Q-Logic 42051 User Manual

Download

Simplify

SANbox2-16 Fibre Channel Switch

Installation Guide

59021-06 A Page i

SANbox2-16 Fibre Channel Switch Installation Guide

Information furnished in this manual is believed to be accurate and reliable. However, QLogic Corporation assumes no responsibility for its use, nor for any infringements of patents or other rights of third parties which may result from its use. QLogic Corporation reserves the right to change product specifications at any time without notice. Applications described in this document for any of these products are for illustrative purposes only. QLogic Corporation makes no representation nor warranty that such applications are suitable for the specified use without further testing or modification. QLogic Corporation assumes no responsibility for any errors that may appear in this document.

QLogic, SANbox, SANbox2, SANblade, SANsurfer, and Multistage are trademarks or registered trademarks of QLogic Corporation.

Java and Solaris are registered trademarks of Sun Microsystems, Inc. Pentium is a registered trademark of Intel Corporation. Linux is a registered trademark of Linus Torvalds. Microsoft, Windows NT, and Windows 2000, and Internet Explorer are registered trademarks of Microsoft

Corporation. Netscape Navigator is a registered trademark of Netscape Communications Corporation. Red Hat is a registered trademark of Red Hat Software Inc. SANmark is a registered trademark of the Fibre Channel Industry Association. All other brand and product names are trademarks or registered trademarks of their respective owners.

Document Revision History

Revision A, Release, June, 2003

First Printed: May 2001

Printed in U.S.A.

Page ii 59021-06 A

Section 1 Introduction

1.1 Intended Audience ............................................................................................. 1-1

1.2 Related Materials ............................................................................................... 1-2

1.3 Safety Notices .................................................................................................... 1-3

1.4 Sicherheitshinweise............................................................................................ 1-3

1.5 Notes informatives relatives à la sécurité........................................................... 1-3

1.6 Communications Statements.............................................................................. 1-4

1.6.1 Federal Communications Commission (FCC) Class A Statement ............1-4

1.6.2 Canadian Department of Communications Class A

Compliance Statement .............................................................................. 1-4

1.6.3 Avis de conformité aux normes du ministère des

Communications du Canada ..................................................................... 1-5

1.6.4 CE Statement ............................................................................................ 1-5

1.6.5 VCCI Class A Statement ........................................................................... 1-6

1.6.6 BSMI Class A Statement ........................................................................... 1-6

1.7 Laser Safety Information .................................................................................... 1-7

1.8 Electrostatic Discharge Sensitivity (ESDS) Precautions .................................... 1-7

1.9 Accessible Parts................................................................................................. 1-8

1.10 Pièces Accessibles............................................................................................. 1-8

1.11 Zugängliche Teile ............................................................................................... 1-8

1.12 General Public License ...................................................................................... 1-9

1.12.1 Preamble ................................................................................................... 1-9

1.12.2 Terms And Conditions For Copying, Distribution And Modification ......... 1-10

1.12.3 How to Apply These Terms to Your New Programs ................................ 1-14

1.13 Technical Support............................................................................................. 1-16

1.13.1 Availability................................................................................................1-16

1.13.2 Training....................................................................................................1-16

1.13.3 Contact Information ................................................................................. 1-16

Section 2 General Description

2.1 Chassis Controls and LEDs ............................................................................... 2-2

2.1.1 Power Switches......................................................................................... 2-2

2.1.2 Maintenance Button...................................................................................2-2

2.1.3 Chassis LEDs............................................................................................ 2-3

2.1.3.1 Over Temperature LED (Amber)....................................................... 2-3

2.1.3.2 Fan Fail LED (Amber)....................................................................... 2-3

59021-06 A Page iii

SANbox2-16 Fibre Channel Switch Installation Guide

2.1.3.3 Heartbeat LED (Amber).................................................................... 2-4

2.1.3.4 Input Power LED (Green) ................................................................. 2-4

2.2 Fibre Channel Ports ........................................................................................... 2-4

2.2.1 Port LEDs .................................................................................................. 2-5

2.2.1.1 Logged-In LED .................................................................................2-5

2.2.1.2 Activity LED ...................................................................................... 2-5

2.2.2 Small Form-Factor Pluggable (SFP) Transceivers .................................... 2-6

2.2.3 Port Modes ................................................................................................ 2-6

2.2.3.1 Fabric Ports ...................................................................................... 2-7

2.2.3.2 Translated Loop Port ........................................................................ 2-7

2.2.3.3 Expansion Port ................................................................................. 2-7

2.3 Ethernet Port ...................................................................................................... 2-8

