switches when you use the REPLACE switch.
Examples
This example shows how to change the replacement policy for RAIDset RAID9 to
BEST_FIT:
SET RAID9 POLICY=BEST_FIT
This example shows how to remove member DISK10000 from the RAID9 RAIDset:
SET RAID9 REMOVE=DISK10000
If there is a replacement policy, the controller moves a disk from the spareset to the
RAIDset automatically.
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This example shows how to add disk DISK20100 to the reduced RAIDset, RAID9:
SET RAID9 REPLACE=DISK20100
Reconstruction immediately begins on DISK20100.
See also
ADD RAIDSET
SHOW RAIDSETS
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5–128 CLI Commands
SET unit-number
Changes the characteristics of a unit.
Syntax
SET unit-number
Parameter
unit-number
Specifies the logical unit number to modify. The unit-number is the name given to the
unit when it was created using the ADD UNIT command.
Switches
switches can be used with each type of device and storageset. Descriptions of the
switches follow the table.
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Table 5–8 SET UNIT Switches for Existing Containers
Container Type
RAIDset
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
✔
Stripeset
Mirrorset
✔
NoTransportable Disk
Transportable Disk
Passthrough
NOTE: ERROR_MODE is only valid on mirrorsets that have been specified for
DT_SUPPORT.
Regardless of storageset type, the RUN and NORUN switches cannot be specified
for partitioned units.
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5–130 CLI Commands
ENABLE_ACCESS_PATH=
DISABLE_ACCESS_PATH=
THIS_PORT_1_ENABLE_ACCESS_PATH=
THIS_PORT_1_DISABLE_ACCESS_PATH=
THIS_PORT_2_ENABLE_ACCESS_PATH=
THIS_PORT_2_DISABLE_ACCESS_PATH=
OTHER_PORT_1_ENABLE_ACCESS_PATH=
OTHER_PORT_1_DISABLE_ACCESS_PATH=
OTHER_PORT_2_ENABLE_ACCESS_PATH=
OTHER_PORT_2_DISABLE_ACCESS_PATH=
Specifies the access path. It can be a single specific host ID, multiple host IDs, or all
host IDs (ALL). If you have multiple hosts on the same bus, you can use this switch to
restrict hosts from accessing certain units. This switch limits visibility of specific
units from certain hosts. For example, if two hosts are on the same bus, you can
restrict each host to access only specific units.
ENABLE_ACCESS_PATH and DISABLE_ACCESS_PATH switches are available
only when in transparent mode; the other switches are available only when in multiple
bus failover mode.
If you enable another host ID, previously enabled hosts are not disabled. The new ID
are added. If you wish to enable only certain IDs, disable all access paths
(DISABLE_ACCESS_PATH=ALL or
THIS(OTHER)_PORT_1(2)_DISABLE_ACCESS_PATH=ALL), then enable the
desired IDs. The system will display the following message (transparent failover
mode, typical):
Warning 1000: Access IDs in addition to the one(s) specified are still
enabled. If you wish to enable ONLY the id(s) listed, disable all
access paths (DISABLE_ACCESS_PATH=ALL), then enable the ones
previously listed.
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PARTITION=partition_number
Identifies the unit number for a partition on a container. The partition-number
identifies the partition associated with the unit number being added. Use the SHOW
container-name command to find the partition numbers used by a storageset or a
single-disk unit.
NOTE: Do not split partitioned units across ports. Partitioned units must be on a
single port.
MAXIMUM_CACHED_TRANSFER=n
MAXIMUM_CACHED_TRANSFER=32 (Default)
The controller does not cache any transfers over the set size. Accepted values are 1
through 2048.
PREFERRED_PATH=OTHER_CONTROLLER
PREFERRED_PATH=THIS_CONTROLLER
NOPREFERRED_PATH (Default)
May be set only when dual-redundant controllers are operating in a multiple bus
failover configuration. In a multiple bus failover configuration, the host determines
which controller the units are accessed through. The host’s unit-to-controller settings
always take precedence over the preferred path assigned to units with this switch. The
target ID numbers assigned with the SET controller PORT_1_ID (or PORT_2)
command determines which target ID number the controller uses to respond to the
host.
NOTE: When the controllers are configured to operate in transparent-failover
mode, if you set the PREFERRED_PATH switch with the ADD UNIT or SET unit-
number command, an error message displays because you can only assign a
preferred controller path at the unit level only when in multiple bus failover mode.
When no preferred path is assigned, the unit is targeted through the controller which
detects the unit first after the controllers start.
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Select PREFERRED_PATH=THIS_CONTROLLER to instruct “this controller” to
bring the unit online.
Select PREFERRED_PATH=OTHER_CONTROLLER to instruct the “other
controller” to bring the unit online.
See Chapter 2 for information regarding multiple bus failover.
ERROR_MODE=NORMAL
ERROR_MODE=FAILSAFE
Valid only on mirrorsets that have been enabled for DT_SUPPORT. Controls how the
mirroring software treats member failure.
Specify NORMAL and the mirroring software will fail any I/O—forcing the mirrorset
inoperative—when the normal/normalizing local membership falls to zero.
Specify FAILSAFE and the mirroring software will fail any I/O—forcing the
mirrorset inoperative—whenever either normal/normalizing remote membership or
normal/normalizing local membership falls to zero.
If FAILSAFE is specified, the DT_SUPPORT must be enabled on the mirrorset and
there must be at least one normal/normalizing local member and one normal/
normalizing remote member, otherwise an error is displayed.
READ_CACHE (Default)
NOREAD_CACHE
Sets the controller’s read-cache function.
Read caching improves performance in almost all situations. Therefore, it is
recommended to leave its default setting, READ_CACHE, enabled. However, under
certain conditions, such as when performing a backup, read-caching may not be
necessary since only a small amount of data is cached. In such instances, it may be
beneficial to disable read cache and remove the processing overhead associated with
caching.
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5–133
READAHEAD_CACHE (Default)
NOREADAHEAD_CACHE
Enables the controller to keep track of read I/Os. If the controller detects sequential
read I/Os from the host, it will then try to keep ahead of the host by reading the next
sequential blocks of data (those the host has not yet requested) and put the data in
cache. This process is sometimes referred to as prefetch. The controller can detect
multiple sequential I/O requests across multiple units.
Read ahead caching improves host application performance since the data will be read
from the controller cache instead of disk. Read ahead caching is the default for units.
If you do not expect this unit to get sequential I/O requests, select
NOREADAHEAD_CACHE for the unit.
RUN (Default)
NORUN
Controls the unit’s operation and availability to the host.
Specify RUN to make a unit available to the host.
Specify NORUN to make a unit unavailable to the host and to cause any data in cache
to be flushed to one or more drives. NORUN spins down the devices making up a
unit. The drives making up the unit spin down after the data has been completely
flushed.
NOTE: Do not specify the RUN and NORUN switches for partitions.
WRITE_PROTECT (Default)
NOWRITE_PROTECT
Tells the controller whether data contained on the unit can be overwritten.
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Specify WRITE_PROTECT to prevent host write operations to the unit. However, the
controller may still write to a write-protected RAIDset to satisfy a reconstruct pass or
to reconstruct a newly replaced member. Additionally, metadata, reconstruct, and
copy writes are still allowed to RAIDsets and mirrorsets.
Specify NOWRITE_PROTECT to allow the host to write data to the unit. This allows
the controller to overwrite existing data. NOWRITE_PROTECT is the default for
transportable disks.
WRITEBACK_CACHE (Default)
NOWRITEBACK_CACHE
Enable or disable the write-back data caching function of the controller. The
controller’s write-back caching feature improves write performance.
NOWRITEBACK_CACHE is the default on transportable disks.
Specify WRITEBACK_CACHE for all new RAIDsets, mirrorsets, and units you want
to take advantage of the controller’s write-back caching. WRITEBACK_CACHE
cannot be enabled on units with an underlying DT_SUPPORT mirrorset container.
Specify NOWRITEBACK_CACHE for units you want to receive data directly from
the host without being cached.
CAUTION: Though there is built-in redundancy to protect data contained
in cache, allowing data to be written to write-back cache may result in
the loss of data if the controller fails.
NOTE: The controller may take up to 5 minutes to flush data contained within the
write-back cache when you specify the NOWRITEBACK_CACHE switch.
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5–135
Example
This example shows how to enable write protect and turn off the read cache on unit
D102:
SET D102 WRITE_PROTECT NOREAD_CACHE
See also
SHOW UNITS
SHOW unit-number
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5–136 CLI Commands
SHOW
Displays information about controllers, storagesets, devices, partitions, and units.
The SHOW command may not display some information for devices accessed
through the companion controller in a dual-redundant configuration. When
information regarding a device or parameter does not appear, enter the same SHOW
command from a terminal on the other controller.
Syntax
SHOW controller
SHOW device-name
SHOW device-type
SHOW EMU
SHOW storageset-name
SHOW storageset-type
SHOW unit-number
SHOW UNITS
Parameters
controller
Specifies the controller to be displayed.
THIS_CONTROLLER
OTHER_CONTROLLER
device-name
Specifies the name of a particular device to be displayed. For example, SHOW
DISK20100 displays information about the device named DISK20100.
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5–137
device-type
Specifies the type of devices you want to be displayed. Valid choices are:
■
■
■
DEVICES—Shows all devices attached to the controller.
DISKS—Shows all disks attached to the controller.
PASSTHROUGH—Shows all passthrough containers attached to the controller.
EMU
Displays information regarding the status of the environmental monitoring unit
(EMU).
storageset-name
Specifies the name of a particular storageset to be displayed. For example, SHOW
STRIPE1 displays information about the stripeset named STRIPE1.
storageset-type
Specifies the type of storageset to be displayed. Valid types are:
■
■
■
■
■
■
FAILEDSET—Shows the failedset configured to the controller.
MIRRORSETS—Shows all mirrorsets configured to the controller.
RAIDSETS—Shows all RAIDsets configured to the controller.
SPARESET—Show the spareset configured to the controller.
STORAGESETS—Shows all storagesets configured with the controller.
STRIPESETS—Shows all stripesets configured to the controller.
unit-number
Specifies the name of a particular unit to be displayed. For example, SHOW D102
displays information about the unit named D102.
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5–138 CLI Commands
UNITS
Displays information for all units configured to the controller.
If the underlying container is a mirrorset with DT_SUPPORT, it displays the
ERROR_MODE setting. It reports if the mirrorset is failsafe locked or normal. A unit
that is inoperative due to the failsafe locked condition will only be shown at the unit
level (not mirrorset level). Since WRITEBACK_CACHE is not an allowable switch
for DT_SUPPORT mirrorset, the switch is not displayed.