2.4 Serial Port........................................................................................................... 2-8

2.5 Power Supplies .................................................................................................. 2-9

2.6 Fans ................................................................................................................. 2-10

2.7 Switch Management......................................................................................... 2-11

Section 3 Planning

3.1 Devices............................................................................................................... 3-1

3.2 Multiple Chassis Fabrics .................................................................................... 3-2

3.2.1 Domain ID, Principal Priority, and Domain ID Lock ...................................3-2

3.2.2 Common Topologies.................................................................................. 3-3

3.2.2.1 Cascade Topology ............................................................................ 3-3

3.2.2.2 Mesh Topology .................................................................................3-4

3.2.2.3 Multistage Topology.......................................................................... 3-5

3.3 Performance.......................................................................................................3-6

3.3.1 Distance.....................................................................................................3-6

3.3.2 Bandwidth.................................................................................................. 3-7

3.3.3 Latency...................................................................................................... 3-7

3.4 Device Access.................................................................................................... 3-8

3.4.1 Soft Zones ................................................................................................. 3-9

3.4.2 Access Control List Hard Zones................................................................ 3-9

3.4.3 Virtual Private Fabric Hard Zones ........................................................... 3-10

3.5 Fabric Management ......................................................................................... 3-10

3.6 Security ............................................................................................................ 3-11

Section 4 Installation

4.1 Site Requirements..............................................................................................4-1

4.1.1 Fabric Management Workstation............................................................... 4-1

4.1.2 Switch Power Requirements ..................................................................... 4-1

Page iv 59021-06 A

SANbox2-16 Fibre Channel Switch

4.1.3 Environmental Conditions.......................................................................... 4-2

4.2 Installing a Switch............................................................................................... 4-2

4.2.1 Mount the Switch....................................................................................... 4-3

4.2.2 Install SFP Transceivers............................................................................ 4-4

4.2.3 Connect the Switch to AC Power .............................................................. 4-5

4.2.4 Connect the Management Workstation to the Switch................................ 4-8

4.2.4.1 Ethernet Connection......................................................................... 4-9

4.2.4.2 Serial Connection ............................................................................. 4-9

4.2.5 Install SANbox Manager.......................................................................... 4-10

4.2.6 SANsurfer Management Suite Disk - Windows Installation..................... 4-11

4.2.7 SANsurfer Management Suite Disk - Linux Installation........................... 4-12

4.2.8 SANsurfer Management Suite Disk - Solaris Installation ........................ 4-13

4.2.9 SANbox2 Installation Disk - Windows Installation ................................... 4-14

4.2.10 SANbox2 Installation Disk - Linux Installation ......................................... 4-14

4.2.11 SANbox2 Installation Disk - Solaris Installation....................................... 4-14

4.2.12 Configure the Switch ............................................................................... 4-15

4.2.13 Configure the Ports.................................................................................. 4-16

4.2.14 Cable Devices to the Switch.................................................................... 4-16

4.3 Install Firmware ................................................................................................4-17