In addition to the unit name you defined for the unit, the information includes the
unique 128-bit subsystem unit ID. This ID consists of the controller node ID plus a
64-bit unit ID generated by the subsystem. You name the units, however, the
subsystem identifies them internally using this identifier.
A unit on controller 1234 5678 9ABC EF00 would have an ID like the following:
1234 5678 9ABC EF00 0001 0001 3056 00D2
Each single disk unit or storage device in your subsystem is assigned a unique unit ID
number. The controller constructs a unit ID number for each device you add to the
subsystem. The ID number consists of the controller’s worldwide node ID and a
unique, internally generated serial stamp. You cannot set or change unit IDs.
Unit ID numbers stay with the unit when you move the unit from one slot to another
in the enclosure.
Switches
FULL
Displays additional information about each device, storageset, or controller.
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5–139
Examples
This example shows how to display a listing of disks:
SHOW DISKS
Name
Type
Port Targ Lun
Used by
-----------------------------------------------------------------
DISK20300
DISK10100
disk 1
disk 1
0
1
0
0
D100
D101
This example shows a full listing of devices attached to the controller:
SHOW DEVICES FULL
Name
------------------------------------------------------------------------------
DISK100 disk R0
Type
Port Targ Lun
Used by
1
0
0
DEC HSZ80
Switches:
(C) DEC V10Z
NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 20.00 MHZ negotiated)
LOCAL
Size: 8378028 blocks
DISK200
disk
2
0
0
R0
DEC HSZ80
Switches:
(C) DEC V10Z
NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 20.00 MHZ negotiated)
LOCAL
Size: 8378028 blocks
DISK300
disk
3
0
0
R0
DEC HSZ80
Switches:
(C) DEC V10Z
NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 20.00 MHZ negotiated)
REMOTE
Size: 8378028 blocks
DISK400
disk
4
0
0
R0
DEC HSZ80
(C) DEC V10Z
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Switches:
NOTRANSPORTABLE
TRANSFER_RATE_REQUESTED = 20MHZ (synchronous 20.00 MHZ negotiated)
REMOTE
Size: 8378028 blocks
Configuration being backed up on this container
This example shows how to display a complete listing of the mirrorset named
MIRR1:
SHOW MIRR1
Name
Storageset
Uses
Used by
------------------------------------------------------------------------------
MIRR1
mirrorset
DISK50300
DISK60300
S0
Switches:
POLICY (for replacement) = BEST_PERFORMANCE
COPY (priority) = NORMAL
READ_SOURCE = LEAST_BUSY
MEMBERSHIP = 2, 2 members present
State:
NORMAL
DISK60300 (member 0) is NORMAL
DISK50300 (member 1) is NORMAL
Size: 17769177 blocks
This example shows the full information for a mirrorset:
SHOW MIRRORSET FULL
Name
Storageset
Uses
Used by
------------------------------------------------------------------------------
M0
mirrorset
DISK100
DISK200
DISK300
DISK400
D0
Switches:
COPY (priority) = NORMAL
READ_SOURCE = LEAST_BUSY
MEMBERSHIP = 4, 4 MEMBER PRESENT
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5–141
DT_SUPPORT
State:
RECONSTRUCTING
LOCAL DISK100 (member 0) is NORMAL
REMOTE DISK200 (member 1) is NORMALIZING 2% complete
LOCAL DISK300 (member 2) is NORMALIZING 0% complete
REMOTE DISK400 (member 3) is NORMALIZING 0% complete
Size: 8378028 blocks
This example shows the full information for a controller:
SHOW THIS_CONTROLLER FULL
Controller:
Not configured for dual-redundancy
Device port SCSI address 7
Time: NOT SET
Host port:
SCSI target(s) (0, 2, 4, 5)
Preferred target(s) (0, 2, 4)
TRANSFER_RATE_REQUESTED = 20MHZ
Host Functionality Mode = A
Command Console LUN is target 0, lun 4
Cache:
64 megabyte write cache, version 4
Cache is GOOD
Battery is GOOD
No unflushed data in cache
CACHE_FLUSH_TIMER = DEFAULT (10 seconds)
NOCACHE_UPS
Mirrored Cache:
64 megabyte write cache, version 4
Cache is GOOD
Battery is GOOD
No unflushed data in cache
Extended information:
Terminal speed 19200 baud, eight bit, no parity, 1 stop bit
Operation control: 00000001 Security state code: 75580
Configuration backup disabled
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5–142 CLI Commands
This example shows how to display the current settings for the EMU:
SHOW EMU
EMU CABINET SETTINGS
SENSOR_1_SETPOINT 35 DEGREES C
SENSOR_2_SETPOINT 35 DEGREES C
SENSOR_3_SETPOINT 35 DEGREES C
FANSPEED AUTOMATIC
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SHUTDOWN controller
Flushes all user data from the specified controller’s write-back cache (if present) and
shuts down the controller. The controller does not automatically restart. All units
accessed through the failed controller failover to the surviving controller.
Syntax
SHUTDOWN controller
Parameter
controller
Indicates which controller is to shut down. Specify OTHER_CONTROLLER or
THIS_CONTROLLER.
Switches
IGNORE_ERRORS
NOIGNORE_ERRORS (Default)
Controls the reaction of the controller based on the status of write-back cache.
CAUTION: The IGNORE_ERRORS switch causes the controller to keep
unflushed data in the write-back cache until it restarts and is able to
write the data to devices. Do not perform any hardware changes until
the controller flushes the cache.
Specify IGNORE_ERRORS to instruct the controller to shutdown even if the data
within write-back cache cannot be written to the devices.
Specify NOIGNORE_ERRORS to instruct the controller to stop operation if the data
within write-back cache cannot be written to the devices.
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IMMEDIATE_SHUTDOWN
NOIMMEDIATE_SHUTDOWN (Default)
Instructs the controller when to shutdown.
CAUTION: The IMMEDIATE_SHUTDOWN switch causes the controller to
keep unflushed data in the write-back cache until it restarts and is able
to write the data to devices. Do not perform any hardware changes until
the controller flushes the cache.
Specify IMMEDIATE_SHUTDOWN to cause the controller to shutdown
immediately without checking for online devices or before flushing data from the
write-back cache to devices.
Specify NOIMMEDIATE_SHUTDOWN to cause the controller not to shutdown
without checking for online devices or before all data has been flushed from the
write-back cache to devices.
Examples
This example shows how to shut down “this controller:”
SHUTDOWN THIS_CONTROLLER
This example shows how to shut down the other controller, even if it cannot write all
of the write-back cached data to the units:
SHUTDOWN OTHER_CONTROLLER IGNORE_ERRORS
See also
RESTART controller
SELFTEST controller
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5–145
UNMIRROR
Converts a one-member mirrorset back to a non-mirrored disk drive and deletes its
mirrorset from the list of known mirrorsets. This command can be used only on
mirrorsets already members of higher-level containers (stripesets or units).
The UNMIRROR command is not valid for disk drives having a capacity greater than
the capacity of the existing mirrorset. If a mirrorset is comprised of disk drives with
different capacities, the mirrorset capacity is limited to the size of the smallest
member; larger members contain unused capacity. If a member with unused capacity
is the last remaining member of a mirrorset, the UNMIRROR command cannot be
used to change the disk drive back to a single-disk unit. This change would cause a
change in the reported disk capacity, possibly corrupting user data.
Syntax
UNMIRROR disk-name
Parameter
disk-name
Specifies the name of the normal mirrorset member to be removed from a mirror
storageset.
Example
This example shows how to convert DISK10300 back to a single device:
UNMIRROR DISK10300
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See also
ADD MIRRORSET
MIRROR
REDUCE
RUN CLONE
SET mirrorset-name
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A–1
Appendix A
System Profiles
This appendix contains device and storageset profiles you can use to create your
system profiles. It also contains an enclosure template you can use to help keep track
of the location of devices and storagesets in your shelves.
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A–2 System Profiles
Device Profile
Type of Storageset
_____ Platter disk drive
_____ Optical Disk Drive
Device Name
Unit Number
Device Switches
Transportability
___ No (default)
___ Yes
Initialize Switches
Chunk size
___ Automatic (default)
___ 64 blocks
Save Configuration
___ No (default)
___ Yes
Metadata
___ Destroy (default)
___ Retain
___ 128 blocks
___ 256 blocks
___ Other:
Unit Switches
Read Cache
Write Cache
Maximum Cache Transfer
___ Yes (default)
___ No
___ Yes (default)
___ No
___ 32 blocks (default)
___ Other:
Availability
Write Protection
Read-Ahead Cache
___ Run (default)
___ NoRun
___ No (default)
___ Yes
___ Yes (default)
___ No
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A–3
Storageset Profile
Type of Storageset
___ Mirrorset
___ RAIDset
___ Stripeset
___ Striped Mirrorset
Storageset Name.........
Disk Drives...................
Unit Number.................
Partitions
Unit #
Unit #
Unit #
Unit #
Unit #
Unit #
Unit #
Unit #
%
%
%
%
%
%
%
%
RAIDset Switches
Reconstruction Policy
____ Normal (default)
Reduced Membership
____ No (default)
____ Yes, missing:
Replacement Policy
____ Best performance
(default)
____ Fast
____ Best fit
____ None
Mirrorset Switches
Replacement Policy
___ Best performance (default)
___ Best fit
Copy Policy
___ Normal (default)
___ Fast
Read Source
___ Least busy (default)
___ Round robin
___ None
___ Disk drive:
Initialize Switches
Chunk size
____ Automatic (default)
____ 64 blocks
____ 128 blocks
____ 256 blocks
____ Other:
Save Configuration
____ No (default)
____ Yes
Metadata
____ Destroy (default)
____ Retain
Unit Switches
Read Cache
____Yes (default)
____ No
Read-Ahead Cache
____ Yes (default)
____ No
Maximum Cache Transfer
____ 32 blocks (default)
____ Other:
Error Mode*
___ Normal
___ Failsafe
*Valid only for
mirrorsets with DT
support enabled
Write Cache
____ Yes (default)
____ No
Write Protection
____ No (default)
____ Yes
Availability
____ Run (default)
____ NoRun
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B–1
Appendix B
Controller Specifications
This appendix contains physical, electrical, and environmental specifications for the
HSZ80 Array Controller.
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B–2 Controller Specifications
Physical and Electrical Specifications for the
Controller
Table B–1 lists the physical and electrical specifications for the controller and cache
modules.
Table B–1 Controller Specifications
Hardware
Length
Width
Power
Current at
+5 V
Current at +12 V
HSZ80 Array Controller
module
12.5 inches 8.75 inches 23.27 W
6.04 A
Write-back Cache, 512 MB 12.5 inches 7.75 inches 2.48 W
(Battery charging) 8.72 W
Cache idle, no
battery 230 mA
Cache running
diagnostics, no
battery 400 mA
Cache idle, fully
discharged
battery 710 mA
This table does not included tolerances.
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B–3
Environmental Specifications
The HSZ80 array controller is intended for installation in a Class A computer room
environment.
as for other Compaq storage devices.
Table B–2 Optimum Operating Environmental Specifications
Condition
Specification
Temperature
+18° to +24°C (+65° to +75°F)
Temperature rate of change
Relative humidity
11°C (20°F per hour)
40% to 60% (noncondensing) with a step change of 10% or less
(noncondensing)
Altitude
From sea level to 2400 m (8000 ft)
Air quality
Maximum particle count 0.5 micron or larger, not to exceed 500,000
particles per cubic foot of air
Inlet air volume
0.026 cubic m per second (50 cubic ft per minute)
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B–4 Controller Specifications
Table B–3 Maximum Operating Environmental Specifications
Condition
Specification
Temperature
+10° to +40°C (+50° to +104°F)
Derate 1.8°C for each 1000 m (1.0°F for each 1000 ft) of altitude
Maximum temperature gradient 11°C/hour (20°F/hour) 2°C/hour (4°F/
hour)
Relative humidity
10% to 90% (noncondensing)
Maximum wet bulb temperature: 28°C (82°F)
Minimum dew point: 2°C (36°F)
Table B–4 Maximum Nonoperating Environmental Specifications
Condition
Specification
Temperature
-40° to +66°C (-40° to +151°F)
(During transportation and associated short-term storage)
Relative Humidity
Altitude
8% to 95% in original shipping container (noncondensing);
otherwise, 50% (noncondensing)
From -300 m (-1000 ft) to +3600 m (+12,000 ft) Mean Sea Level (MSL)
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GL–1
Glossary
This glossary defines terms pertaining to the HSZ80. It is not a
comprehensive glossary of computer terms.
adapter
A device that converts the protocol and hardware interface of one bus type
into another without changing the function of the bus.
ACS
Array Controller Software. See array controller software.
See controller.
array controller
array controller
software
Software contained on a removable ROM program card that provides the
operating system for the array controller.
asynchronous
Pertaining to events that are scheduled as the result of a signal asking for the
event; pertaining to that which is without any specified time relation. See
also synchronous.
bad block
A data block that contains a physical defect.
bad block
replacement
A replacement routine that substitutes defect-free disk blocks for those
found to have defects. This process takes place in the controller, transparent
to the host.
backplane
The electronic printed circuit board into which you plug subsystem devices,
for example, the SBB or power supply.
battery hysteresis The ability of the software to allow write-back caching during the time when
a battery is charging, but only when a previous down time has not drained
more than 50 percent of a battery’s rated capacity.
BBR
See bad block replacement.
See built-in self-test.
BIST
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GL–2 Glossary
bit
A single binary digit having a value of either 0 or 1. A bit is the smallest unit
of data a computer can process.
block
Also called a sector. The smallest collection of consecutive bytes addressable
on a disk drive. In integrated storage elements, a block contains 512 bytes of
data, error codes, flags, and the block’s address header.
bootstrapping
A method used to bring a system or device into a defined state by means of
its own action. For example, a machine routine whose first few instructions
are enough to bring the rest of the routine into the computer from an input
device.
built-in self-test
A diagnostic test performed by the array controller software on the
controller’s policy processor.
byte
A binary character string made up of 8 bits operated on as a unit.
A portion of memory used to accelerate read and write operations.
cache memory
CDU
Cable Distribution Unit. The power entry device for Compaq StorageWorks
cabinets. The CDU provides the connections necessary to distribute power to
the cabinet shelves and fans.
channel
An interface which allows high speed transfer of large amounts of data.
Another term for a SCSI bus. See also SCSI.
chunk
A block of data written by the host.
chunk size
The number of data blocks, assigned by a system administrator, written to
the primary RAIDset or stripeset member before the remaining data blocks
are written to the next RAIDset or stripeset member.
CLI
See command line interpreter.
coaxial cable
A two-conductor wire in which one conductor completely wraps the other
with the two separated by insulation.
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GL–3
cold swap
A method of device replacement that requires the entire subsystem to be
turned off before the SBB device can be replaced. See also hot swap and
warm swap.
command line
interpreter
The configuration interface to operate the controller software.
configuration file
container
A file that contains a representation of a storage subsystem’s configuration.
1) Any entity that is capable of storing data, whether it is a physical device or
a group of physical devices. 2) A virtual, internal controller structure
representing either a single disk or a group of disk drives linked as a
storageset. Stripesets and mirrorsets are examples of storageset containers
the controller uses to create units.
controller
A hardware device that, with proprietary software, facilitates
communications between a host and one or more devices organized in an
array.
A state in which data to be copied to the mirrorset is inconsistent with other
members of the mirrorset. See also normalizing.
copying member
Any member that joins the mirrorset after the mirrorset is created. Once all
the data from the normal member (or members) is copied to a normalizing or
copying member, the copying member then becomes a normal member. See
also normalizing member.
CSR
Control and Status Register.
DAEMON
A program usually associated with UNIX systems and that performs a utility
(housekeeping or maintenance) function without being requested or even
known of by the user. A daemon is a diagnostic and execution monitor.
data center cabinet A generic reference to large Compaq subsystem cabinets, such as the
SW600-series and 800-series cabinets in which StorageWorks components
can be mounted.
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GL–4 Glossary
data striping
The process of segmenting logically sequential data, such as a single file, so
that segments can be written to multiple physical devices (usually disk
drives) in a round-robin fashion. This technique is useful if the processor is
capable of reading or writing data faster than a single disk can supply or
accept the data. While data is being transferred from the first disk, the
second disk can locate the next segment.
device
See node and peripheral device.
differential I/O
module
A 16-bit I/O module with SCSI bus converter circuitry for extending a
differential SCSI bus. See also I/O module.
differential SCSI busA bus in which a signal’s level is determined by the potential difference
between two wires. A differential bus is more robust and less subject to
electrical noise than is a single-ended bus.
DIMM
Dual Inline Memory Module.
dirty data
Write-back cached data that has not been written to storage media, even
though the host operation processing the data has completed.
disaster tolerance The ability to resume data center operations shortly after a significant event
occurs at the primary data center. The ability to restart processing can require
an alternate data center, with current copies of critical data in a usable state.
DMA
Direct Memory Access.
driver
A hardware device or a program that controls or regulates another device.
For example, a device driver is a driver developed for a specific device that
allows a computer to operate with the device, such as a printer or a disk
drive.
dual-redundant
configuration
A controller configuration consisting of two active controllers operating as a
single controller. If one controller fails, the other controller assumes control
of the failing controller’s devices.
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GL–5
dual-simplex
DUART
ECB
A communications protocol that allows simultaneous transmission in both
directions in a link, usually with no flow control.
Dual Universal Asynchronous Receiver and Transmitter. An integrated
circuit containing two serial, asynchronous transceiver circuits.
External Cache Battery. The unit that supplies backup power to the cache
module in the event the primary power source fails or is interrupted.
ECC
EDC
EMU
Error Checking and Correction.
Error Detection Code.
Environmental monitoring unit. A unit that provides increased protection
against catastrophic failures. Some subsystem enclosures include an EMU
which works with the controller to detect conditions such as failed power
supplies, failed blowers, elevated temperatures, and external air sense faults.
The EMU also controls certain cabinet hardware including DOC chips,
alarms, and fan speeds.
ESD
Electrostatic discharge. The discharge of potentially harmful static electrical
voltage as a result of improper grounding.
extended subsystem A subsystem in which one or two cabinets are connected to the primary
cabinet.
external cache
battery
See ECB.
failedset
failover
A group of failed mirrorset or RAIDset devices automatically created by the
controller.
The process that takes place when one controller in a dual-redundant
configuration assumes the workload of a failed companion controller.
Failover continues until the failed controller is repaired or replaced.
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GL–6 Glossary
FD SCSI
The fast, narrow, differential SCSI bus with an 8-bit data transfer rate of 10
MB/s. See also FWD SCSI and SCSI.
flush
The act of writing dirty data from cache to a storage media.
Fault Management Utility.
FMU
forced errors
A data bit indicating a corresponding logical data block contains
unrecoverable data.
FRU
Field Replaceable Unit. A hardware component that can be replaced at the
customer’s location by Compaq service personnel or qualified customer
service personnel.
full duplex
FWD SCSI
A communications system in which there is a capability for 2-way
transmission and acceptance between two sites at the same time.
A fast, wide, differential SCSI bus with a maximum 16-bit data transfer rate
of 20 MB/s. See also SCSI and FD SCSI.
gigabaud
gigabyte
An encoded bit transmission rate of one billion (109) bits per second.
A value normally associated with a disk drives storage capacity, meaning a
billion (109) bytes.
half-duplex
host
Pertaining to a communications system in which data can be either
transmitted or received but only in one direction at one time.
The primary or controlling computer to which a storage subsystem is
attached.
host adapter
A device that connects a host system to a SCSI bus. The host adapter usually
performs the lowest layers of the SCSI protocol. This function may be
logically and physically integrated into the host system.
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GL–7
host compatibility A setting used by the controller to provide optimal controller performance
mode
with specific operating systems. This improves the controller’s performance
and compatibility with the specified operating system.
hot disks
A disk containing multiple hot spots. Hot disks occur when the workload is
poorly distributed across storage devices which prevents optimum subsystem
performance. See also hot spots.
hot spots
hot swap
A portion of a disk drive frequently accessed by the host. Because the data
being accessed is concentrated in one area, rather than spread across an array
of disks providing parallel access, I/O performance is significantly reduced.
See also hot disks.
A method of device replacement that allows normal I/O activity on a
device’s bus to remain active during device removal and insertion. The
device being removed or inserted is the only device that cannot perform
operations during this process. See also cold swap and warm swap.
IBR
Initial Boot Record.
Illegal function.
ILF
INIT
initiator
Initialize Input and Output.
A SCSI device that requests an I/O process to be performed by another SCSI
device, namely, the SCSI target. The controller is the initiator on the device
bus. The host is the initiator on the host bus.
instance code
I/O driver
A four-byte value displayed in most text error messages and issued by the
controller when a subsystem error occurs. The instance code indicates when
during software processing the error was detected.
The set of code in the kernel that handles the physical I/O to a device. This is
implemented as a fork process. Same as driver.
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GL–8 Glossary
I/O module
A 16-bit SBB shelf device that integrates the SBB shelf with either an 8-bit
single ended, 16-bit single-ended, or 16-bit differential SCSI bus.