4.3.1 Using SANbox Manager to Install Firmware............................................ 4-17

4.3.2 Using the CLI to Install Firmware ............................................................ 4-18

4.3.3 Using FTP and the CLI to Install Firmware.............................................. 4-19

4.4 Powering Down a Switch.................................................................................. 4-20

Installation Guide

Section 5 Diagnostics/Troubleshooting

5.1 POST Diagnostics.............................................................................................. 5-1

5.1.1 Heartbeat LED Blink Patterns.................................................................... 5-1

5.1.1.1 Normal (all pass)............................................................................... 5-1

5.1.1.2 Maintenance Mode Pattern ..............................................................5-2

5.1.1.3 Internal Firmware Failure Blink Pattern ............................................ 5-2

5.1.1.4 Fatal Error Blink Pattern ................................................................... 5-2

5.1.1.5 Configuration File System Error Blink Pattern .................................. 5-2

5.1.2 Logged-In LED Indications ........................................................................ 5-5

5.1.2.1 E_Port Isolation ................................................................................ 5-6

5.1.2.2 Excessive Port Errors ....................................................................... 5-7

5.2 Chassis Diagnostics........................................................................................... 5-9

5.2.1 Chassis Over Temperature LED is Illuminated........................................ 5-10

5.2.2 Input Power LED Is Extinguished............................................................ 5-10

5.2.3 Fan Fail LED is Illuminated...................................................................... 5-10

5.2.4 Output Power LED Is Extinguished ......................................................... 5-11

59021-06 A Page v

SANbox2-16 Fibre Channel Switch Installation Guide

5.2.5 Power Supply Over Temperature LED is Illuminated .............................. 5-11

5.3 Recovering a Switch......................................................................................... 5-12

5.3.1 Maintenance – Exit.................................................................................. 5-13

5.3.2 Maintenance – Image Unpack................................................................. 5-13

5.3.3 Maintenance – Reset Network Config..................................................... 5-14

5.3.4 Maintenance – Reset Password File....................................................... 5-14

5.3.5 Maintenance – Copy Log Files................................................................ 5-14

5.3.6 Maintenance – Remove Switch Config.................................................... 5-14

5.3.7 Maintenance – Remake Filesystem ........................................................ 5-14

5.3.8 Maintenance – Reset Switch................................................................... 5-15

5.3.9 Maintenance – Show Firmware Versions ................................................ 5-15

5.3.10 Maintenance – Set Active Image............................................................. 5-15

Section 6 Removal/Replacement

6.1 SFP Transceivers............................................................................................... 6-2

6.2 Power Supplies .................................................................................................. 6-3

6.3 Fans ................................................................................................................... 6-4

Appendix A Specifications

A.1 Fabric Specifications ..........................................................................................A-1

A.2 Maintainability.....................................................................................................A-2

A.3 Fabric Management ...........................................................................................A-3

A.4 Dimensions.........................................................................................................A-3

A.5 Electrical.............................................................................................................A-3

A.6 Environmental ....................................................................................................A-4

A.7 Regulatory Certifications ....................................................................................A-5

A.8 Shortwave Laser SFP 1G/2G (multi-mode)........................................................A-6

A.9 Longwave Laser SFP 1G/2G (single-mode) ......................................................A-7

Appendix B Command Line Interface

B.1 Logging On to a Switch ......................................................................................B-1

B.2 Command Syntax...............................................................................................B-2

B.3 Commands .........................................................................................................B-3

Admin Command.......................................................................................B-4

Alias Command .........................................................................................B-5

Config Command.......................................................................................B-7

Date Command .......................................................................................B-10

Fallback Command..................................................................................B-11

Hardreset Command ...............................................................................B-12

Help Command........................................................................................B-13

Page vi 59021-06 A

SANbox2-16 Fibre Channel Switch

Installation Guide

History Command....................................................................................B-14

Hotreset Command .................................................................................B-15

Image Command.....................................................................................B-16

Lip Command ..........................................................................................B-17

Passwd Command ..................................................................................B-18

Ping Command........................................................................................B-19

Ps Command...........................................................................................B-20

Quit Command ........................................................................................B-21

Reset Command......................................................................................B-22

Set Command..........................................................................................B-27

Set Config Command ..............................................................................B-29

Set Log Command...................................................................................B-39

Set Port Command..................................................................................B-42

Set Setup Command ...............................................................................B-43

Show Command......................................................................................B-48

Show Config Command...........................................................................B-60

Show Log Command...............................................................................B-63

Show Perf Command ..............................................................................B-65

Show Setup Command............................................................................B-67

Shutdown Command...............................................................................B-70

Test Command ........................................................................................B-71

Uptime Command....................................................................................B-74

User Command .......................................................................................B-75

Whoami Command..................................................................................B-77

Zone Command.......................................................................................B-78

Zoneset Command..................................................................................B-82

Zoning Command....................................................................................B-85

Glossary

Index

Figures

Figure Page

2-1 SANbox2-16 Fibre Channel Switch................................................................................ 2-1

2-2 Chassis Controls and LEDS........................................................................................... 2-2

2-3 Chassis LEDs.................................................................................................................2-3

2-4 Fibre Channel Ports ....................................................................................................... 2-4

2-5 Port LEDs....................................................................................................................... 2-5

2-6 SFP Transceiver ............................................................................................................ 2-6

2-7 Ethernet Port.................................................................................................................. 2-8