I/O operation
The process of requesting a transfer of data from a peripheral device to
memory (or vice versa), the actual transfer of the data, and the processing
and overlaying activity to make both of those happen.
JBOD
Just a Bunch of Disks. Describes a group of single-device logical units.
Logical Block Number.
LBN
LED
Light Emitting Diode.
local connection
A connection to the subsystem using either its serial maintenance port or the
host’s SCSI bus. A local connection enables you to connect to one subsystem
controller within the physical range of the serial or host SCSI cable.
local terminal
logical bus
A terminal plugged into the EIA-423 maintenance port located on the front
bezel of the controller. See also maintenance terminal.
A single-ended bus connected to a differential bus by a SCSI bus signal
converter.
logical unit
A physical or virtual device addressable through a target ID number. LUNs
use their target’s bus connection to communicate on the SCSI bus.
logical unit number A value that identifies a specific logical unit belonging to a SCSI target ID
number. A number associated with a physical device unit during a task’s I/O
operations. Each task in the system must establish its own correspondence
between logical unit numbers and physical devices.
LRU
Mb/s
Least Recently Used. A cache term used to describe the block replacement
policy for read cache.
Megabits per second. Approximately one million (106) bits per second.
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GL–9
MB/s
Megabytes per second. Approximately one million (106) bytes per second.
maintenance
terminal
An EIA-423-compatible terminal used with the controller. This terminal is
used to identify the controller, enable host paths, enter configuration
information, and check the controller’s status. The maintenance terminal is
not required for normal operations. See also local terminal.
member
A container that is a storage element in a RAID array.
metadata
The data written to a disk for the purposes of controller administration.
Metadata improves error detection and media defect management for the
disk drive. It is also used to support storageset configuration and
partitioning. Nontransportable disks also contain metadata to indicate they
are uniquely configured for StorageWorks environments. Metadata can be
thought of as “data about data.”
mirrored write-back A method of caching data that maintains two copies of the cached data. The
caching
mirroring
mirrorset
MIST
copy is available if either cache module fails.
The act of creating an exact copy or image of data.
See RAID level 1.
Module Integrity Self-Test.
network
A data communication, a configuration in which two or more terminals or
devices are connected to enable information transfer.
nominal
membership
The desired number of mirrorset members when the mirrorset is fully
populated with active devices. If a member is removed from a mirrorset, the
actual number of members may fall below the “nominal” membership.
nonredundant
controller
(1) A single controller configuration. (2) A controller configuration that does
not include a second controller.
configuration
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GL–10 Glossary
normal member
A mirrorset member that, block-for-block, contains the same data as other
normal members within the mirrorset. Read requests from the host are
always satisfied by normal members.
normalizing
Normalizing is a state in which, block-for-block, data written by the host to a
mirrorset member is consistent with the data on other normal and
normalizing members. The normalizing state exists only after a mirrorset is
initialized.
normalizing memberA mirrorset member whose contents is the same as all other normal and
normalizing members for data that has been written since the mirrorset was
created or lost cache data was cleared. A normalizing member becomes a
normal member when either all of the normal members fail or all of the
normal members are removed from the mirrorset. See also copying member.
NVM
OCP
Nonvolatile Memory. A type of memory where the contents survive power
loss. Also referred to as NVMEM.
Operator Control Panel. The control or indicator panel associated with a
device. The OCP is usually mounted on the device and is accessible to the
operator.
other controller
The controller in a dual-redundant pair that is connected to the controller
serving your current CLI session. See also this controller.
parallel data
transmission
A data communication technique in which more than one code element (for
example, bit) of each byte is sent or received simultaneously.
parity
A method of checking if binary numbers or characters are correct by
counting the ONE bits. In odd parity, the total number of ONE bits must be
odd; in even parity, the total number of ONE bits must be even.
parity bit
A binary digit added to a group of bits that checks to see if errors exist in the
transmission.
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parity check
A method of detecting errors when data is sent over a communications line.
With even parity, the number of ones in a set of binary data should be even.
With odd parity, the number of ones should be odd.
PCM
Polycenter Console Manager.
PCMCIA
Personal Computer Memory Card Industry Association. An international
association formed to promote a common standard for PC card-based
peripherals to be plugged into notebook computers. The card commonly
known as a PCMCIA card is about the size of a credit card.
parity bit
A binary digit added to a group of bits that checks to see if there are errors in
the transmission.
parity RAID
partition
See RAIDset.
A logical division of a container, represented to the host as a logical unit.
peripheral device
Any unit, distinct from the CPU and physical memory, that can provide the
system with input or accept any output from it. Terminals, printers, tape
drives, and disks are peripheral devices.
port
(1) In general terms, a logical channel in a communications system. (2) The
hardware and software used to connect a host controller to a communications
bus, such as a SCSI bus or serial bus.
Regarding the controller, the port is (1) the logical route for data in and out
of a controller that can contain one or more channels, all of which contain
the same type of data. (2) The hardware and software that connects a
controller to a SCSI device.
primary cabinet
program card
The primary cabinet is the subsystem enclosure that contains the controllers,
cache modules, external cache batteries, and the PVA module.
The PCMCIA card containing the controller’s operating software.
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GL–12 Glossary
protocol
The conventions or rules for the format and timing of messages sent and
received.
PTL
Port-Target-LUN. The controller’s method of locating a device on the
controller’s device bus.
PVA module
RAID
Power Verification and Addressing module.
Redundant Array of Independent Disks. Represents multiple levels of
storage access developed to improve performance or availability or both.
RAID level 0
A RAID storageset that stripes data across an array of disk drives. A single
logical disk spans multiple physical disks, allowing parallel data processing
for increased I/O performance. While the performance characteristics of
RAID level 0 are excellent, this RAID level is the only one that does not
provide redundancy. Raid level 0 storagesets are sometimes referred to as
stripesets.
RAID level 0+1
RAID level 1
RAID level 3
A RAID storageset that stripes data across an array of disks (RAID level 0)
and mirrors the striped data (RAID level 1) to provide high I/O performance
and high availability. Raid level 0+1 storagesets are sometimes referred to as
striped mirrorsets.
A RAID storageset of two or more physical disks that maintains a complete
and independent copy of the entire virtual disk's data. This type of storageset
has the advantage of being highly reliable and extremely tolerant of device
failure. Raid level 1 storagesets are sometimes referred to as mirrorsets.
A RAID storageset that transfers data parallel across the array’s disk drives a
byte at a time, causing individual blocks of data to be spread over several
disks serving as one enormous virtual disk. A separate redundant check disk
for the entire array stores parity on a dedicated disk drive within the
storageset. See also RAID level 5.
RAID Level 5
A RAID storageset that, unlike RAID level 3, stores the parity information
across all of the disk drives within the storageset. See also RAID level 3.
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GL–13
RAID level 3/5
A Compaq-developed RAID storageset that stripes data and parity across
three or more members in a disk array. A RAIDset combines the best
characteristics of RAID level 3 and RAID level 5. A RAIDset is the best
choice for most applications with small to medium I/O requests, unless the
application is write intensive. A RAIDset is sometimes called parity RAID.
Raid level 3/5 storagesets are sometimes referred to as RAIDsets.
RAIDset
See RAID level 3/5.
read-ahead caching A caching technique for improving performance of synchronous sequential
reads by prefetching data from disk.
read caching
A cache management method used to decrease the subsystem’s response
time to a read request by allowing the controller to satisfy the request from
the cache memory rather than from the disk drives.
reconstruction
The process of regenerating the contents of a failed member’s data. The
reconstruct process writes the data to a spareset disk and then incorporates
the spareset disk into the mirrorset, striped mirrorset, or RAIDset from
which the failed member came. See also regeneration.
reduced
Indicates that a mirrorset or RAIDset is missing one member because the
member has failed or has been physically removed.
redundancy
The provision of multiple interchangeable components to perform a single
function in order to cope with failures and errors. A RAIDset is considered
to be redundant when all of the parity blocks contain the correct parity for
the user data.
regeneration
request rate
(1) The process of calculating missing data from redundant data. (2) The
process of recreating a portion of the data from a failing or failed drive using
the data and parity information from the other members within the
storageset. The regeneration of an entire RAIDset member is called
reconstruction. See also reconstruction.
The rate at which requests are arriving at a servicing entity.
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GL–14 Glossary
RFI
Radio Frequency Interference. The disturbance of a signal by an unwanted
radio signal or frequency.
replacement policy The policy specified by a switch with the SET FAILEDSET command
indicating whether a failed disk from a mirrorset or RAIDset is to be
automatically replaced with a disk from the spareset. The two switch choices
are AUTOSPARE and NOAUTOSPARE.
SBB
Storage Building Block. (1) A modular carrier plus the interface required to
mount the carrier into a standard StorageWorks shelf. (2) any device
conforming to shelf mechanical and electrical standards installed in a 3.5-
inch or 5.25-inch carrier, whether it is a storage device or power supply.
SCSI
Small computer system interface. (1) An ANSI interface standard defining
the physical and electrical parameters of a parallel I/O bus used to connect
initiators to devices. (2) a processor-independent standard protocol for
system-level interfacing between a computer and intelligent devices
including hard drives, floppy disks, CD-ROMs, printers, scanners, and
others.
SCSI-A cable
A 50-conductor (25 twisted-pair) cable generally used for single-ended,
SCSI-bus connections.
SCSI bus signal
converter
Sometimes referred to as an adapter. (1) A device used to interface between
the subsystem and a peripheral device unable to be mounted directly into the
SBB shelf of the subsystem. (2) a device used to connect a differential SCSI
bus to a single-ended SCSI bus. (3) A device used to extend the length of a
differential or single-ended SCSI bus. See also I/O module.
SCSI device
(1) A host computer adapter, a peripheral controller, or an intelligent
peripheral that can be attached to the SCSI bus. (2) Any physical unit that
can communicate on a SCSI bus.
SCSI device ID
number
A bit-significant representation of the SCSI address referring to one of the
signal lines, numbered 0 through 7 for an 8-bit bus, or 0 through 15 for a 16-
bit bus. See also target ID number.
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GL–15
SCSI ID number
SCSI-P cable
SCSI port
The representation of the SCSI address that refers to one of the signal lines
numbered 0 through 15.
A 68-conductor (34 twisted-pair) cable generally used for differential bus
connections.