59021-06 A Page vii

SANbox2-16 Fibre Channel Switch Installation Guide

2-8 Serial Port and Pin Identification.................................................................................... 2-8

2-9 Power Supply Components............................................................................................2-9

2-10 Fans ............................................................................................................................. 2-10

3-1 Cascade-with-a-Loop Topology ..................................................................................... 3-3

3-2 Mesh Topology...............................................................................................................3-4

3-3 Multistage Topology....................................................................................................... 3-5

4-1 SANbox2-16 Fibre Channel Switch................................................................................ 4-2

4-2 Installing Rack Mount Brackets...................................................................................... 4-4

4-3 Ethernet and Serial Cable Connections......................................................................... 4-8

5-1 Logged-In LED............................................................................................................... 5-5

5-2 Logged-In LED Indications............................................................................................. 5-5

5-3 Chassis and Power Supply LEDs .................................................................................. 5-9

6-1 SFP Transceiver Installation .......................................................................................... 6-2

6-2 Power Supply Removal.................................................................................................. 6-3

6-3 Fan Removal..................................................................................................................6-4

6-4 Fan Installation for Switch Model SB2A-16B ................................................................. 6-5

Tables

Table Page

2-1 Serial Port Pin Identification........................................................................................... 2-9

3-1 Port-to-Port Transmission Combinations ....................................................................... 3-7

3-2 Port-to-Port Latency....................................................................................................... 3-7

4-1 Management Workstation Requirements....................................................................... 4-1

B-1 Command-Line Completion ...........................................................................................B-2

B-2 Commands Listed by Authority Level.............................................................................B-3

B-3 Switch Configuration Defaults ......................................................................................B-23

B-4 Port Configuration Defaults..........................................................................................B-23

B-5 Alarm Threshold Configuration Defaults ......................................................................B-24

B-6 Zoning Configuration Defaults......................................................................................B-25

B-7 SNMP Configuration Defaults ......................................................................................B-25

B-8 System Configuration Defaults.....................................................................................B-26

B-9 Set Config Port Parameters .........................................................................................B-29

B-10 Set Config Switch Parameters .....................................................................................B-32

B-11 Set Config Threshold Parameters................................................................................B-34

B-12 Set Config Zoning Parameters.....................................................................................B-35

B-13 SNMP Configuration Settings ......................................................................................B-43

B-14 System Configuration Settings.....................................................................................B-44

B-15 Show Port Parameters.................................................................................................B-50

Page viii 59021-06 A

Section 1

Introduction

This manual describes the features and installation of the SANbox2-16 Fibre Channel switch, firmware version 2.0. This manual is organized as follows:

 Section 1 describes the intended audience, related materials, safety notices,

communications statements, laser safety information, electrostatic discharge sensitivity precautions, accessible parts, general program license, and technical support.

 Section 2 is an overview of the switch. It describes indicator LEDs and all

user controls and connections.

 Section 3 describes the factors to consider when planning a fabric.

 Section 4 explains how to install and configure the switch.

 Section 5 describes the diagnostic methods and troubleshooting

procedures.

 Section 6 describes the removal/replacement procedures for all field

replaceable units (FRUs).

 Appendix A lists the switch specifications.

 Appendix B describes the Telnet command line interface.

Please read the communications statements and laser safety information later in this section. Use this manual with the SANbox2-8c/16 Switch Management User’s Guide.

1.1

Intended Audience

This manual introduces users to the switch and explains its installation and service. It is intended for users who are responsible for installing and servicing network equipment.

59021-06 A 1-1

1 – Introduction Related Materials

1.2

Related Materials

The following manuals and materials are referenced in the text and/or provide additional information.

 SANbox2-8c/16 Switch Management User’s Guide, Publication Number

59022-06.

 Fibre Channel-Arbitrated Loop (FC-AL-2) Rev. 6.8.

 Fibre Channel-Private Loop SCSI Direct Attach (FC-PLDA) NCITS

TR-19:1998

 Fibre Channel-10-bit Interface Rev. 2.3.

 Definitions of Managed Objects for the Fabric Element in Fibre Channel

Standard (draft-ietf-ipfc-fabric-element-mib-04.txt).

The Fibre Channel Standards are available from:

Global Engineering Documents, 15 Inverness Way East, Englewood, CO 80112-5776 Phone: (800) 854-7179 or (303) 397-7956 Fax: (303) 397-2740.