(1) Software: The channel controlling communications to and from a
specific SCSI bus in the system. (2) Hardware: The name of the logical
socket at the back of the system unit to which a SCSI device is connected.
serial data
transmission
A method transmission in which each bit of information is sent sequentially
on a single channel rather than simultaneously as in parallel transmission.
signal converter
See SCSI bus signal converter.
single ended I/O
module
A 16-bit I/O module. See also I/O module.
single-ended SCSI An electrical connection where one wire carries the signal and another wire
bus
or shield is connected to electrical ground. Each signal’s logic level is
determined by the voltage of a single wire in relation to ground. This is in
contrast to a differential connection where the second wire carries an
inverted signal.
spareset
A collection of disk drives made ready by the controller to replace failed
members of a storageset.
storage array
An integrated set of storage devices.
storage array
subsystem
See storage subsystem.
storageset
(1) A group of devices configured with RAID techniques to operate as a
single container. (2) Any collection of containers, such as stripesets,
mirrorsets, striped mirrorsets, and RAIDsets.
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GL–16 Glossary
storage subsystem The controllers, storage devices, shelves, cables, and power supplies used to
form a mass storage subsystem.
storage unit
The general term that refers to storagesets, single-disk units, and all other
storage devices that are installed in your subsystem and accessed by the host.
A storage unit can be any entity that is capable of storing data, whether it is a
physical device or a group of physical devices.
StorageWorks
A family of Compaq modular data storage products that allow customers to
design and configure their own storage subsystems. Components include
power, packaging, cabling, devices, controllers, and software. Customers can
integrate devices and array controllers in StorageWorks enclosures to form
storage subsystems.
StorageWorks systems include integrated SBBs and array controllers to form
storage subsystems. System-level enclosures to house the shelves and
standard mounting devices for SBBs are also included.
stripe
The data divided into blocks and written across two or more member disks in
an array.
striped mirrorset
stripeset
See RAID level 0+1.
See RAID level 0.
stripe size
The stripe capacity as determined by n–1 times the chunksize, where n is the
number of RAIDset members.
striping
The technique used to divide data into segments, also called chunks. The
segments are striped, or distributed, across members of the stripeset. This
technique helps to distribute hot spots across the array of physical devices to
prevent hot spots and hot disks.
Each stripeset member receives an equal share of the I/O request load,
improving performance.
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surviving controller The controller in a dual-redundant configuration pair that serves its
companion’s devices when the companion controller fails.
synchronous
Pertaining to a method of data transmission which allows each event to
operate in relation to a timing signal. See also asynchronous.
tape
A storage device supporting sequential access to variable sized data records.
target
(1) A SCSI device that performs an operation requested by an initiator. (2)
Designates the target identification (ID) number of the device.
Target ID number The address a bus initiator uses to connect with a bus target. Each bus target
is assigned a unique target address.
this controller
The controller that is serving your current CLI session through a local or
remote terminal. See also other controller.
transfer data rate The speed at which data may be exchanged with the central processor,
expressed in thousands of bytes per second.
Ultra SCSI bus
unit
A wide, Fast-20 SCSI bus.
A container made accessible to a host. A unit may be created from a single
disk drive or tape drive. A unit may also be created from a more complex
container such as a RAIDset. The controller supports a maximum of 32 units
on each target. See also target and target ID number.
unwritten cached
data
Sometimes called unflushed data. See dirty data.
UPS
Uninterruptible power supply. A battery-powered power supply guaranteed
to provide power to an electrical device in the event of an unexpected
interruption to the primary power supply. Uninterruptible power supplies are
usually rated by the amount of voltage supplied and the length of time the
voltage is supplied.
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GL–18 Glossary
VHDCI
Very High Density Cable Interface. A 68-pin interface. Required for
Ultra SCSI connections.
virtual terminal
A software path from an operator terminal on the host to the controller’s CLI
interface, sometimes called a host console. The path can be established via
the host port on the controller (using HSZterm) or via the maintenance port
on the controller.
VTDPY
Virtual Terminal Display utility.
warm swap
A device replacement method that allows the complete system to remain
online during device removal or insertion. The system bus may be halted, or
quiesced, for a brief period of time during the warm-swap procedure.
Worldwide name
A unique 64-bit number assigned to a subsystem by the Institute of Electrical
and Electronics Engineers (IEEE) and set by Compaq manufacturing prior to
shipping. This name is referred to as the node ID within the CLI.
write-back caching A cache management method used to decrease the subsystem’s response
time to write requests by allowing the controller to declare the write
operation “complete” as soon as the data reaches its cache memory. The
controller performs the slower operation of writing the data to the disk drives
at a later time.
write-through
caching
A cache management method used to decrease the subsystem’s response
time to a read. This method allows the controller to satisfy the request from
the cache memory rather than from the disk drives.
write hole
The period of time in a RAID level 1 or RAID level 5 write operation when
an opportunity emerges for undetectable RAIDset data corruption. Write
holes occur under conditions such as power outages, where the writing of
multiple members can be abruptly interrupted. A battery backed-up cache
design eliminates the write hole because data is preserved in cache and
unsuccessful write operations can be retried.
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GL–19
write-through cache A cache management technique for retaining host write requests in read
cache. When the host requests a write operation, the controller writes data
directly to the storage device. This technique allows the controller to
complete some read requests from the cache, greatly improving the response
time to retrieve data. The operation is complete only after the data to be
written is received by the target storage device.
This cache management method may update, invalidate, or delete data from
the cache memory accordingly, to ensure that the cache contains the most
current data.
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I–1
ADD RAIDSET RAIDset-name container-
nameN, 5–19
ADD SPARESET, 5–23
ADD STRIPESET, 5–24
ADD STRIPESET stripeset-name container-
nameN, 5–24
Index
A
AC input module
parts, 1–4
LOCAL, 5–8
NOTRANSPORTABLE, 5–8
REMOTE, 5–8
ADD UNIT, 5–27
MAXIMUM_CACHED_TRANSFER, 5–30
NOREAD_CACHE, 5–31
NOREADAHEAD_CACHE, 5–31
NORUN, 5–32
NOWRITE_PROTECT, 5–32
NOWRITEBACK_CACHE, 5–32
READ_CACHE, 5–31
READAHEAD_CACHE, 5–31
WRITE_PROTECT, 5–32
WRITEBACK_CACHE, 5–32
Adding
TRANSPORTABLE, 5–8
ADD DISK container-name scsi-port-target-
lun, 5–7
ADD MIRRORSET, 5–11
DT_SUPPORT, 5–12
NODT_SUPPORT, 5–12
READ_SOURCE, 5–13
ADD PASSTHROUGH, 5–16
ADD PASSTHROUGH passthrough-name
scsi-port-target-lun, 5–16
ADD RAIDSET, 5–19
NOREDUCED, 5–21
RECONSTRUCT, 5–20
disks, 5–7
mirrorsets, 5–11
passthrough, 5–16
RAIDsets, 5–19
sparesets, 5–23
stripesets, 5–24
units, 5–27
Adding disk drives
as eligible devices, 4–2
to spareset using CLI, 4–13
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I–2 Index
Addresses
power cable, 1–4
Addressing PTL convention, 3–36
ALLOCATION_CLASS
Array of disk drives, 3–8
AUTOSPARE, 4–15
SET FAILEDSET, 5–108
Autospare
power cable kit, 1–4
power supply, 1–4
SCSI hub, 3-port, 1–4
SCSI hub, 5-port, 1–4
SCSI hub, 9-port, 1–4
single-battery ECB, 1–4
Bus
failedset, 4–15
device bus interconnect, 1–5
Availability, 3–15
distributing first mirrorset members, 3–14
distributing members across, 3–11
B
BA370 rack-mountable enclosure
parts, 1–4
C
Backing up data, 3–20
Backing up data with the Clone utility, 1–16
Backplane
Cables
maintenance port cable part number for a
terminal, 1–12
location, 1–8
tightening, xvii
Backup power source
enabling write-back caching, 1–22
Battery hysteresis, 1–31
BATTERY_OFF
POWEROFF, 5–74
BATTERY_ON
Cache module
caching techniques, 1–20
companion cache module, 1–18
controller and cache module location, 1–13
general description, 1–18
illustration of parts, 1–19
POWEROFF, 5–74
Building blocks
AC input module, 1–4
BA370 rack-mountable enclosure, 1–4
cache module, 1–4
controller, 1–4
maximum memory size supported, 1–5
memory configurations, 1–18
memory sizes supported, 1–5
parts, 1–4
cooling fan, 1–4
read caching, 1–20
disk drives, 1–4
dual-battery ECB, 1–4
read-ahead caching, 1–20
relationship to controller, 1–13
replacing cache modules with FRUTIL, 1–17
I/O module, 1–4
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I–3
write-through caching, 1–21
Cache policies
Chunksize, setting storageset size, 5–63
CHVSN utility
fault-tolerance for write-back caching, 1–22
Cache, setting flush timer, 5–93
CACHE_FLUSH_TIMER
general description, 1–17
CHVSN, running, 5–86
CLCP utility
general description, 1–16
CACHE_UPS
Caching techniques
CLEAR_ERRORS CLI, 5–35
CLEAR_ERRORS controller
data-retention-policy, 5–36
CLEAR_ERRORS device-name UNKNOWN,
general description, 1–20
read caching, 1–20
read-ahead caching, 1–20
write-back caching, 1–21
write-through caching, 1–21
CAPACITY
INITIALIZE, 5–63
CLEAR_ERRORS unit-number
CHVSN utility
CLI
definition, 5–2
Changing switches
overview, 5–2
devices, 3–42
CLI commands
storagesets, 3–42
abbreviating commands, 5–3
unit, 4–18
Charging diagnostics
ADD MIRRORSET, 5–11
ADD PASSTHROUGH, 5–16
ADD RAIDSET, 5–19
ADD SPARESET, 5–23
ADD STRIPESET, 5–24
ADD UNIT, 5–27
CLEAR_ERRORS CLI, 5–35
CLEAR_ERRORS controller
CLEAR_ERRORS device-name
UNKNOWN, 5–38
battery hysteresis, 1–31
general description, 1–31
Chunk size, 3–51
choosing for RAIDsets and stripesets, 3–51
controlling stripesize, 3–51
maximum for RAIDsets, 3–54
using to increase data transfer rate, 3–53
using to increase request rate, 3–52
using to increase write performance, 3–54
CHUNKSIZE, 3–51
CLEAR_ERRORS unit-number
INITIALIZE, 5–63
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I–4 Index
CLEAR_ERRORS unit-number
customizing the prompt, 5–98
DELETE FAILEDSET, 5–53
DELETE SPARESET, 5–54
DESTROY_PARTITION, 5–57
syntax, 5–6
UNMIRROR, 5–145
CLI prompt
changing the character string, 2–22
CLONE
procedure, 3–21
utility, 3–20
Clone utility
getting help, 5–3
INITIALIZE, 5–62
general description, 1–16
CLONE, running, 5–86
Cloning data, 3–20
MIRROR, 5–70
utility
overview, 5–2
POWEROFF, 5–74
REDUCE, 5–77
RENAME, 5–81
RETRY_ERRORS unit-number
rules for entering, 5–3
COMMAND_CONSOLE_LUN
Communicating with a controller
from a local terminal, 2–27
Comparison of storagesets, 3–8
CONFIG utility
general description, 1–16
CONFIG, running, 5–86
Configuration
modifying controller configurations, 5–2
resetting, 5–44
SET FAILEDSET, 5–108
SET FAILOVER, 5–110
SET NOFAILOVER, 5–120
saving, 5–47
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I–5
Configuration rules
devices, 2–2
LUN capacity, 2–2
Connecting, 2–15
dual-redundant controllers to the host, 2–15
local connection to the controller, 2–26
multiple-bus failover, dual-redundant
controllers to the host, 2–21
PC connection to the controller, 2–26
single controller to the host, 2–15
terminal connection to the controller, 2–26
Container
mirrorsets, 2–2
partitions per storageset, 2–2
RAID-5 and RAID-1 storagesets, 2–2
RAID-5 storagesets, 2–2
RAID-5, RAID-1, and RAID-0 storagesets,
initializing, 5–62
Controller
requirements, 2–2
striped mirrorsets, 2–2
stripesets, 2–2
“this” and “other” defined, xviii
addressing, 3–36
backplane, 1–8
See also Summary of controller features
Configuring
dual-redundant controller configurations,
changing the CLI prompt, 2–22
communicating from a local terminal, 2–27
controller and cache module location, 1–13
displaying information, 5–136
dual-redundant controller configuration,
dual-redundant controller configurations with
mirrored cache, 2–31
mirrorsets, 4–4
dual-redundant controller configurations with
mirrored cache, 2–31
ECB diagnostics, 1–31
multiple-bus failover, 2–30
RAIDsets, 4–6
fault LEDs, 1–13
general description, 1–7
single-disk unit, 4–9
host ports, 1–8
striped mirrorsets, 4–7
stripesets, 4–3
illustration of parts, 1–9
local connection, 2–26
Configuring using CLI
mirrorsets, 4–4
maintenance port, 1–8
RAIDsets, 4–6
single-disk units, 4–9
storagesets, 4–2
striped mirrorsets, 4–7
stripesets, 4–3
multiple-bus failover configuration, 2–30
multiple-bus failover, dual-redundant
controller configuration, 2–21
node IDs, 3–30
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I–6 Index
CYLINDERS, 5–49
SECTORS_PER_TRACK, 5–49
SIZE, 5–48
other controller defined, 2–28
part numbers of parts used in configuring,
parts, 1–4
CREATE_PARTITION container-name
SIZE=percent, 5–48
Creating
parts used in configuring, 1–10
patching controller software with the CLCP
utility, 1–16
disks, 5–7
program card, 1–8
mirrorsets, 5–11
relationship to cache module, 1–13
release lever, 1–8
replacing a failed controller with FRUTIL,
showing, 5–136
shutting down, 5–143
partitions, 4–10
passthrough, 5–16
RAIDsets, 5–19
single-disk units, 5–33
sparesets, 5–23
storageset and device profiles, 3–5
stripesets, 5–24
single-controller configuration, 2–15
summary of features, 1–5
testing with DILX, 1–16
this controller defined, 2–28
transparent failover mode, 2–29
troubleshooting with FMU, 1–15
upgrading controller software with the CLCP
utility, 1–16
Conventions
typographical, xviii
warnings, cautions, tips, notes, xviii
Cooling fan
units, 5–27
CYLINDERS
INITIALIZE, 5–63
D
Data
backing up with the Clone utility, 1–16
duplicating with the Clone utility, 1–16
Data transfer rate, 3–53
Data-retention-policy
CLEAR_ERRORS controller
parts, 1–4
COPY
ADD MIRRORSET, 5–11
mirrorset switches, 3–46
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I–7
DELETE FAILEDSET, 5–53
DELETE SPARESET, 5–54
Deleting
devices, 5–51
mirrorsets, 5–51
RAIDsets, 5–51
LOCAL, 3–50
local/remote, 3–50
NOTRANSPORTABLE, 3–48
REMOTE, 3–50
transportability, 3–48
TRANSPORTABLE, 3–48
Device transfer rate, 3–49
Devices
storagesets, 5–51
stripesets, 5–51
units, 5–55
adding with the CONFIG utility, 1–16
changing switches, 4–17
creating a profile, 3–5
Deleting storagesets, 4–16
INITIALIZE, 5–64
generating a new volume serial number with
the CHVSN utility, 1–17
locating, 5–67
number per port, 1–5
renaming the volume serial number with the
CHVSN utility, 1–17
showing, 5–136
specifying address, ?? to 3–37
transfer rate, 3–49
DESTROY_PARTITION, 5–57
DESTROY_PARTITION container-name
DESTROY_UNFLUSHABLE_DATA
SET NOFAILOVER, 5–120
DESTROY_UNFLUSHED_DATA
CLEAR_ERRORS controller
Device bus interconnect, 1–5
Device ports
LEDs, 1–13
number supported, 1–5
warm swap, 1–5
Device profile, A–2
Device protocol, 1–5
See also Disk drives, LUN, Partitioning,
Partitions, Storagesets
changing switches, 3–42
device transfer rate, 3–49
enabling switches, 3–42
Diagnostics
ECB charging, 1–31
listing of, 5–59
running, 5–86
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I–8 Index
DILX
mirroring, 5–70
general description, 1–16
DILX, running, 5–86
monitoring performance with DILX, 1–16
partitioning, 4–10
DIMMs
parts, 1–4
cache module memory configurations, 1–18
supported, 1–5
DIRECT, running, 5–87
removing from a mirrorset, 5–77
removing from sparesets using CLI, 4–14
removing from the failedset, 5–53
removing from the spareset, 5–54
renaming, 5–81
DISABLE_ACCESS
DISABLE_ACCESS_PATH
ADD UNIT, 5–29
renaming the volume serial number with the
CHVSN utility, 1–17
Disabling
autospare, 4–15
Disaster tolerance
setting device data transfer rate, 5–9
transfer rate, 5–9
write-back caching not enabled in disaster-
tolerant mirrorsets, 1–21
Disaster tolerance support, 3–47
Disk drives
See also Devices, LUN, Partitioning,
Partitions, Storagesets
Disk inline exerciser
general description, 1–16
DISKS
adding, 4–2
adding to configuration, 5–7
adding to spareset using CLI, 4–13
adding with the CONFIG utility, 1–16
array, 3–8
Displaying switches, 4–17
Distributing
corresponding storagesets, 3–34
deleting, 5–51
displaying information, 5–136
dividing, 3–40
generating a new volume serial number with
the CHVSN utility, 1–17
generating read and write loads with DILX,
first member of multiple mirrorsets, 3–14
members of storageset, 3–11
Dividing storagesets, 3–40
Documentation, related, xxi
DT_SUPPORT, 3–47
ADD MIRRORSET, 5–12
Dual-battery ECB
initializing, 5–62
investigating data transfer with DILX, 1–16
making transportable, 5–103
parts, 1–4
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I–9
Dual-redundant configuration
ECB, 1–29
Dual-redundant controller configuration
Erasing metadata, 3–57
Error messages
clearing from CLI, 5–35
clearing unwriteable data errors, 5–42
ERROR_MODE
ESD card cover
enabling, 5–110
Dual-redundant controller configurations
connecting to the host, 2–15
multiple-bus failover mode, 2–30
transparent failover mode, 2–29
when to use, 2–29
location, 1–10
Event messages
translating with FMU, 1–15
Events
setting display characteristics with FMU,
E
ECB
as a default backup source, 1–22
battery hysteresis, 1–31
diagnostics, 1–31
dual-battery ECB, 1–4
general description, 1–29
maintenance period, 1–29
replacing ECBs with FRUTIL, 1–17
single-battery ECB, 1–4
Electrostatic discharge precautions, xvi
EMU
Examples
adding disk drives to a spareset, 4–14
cloning a storage unit, 3–22
configuring a mirrorset, 4–5
configuring a RAIDset, 4–7
configuring a single-disk unit, 4–10
configuring a striped mirrorset, 4–9
configuring a stripeset, 4–4
deleting storagesets, 4–16
partitioning a storageset, 4–12
parts, 1–4
setting, 5–105
removing disk drives from a spareset, 4–15
Exercisers
availability, 1–5
See also Utilities and exercisers
ENABLE_ACCESS
ENABLE_ACCESS_PATH
ADD UNIT, 5–29
Enabling
AUTOSPARE, 4–15
Enabling switches
devices, 3–42
F
Failedset
storagesets, 3–42
Enclosures
autospare, 4–15
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I–10 Index
Failover
general description, 2–29
multiple-bus, 2–30
transparent, 2–29
FAILSAFE, error mode, 5–132
Failures
displaying with FMU, 1–15
setting display characteristics with FMU,
FANSPEED
Help
technical support, xv
Heterogeneous host support
in multiple-bus failover mode, 4–32
in transparent failover mode, 4–26
History, revision of this manual, xxii
Host
configuring units with multiple hosts, 4–23
heterogeneous host support, 4–23
how it works with the controller and
subsystem, 1–8
Fault LEDs, 1–13
maximum number of units presented, 1–5
Host bus
setting target ID numbers, 2–33
Host bus interconnect, 1–5
Host ports
location, 1–8
maximum transfer speed, 1–6
number, 1–5
Fault-tolerance for write-back caching
general description, 1–22
nonvolatile memory, 1–22
Finding devices and storagesets, 5–67
Firmware
Host protocol
formatting disk drives with HSUTIL, 1–16
upgrading with HSUTIL, 1–16
FMU
general description, 1–15
FMU, running, 5–87
supported, 1–5
HOST_FUNCTION
bus failover
FRUTIL
HSUTIL
general description, 1–17
FRUTIL, running, 5–87
FULL
general description, 1–16
SHOW, 5–138
H
HEADS
INITIALIZE, 5–63
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I–11
HSUTIL, running, 5–87
Storage subsystem
saving user data, 5–64
SECTORS_PER_TRACK, 5–63
Initialize switches, 3–51
chunk size, 3–51
I
destroy/nodestroy, 3–57
save configuration, 3–55
I/O
distributing the load in transparent failover
mode, 2–29
investigating I/O activity of units with
J
using preferred ID numbers to improve
throughput, 2–35
JBOD, 3–8
L
I/O module
parts, 1–4
Last failures
displaying with FMU, 1–15
LEDs, 1–13
Listing diagnostics and utilities, 5–59
LOCAL, 3–50
Local connection
connecting to the controller, 2–26
I/O request routing, 3–39
IGNORE_ERRORS
IMMEDIATE_SHUTDOWN
INITIALIZE, 5–62
illustration of terminal to maintenance port,
changing, 4–18
Local terminal
CHUNKSIZE, 5–63
connecting through the maintenance port,
Local/Remote, 3–50
ALL, 5–67
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I–12 Index
container-name, 5–68
DISKS, 5–68
MEMBERSHIP
Membership
parameter, 5–67
PTL (SCSI-location), 5–68
unit-number, 5–68
UNITS, 5–68
Lost data error, clearing, 5–40
largest device, storageset, or unit, 1–6
RAIDset switches, 3–44
Memory-system failures
displaying with FMU, 1–15
Messages
translating with FMU, 1–15
Metadata
erasing, 4–15
M
retaining, 4–15
MIRROR, 5–70
Maintenance port
establishing a local connection to the
controller, 2–26
general description, 1–14
location, 1–8
precautions, xvii
Mirrored write-back cache
enabling, 2–31
terminal or PC connection, 2–26
See also Maintenance port cable, Terminal
connection
MIRRORED_CACHE
Mirrorset switches, 3–45
Maintenance port cable
establishing a local connection to the array
controller, 2–26
PC or terminal connection illustration, 1–12
terminal connection part number, 1–12
See also Maintenance port, Terminal
connection
disaster tolerance support, 3–47
DT_SUPPORT, 3–47
NODT_SUPPORT, 3–47
READ_SOURCE, 3–46
Mirrorsets
Mapping storagesets, 3–34
Maximum LUN capacity, 2–2
MAXIMUM_CACHED_TRANSFER
ADD UNIT, 5–30
Mean time between failures, 3–10
Members
actual number of members, 5–77
adding to configuration, 5–11
changing switches, 4–17
choosing a replacement member, 5–20
configuring using CLI, 4–4
converting back to a single device, 5–145
creating from a single disk, 5–70
deleting, 5–51
distributing first member of mirrorset, 3–14
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I–13
Node IDs, 3–30
displaying information, 5–136
duplicating data with the Clone utility, 1–16
initializing, 5–62
maximum number of members, 2–2
planning, 3–13
removing a member, 5–77
renaming, 5–81
setting a replacement policy, 5–20
showing, 5–136
temporary from CLONE, 3–20
unmirroring, 5–145
write-back caching not enabled in disaster-
tolerant mirrorsets, 1–21
Moving storagesets, 4–35
Multiple-bus failover configuration
when to use, 2–30
Multiple-bus failover mode
configuring units with multiple hosts, 4–32
general description, 2–30
NODE_ID
INITIALIZE, 5–64
NODESTROY_UNFLUSHABLE_DATA
SET NOFAILOVER, 5–120
NODESTROY_UNFLUSHED_DATA
CLEAR_ERRORS controller
NODT_SUPPORT, 3–47
ADD MIRRORSET, 5–12
NOIGNORE_ERRORS
NOIMMEDIATE_SHUTDOWN
NOMIRRORED_CACHE
See also Transparent failover mode
Multiple-bus failover, dual-redundant
configuration
connecting to the host, 2–21
Nonvolatile memory
fault-tolerance for write-back caching, 1–22
NOPOLICY
ADD RAIDSET, 5–20
N
NO_OVERRIDE_BAD_FLUSH
POWEROFF, 5–74
NOPORT_1_ID
NOAUTOSPARE
SET FAILEDSET, 5–108
NOCACHE_UPS
NOPORT_1_PREFERRED_ID
NOCOMMAND_CONSOLE_LUN
NOPORT_1_TRANSFER_RATE_REQUEST
ED
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I–14 Index
NOPORT_2_ID
O
NOPORT_2_PREFERRED_ID
NOPORT_2_TRANSFER_RATE_REQUEST
ED
OCP
fault LEDs, 1–13
general description, 1–13
location, 1–8
reset button, 1–13
NOPREFERRED_PATH
ADD UNIT, 5–30
Options
for devices, 3–48
NOREAD_CACHE
ADD UNIT, 5–31
for RAIDsets, 3–43
for storage units, 3–58
NOREADAHEAD_CACHE
ADD UNIT, 5–31
NOREDUCED
Other controller
explained, 5–2
Other controller defined, 2–28
OVERRIDE_BAD_FLUSH
POWEROFF, 5–74
Overwriting data, 3–57
ADD RAIDSET, 5–21
NORUN
ADD UNIT, 5–32
P
INITIALIZE, 5–64
Part numbers
maintenance port cable for a terminal
connection, 1–12
parts used in configuring the controller, 1–10
storage subsystem basic building blocks, 1–4
PARTITION
ADD UNIT, 5–30
Partitioning
disk drives, 4–10
storagesets using CLI, 4–10
Partitions
creating, 5–48
defining, 3–40
Note, defined, xix
NOTERMINAL_PARITY
NOTRANSPORTABLE, 3–48
NOWRITE_PROTECT
ADD UNIT, 5–32
NOWRITEBACK_CACHE
ADD UNIT, 5–32
displaying size, 5–136
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I–15
guidelines, 3–41
PC connection
planning, 3–40
setting size, 5–48
showing, 5–136
optional maintenance port cable, 1–12
part number for the optional maintenance port
cable, 1–12
See also optional maintenance port cable
Performance, 3–15
Planning
mirrorsets, 3–13
overview, 3–5
Parts
AC input module, 1–4
BA370 rack-mountable enclosure, 1–4
cache module, 1–4
controller, 1–4
cooling fan, 1–4
partitions, 3–40
disk drives, 1–4
RAIDsets, 3–16
dual-battery ECB, 1–4
ECB, 1–4
storagesets, 3–8
striped mirrorsets, 3–19
stripesets, 3–10
I/O module, 1–4
power cable, 1–4
ADD MIRRORSET, 5–12
ADD RAIDSET, 5–20
MIRROR, 5–71
RAIDset switches, 3–43
PORT_1_ID
PORT_1_PREFERRED_ID
PORT_1_TRANSFER_RATE_REQUESTED
PORT_2_ID
power cable kit, 1–4
power supply, 1–4
SCSI hub, 3-port, 1–4
SCSI hub, 5-port, 1–4
SCSI hub, 9-port, 1–4
single-battery ECB, 1–4
Passthrough
adding to configuration, 5–16
Passthrough containers
deleting, 5–51
renaming, 5–81
Passthrough devices
showing, 5–137
Passthroughs
Path
preferring for storage units in dual-redundant
configurations, 3–32
PORT_2_PREFERRED_ID
PORT_2_TRANSFER_RATE_REQUESTED
Ports
number on controller, 1–5
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I–16 Index
See also Device ports, Host ports
Power cable
parts, 1–4
PROMPT
Protocol
Power cable kit
device, 1–5
parts, 1–4
host, 1–5
Power source
enabling write-back caching, 1–22
Power supply
PTL addressing convention, 3–36
Publications, related, xxi
parts, 1–4
PVA module
PVA module
parts, 1–4
setting the switch, 2–25
POWEROFF, 5–74
BATERY_ON, 5–74
BATTERY_OFF, 5–74
NO_OVERRIDE_BAD_FLUSH, 5–74
OVERRIDE_BAD_FLUSH, 5–74
SECONDS, 5–75
R
RAID levels
supported, 1–5
RAID-5 and RAID-1 storagesets
RAID-5 storagesets
Precautions
electrostatic discharge, xvi
maintenance port, xvii
VHDCI cables, xvii
Preferred paths for storage units, 3–32
PREFERRED_PATH
ADD UNIT, 5–30
RAID-5, RAID-1, and RAID-0 storagesets
RAIDset
showing, 5–136
PREFERRRED_PATH
Profiles
specifying chunksize, 5–63
RAIDset switches, 3–43
membership, 3–44
creating, 3–5
description, 3–5
NOREDUCED, 3–44
storageset, A–3
Program card
RECONSTRUCT, 3–43
reconstruction policy, 3–43
REDUCED, 3–44
ESD cover, 1–10
location, 1–8
replacement policy, 3–43
RAIDsets
software upgrades, 1–5
adding to configuration, 5–19
adding while missing a member, 5–21
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I–17
changing characteristics, 5–124
changing switches, 4–17
choosing chunk size, 3–51
configuring using CLI, 4–6
deleting, 5–51
displaying information, 5–136
initializing, 5–62
REDUCE, 5–77
REDUCED
ADD RAIDSET, 5–21
Related publications, xxi
Relationship
controller to cache module, 1–13
Release lever
maximum chunk size, 3–54
maximum membership, 3–17
planning, 3–16
location, 1–8
REMOTE, 3–50
removing a member, 5–125
renaming, 5–81
REMOVE
replacing a member, 5–126
specifying replacement policy, 5–124
switches, 3–43
Removing
Read caching
disk drives from sparesets, 4–14
Removing a mirrorset member, 5–77
RENAME, 5–81
RENAME old-container-name new-container-
name, 5–81
enabled for all storage units, 1–20
general description, 1–20
READ_CACHE
ADD UNIT, 5–31
READ_SOURCE
ADD MIRRORSET, 5–13
mirrorset switches, 3–46
Read-ahead caching
REPLACE
Replacement policy
mirrorsets, 3–45
Request rate, 3–52
enabled for all disk units, 1–21
general description, 1–20
READAHEAD_CACHE
ADD UNIT, 5–31
Required tools, xx
Resetting configuration, 5–44
RESTART controller
RECONSTRUCT
ADD RAIDSET, 5–20
RAIDset switches, 3–43
IGNORE_ERRORS, 5–83
NOIGNORE_ERRORS, 5–83
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I–18 Index
Restoring configuration, 5–45
RETRY_ERRORS unit-number
Revision history, xxii
SCSI_VERSION
SECONDS
POWEROFF, 5–75
ADD UNIT, 5–32
CHVSN, 5–86
SECTORS_PER_TRACK
INITIALIZE, 5–63
CONFIG, 5–86
DILX, 5–86
DIRECT, 5–87
FMU, 5–87
IGNORE_ERRORS, 5–89
NOIGNORE_ERRORS, 5–89
SENSOR_N_SETPOINT
CACHE_FLUSH_TIMER, 5–93
CACHE_UPS, 5–93
COMMAND_CONSOLE_LUN, 5–94
HOST_FUNCTION, 5–94
MIRRORED_CACHE, 5–96
NOCACHE_UPS, 5–93
NOCOMMAND_CONSOLE_LUN, 5–94
NODE_ID, 5–95
NOMIRRORED_CACHE, 5–96
NOPORT_1_ID, 5–96
NOPORT_1_PREFERRED_ID, 5–98
NOPORT_1_TRANSFER_RATE_REQUES
S
Save configuration, 3–55
INITIALIZE, 5–64
Saving configurations, 5–47
dual-redundant configurations, 3–56
SCSI hub, 3-port
parts, 1–4
SCSI hub, 5-port
NOPORT_2_ID, 5–96
parts, 1–4
SCSI hub, 9-port
parts, 1–4
NOPORT_2_PREFERRED_ID, 5–98
NOPORT_2_TRANSFER_RATE_REQUES
PORT_1_ID, 5–96
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I–19
PORT_1_PREFERRED_ID, 5–98
PORT_1_TRANSFER_RATE_REQUESTE
D, 5–100
SET NOFAILOVER, 5–120
NODESTROY_UNFLUSHABLE_DATA,
NODESTROY_UNFLUSHABLE_DATA,
PORT_2_ID, 5–96
PORT_2_PREFERRED_ID, 5–98
PORT_2_TRANSFER_RATE_REQUESTE
D, 5–100
PROMPT, 5–98
SCSI_VERSION, 5–99
TERMINAL_SPEED, 5–99
TIME, 5–99
LOCAL, 5–102
NOTRANSPORTABLE, 5–103
REMOTE, 5–102
TRANSPORTABLE, 5–103
RECONSTRUCT, 5–125
REMOVE, 5–125
REPLACE, 5–126
DISABLE_ACCESS, 5–130
ENABLE_ACCESS, 5–130
ERROR_MODE, 5–132
MAXIMUM_CACHED_TRANSFER, 5–131
NOREAD_CACHE, 5–132
NOREADAHEAD_CACHE, 5–133
NORUN, 5–133
NOWRITE_PROTECT, 5–133
NOWRITEBACK_CACHE, 5–134
READ_CACHE, 5–132
FANSPEED, 5–106
SENSOR_N_SETPOINT, 5–105
SET FAILEDSET, 5–108
AUTOSPARE, 5–108
NOAUTOSPARE, 5–108
SET FAILOVER, 5–110
READAHEAD_CACHE, 5–133
DT_SUPPORT, 5–113
NODT_SUPPORT, 5–113
WRITE_PROTECT, 5–133
WRITEBACK_CACHE, 5–134
Setting
READ_SOURCE, 5–116
REMOVE, 5–114
cache flush timer, 5–93
CLI prompt, 5–98
REPLACE, 5–114
control of metadata, 5–63 to 5–64
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I–20 Index
controller behavior at restart, 5–84
controller behavior at shutdown, 5–144
controller behavior selftest, 5–90
controller cache flush timer, 5–93
controller cache UPS policy, 5–93
controller configuration handling, 5–64
controller error handling at selftest, 5–84,
time, 5–99
transportability of devices, 5–103
write protect for units, 5–32
controller error handling at shutdown, 5–143
data retention policy, 5–36
failedset autospare feature, 5–108
fan speed, 5–106
DEVICES, 5–137
DISKS, 5–137
full display, 5–138
mirrorset copy data, 5–71
SHOW EMU, 5–137
mirrorset spareset replacement policy, 5–12,
FAILEDSET, 5–137
MIRRORSETS, 5–137
RAIDSETS, 5–137
SPARESETS, 5–137
nofailover cached data policy, 5–120
number of blocks cached by controller, 5–30,
number of mirrorset members, 5–113
RAIDset member replacement policy, 5–13,
STORAGESETS, 5–137
STRIPESETS, 5–137
SHOW UNITS, 5–138
IGNORE_ERRORS, 5–143
NOIGNORE_ERRORS, 5–143
Single configuration
read cache for units, 5–31
ECB, 1–29
storageset chunksize, 5–63
Single-battery ECB
subsystem temperature sensor setpoint, 5–105
terminal parity, 5–99
terminal speed, 5–99
parts, 1–4
Single-controller configuration
connecting to the host, 2–15
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I–21
Single-disk units
deleting, 4–16
backing up, 3–20
displaying information, 5–136
displaying switches, 4–17
dividing, 3–40
duplicating data with the Clone utility, 1–16
generating a new volume serial number with
the CHVSN utility, 1–17
how they work with the host, 1–7
initializing, 5–62
configuring using CLI, 4–9
displaying switches, 4–17
SIZE
Spareset
removing a disk drive, 5–54
Sparesets
adding disk drives using CLI, 4–13
adding to configuration, 5–23
AUTOSPARE, 4–15
removing disk drives using CLI, 4–14
Specify device addresses, ?? to 3–37
Spontaneous events
locating, 5–67
maximum number of partitions supported,
moving, 4–35
partitioning using CLI, 4–10
planning, 3–8
RAIDsets, 3–2
setting display characteristics with FMU,
Storage requirements, determining, 3–7
Storage subsystem
typical installation, 1–2
Storageset map, 3–34
renaming, 5–81
renaming the volume serial number with the
CHVSN utility, 1–17
showing, 5–136
Storageset switches, 3–42
changing switches, 3–42
enabling switches, 3–42
Storagesets
striped mirrorsets, 3–2
See also Configuration rules
StorageWorks array controller, 5–2
Striped mirrorsets
adding devices with the CONFIG utility, 1–16
attributes, 3–8
backing up, 3–20
backing up data with the Clone utility, 1–16
changing switches, 4–17
comparison, 3–8
configuring using CLI, 4–7
planning, 3–19
Stripesets
configuring using CLI, 4–2
creating a profile, 3–5
creating map, 3–34
adding to configuration, 5–24
configuring using CLI, 4–3
deleting, 5–51
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I–22 Index
displaying information, 5–136
initializing, 5–62
maximum number of members, 1–6, 2–2
mirroring, 5–70
planning, 3–10
renaming, 5–81
showing, 5–136
specifying chunksize, 5–63
Subsystem
T
Target ID numbers
illustration of SCSI target ID numbers and
on the device bus, 2–34
on the host bus, 2–33
setting, 2–33
using preferred ID numbers, 2–35
See also PTL addressing convention
connecting a single controller to the host, 2–9
connecting dual-redundant controllers to the
host, 2–15
Technical support, xv
Terminal
setting parity, 5–99
setting speed, 5–99
connecting multiple-bus failover, dual-
redundant controllers to the host, 2–21
illustration of SCSI target ID numbers and
Terminal connection
part number for the optional maintenance
port, 1–12
saving configuration, 3–55
Switches
See also Maintenance port, Maintenance port
cable
changing for devices, 4–17
changing for storagesets, 4–17
changing initialize, 4–18
changing mirrorset, 4–17
changing RAIDset, 4–17
changing unit, 4–18
TERMINAL_PARITY
TERMINAL_SPEED
displaying current, 4–17
NOTRANSPORTABLE, 3–48
overview, 3–42
RAIDset, 3–43
TRANSPORTABLE, 3–48
Testing controllers, 5–89
This controller
explained, 5–2
removing from dual-redundant controller
starting diagnostic or utility programs, 5–86
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I–23
This controller defined, 2–28
This controller, defined, xviii
Tightening VHDCI cables, xvii
TIME
communication between controller and
communication between the controller and
Tip, defined, xix
Tools, xx
Topology
displaying last failures with FMU, 1–15
displaying memory-system failures with
FMU, 1–15
supported, 1–5
FMU, 1–15
Transfer rate
generating a new volume serial number with
the CHVSN utility, 1–17
generating read and write loads with DILX,
how chunk size affects, 3–51
switch, 3–49
ADD PASSTHROUGH, 5–17
Translating messages
investigating data transfer with DILX, 1–16
investigating I/O activity of units with
monitoring performance with DILX, 1–16
patching controller software with the CLCP
utility, 1–16
FMU, 1–15
Transparent failover mode
configuring units with multiple hosts, 4–26
designating the host SCSI ID number, 4–28
designating the port, 4–26
designating the port and host SCSI ID number,
general description, 2–29
in configuring units with multiple hosts, 4–26
See also Multiple-bus failover mode
Transportability, 3–48
renaming the volume serial number with the
CHVSN utility, 1–17
replacing a failed controller with FRUTIL,
replacing cache modules with FRUTIL, 1–17
replacing ECBs with FRUTIL, 1–17
setting display characteristics of events and
failures with FMU, 1–15
testing the controller and disk drives with
TRANSPORTABLE, 3–48
Troubleshooting
backing up data with the Clone utility, 1–16
CLCP utility, 1–16
translating event messages with FMU, 1–15
upgrading controller software with the CLCP
utility, 1–16
upgrading EMU software with the CLCP
utility, 1–16
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I–24 Index
See also Config utility
See also HSUTIL
Troubleshooting and maintaining the controller
utilities and exercisers, 1–15
Typographical conventions, xviii
CLONE, 5–86
CONFIG, 5–86
DIRECT, 5–87
FMU, 5–87
U
FRUTIL, 5–87
listing of, 5–59
running, 5–86
Unit switches
changing, 4–18
overview, 3–58
Units
Utilities and exercisers
CHVSN utility, 1–17
CLCP utility, 1–16
Clone utility, 1–16
CONFIG utility, 1–16
FMU, 1–15
FRUTIL, 1–17
adding to configuration, 5–27
changing characteristics, 5–128
clearing lost data error, 5–40
configuring with multiple hosts, 4–23
deleting from the configuration, 5–55
displaying configured units, 5–138
displaying information, 5–136
heterogeneous host support, 4–23
maximum number presented to the host, 1–5
mirroring, 5–70
showing, 5–136
V
UNMIRROR, 5–145
Unpartitioned mirrorsets
duplicating data with the Clone utility, 1–16
Unwriteable data error, retrying, 5–85
Upgrading
VHDCI cable precautions, xvii
Virtual terminal display, 1–15
Volume serial number
generating a new one with the CHVSN utility,
controller software with the CLCP utility,
renaming with the CHVSN utility, 1–17
VTDPY
EMU software with the CLCP utility, 1–16
firmware with HSUTIL, 1–16
Utilities
general description, 1–15
CHVSN, 5–86
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I–25
W
Write performance, 3–54
WRITE_PROTECT
ADD UNIT, 5–32
Write-back caching
enabled for all disk units, 1–21
fault-tolerance, 1–22
general description, 1–21
not enabled in disaster-tolerant mirrorsets,
setting the flush timer, 5–93
WRITEBACK_CACHE
ADD UNIT, 5–32
Write-through caching
enabling and disabling, 1–21
general description, 1–21
Compaq HSZ80 Array Controller ACS Version 8.3 Configuration and CLI Reference Guide
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