1-2 59021-06 A

1.3

Safety Notices

A Warning notice indicates the presence of a hazard that has the potential of causing personal injury.

4-3, 4-5, 6-1

A Caution notice indicates the presence of a hazard that has the potential of causing damage to the equipment.

4-3, 5-14, 6-4

1.4

Sicherheitshinweise

Ein Warnhinweis weist auf das Vorhandensein einer Gefahr hin, die möglicherweise Verletzungen zur Folge hat.

4-3, 4-6, 6-1

Ein Vorsichtshinweis weist auf das Vorhandensein einer Gefahr hin, die möglicherweise Geräteschäden zur Folge hat.

1 – Introduction

Safety Notices

4-3, 5-14, 6-4

1.5

Notes informatives relatives à la sécurité

Une note informative Avertissement indique la présence d’un risque pouvant entraîner des blessures.

4-3, 4-5, 6-1

Une note informative Attention indique la présence d’un risque pouvant entraîner des dégâts matériels.

4-3, 5-14, 6-4

59021-06 A 1-3

1 – Introduction Communications Statements

1.6

Communications Statements

The following statements apply to this product. The statements for other products intended for use with this product appear in their accompanying manuals.

1.6.1

Federal Communications Commission (FCC) Class A Statement

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy, and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area may cause unacceptable interference, in which case the user will be required to correct the interference at their own expense.

Neither the provider nor the manufacturer is responsible for any radio or television interference caused by unauthorized changes or modifications to this equipment. Unauthorized changes or modifications could void the user's authority to operate the equipment.

This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

 This device may not cause harmful interference, and

 This device must accept any interference received, including interference

that may cause undesired operation.

1.6.2

Canadian Department of Communications Class A Compliance Statement

This equipment does not exceed Class A limits for radio emissions for digital apparatus, set out in Radio Interference Regulation of the Canadian Department of Communications. Operation in a residential area may cause unacceptable interference to radio and TV reception requiring the owner or operator to take whatever steps necessary to correct the interference.

1-4 59021-06 A

1 – Introduction

1.6.3

Communications Statements

Avis de conformité aux normes du ministère des Communications du Canada

Cet équipement ne dépasse pas les limites de Classe A d'émission de bruits radioélectriques por les appareils numériques, telles que prescrites par le Réglement sur le brouillage radioélectrique établi par le ministère des Communications du Canada. L'exploitation faite en milieu résidentiel peut entraîner le brouillage des réceptions radio et télé, ce qui obligerait le propriétaire ou l'opérateur à prendre les dispositions nécwssaires pour en éliminer les causes.

1.6.4

CE Statement

The CE symbol on the equipment indicates that this system complies with the EMC (Electromagnetic Compatibility) directive of the European Community (89/336/EEC) and to the Low Voltage (Safety) Directive (73/23/EEC). Such marking indicates that this system meets or exceeds the following technical standards:

 EN60950/A11:1997 – “Safety of Information Technology Equipment,

Including Electrical Business Equipment”.

 EN60825-1/A11:1996 – “Safety of Laser Products, Part 1".

 EN55022:1998 – “Limits and Methods of Measurement of Radio

Interference Characteristics of Information Technology Equipment”.

 EN55024-1:1998 – “Electromagnetic compatibility - Generic immunity

standard Part 1: Residential commercial, and light industry.”

 IEC1000-4-2:1995 – “Electrostatic Discharge Immunity Test”

 IEC1000-4-3:1995 – “Radiated, Radio-Frequency, Electromagnetic

Field Immunity Test”

 IEC1000-4-4:1995 – “Electrical Fast Transient/Burst Immunity Test”

 IEC1000-4-5:1995 – “Surge Immunity Test”

 IEC1000-4-6:1996 – “Immunity To Conducted Disturbances, Induced

By Radio-Frequency Fields”

 IEC1000-4-8:1993 – "Power Frequency Magnetic Field Immunity Test”

 IEC1000-4-11:1994 – “Voltage Dips, Short Interruptions And Voltage

Variations Immunity Tests”

 EN61000-3-2:1995 – “Limits For Harmonic Current Emissions (Equipment

Input Current Less Than/Equal To 16 A Per Phase)” Class A

 EN61000-3-3:1995 – “Limitation Of Voltage Fluctuations And Flicker In

Low-Voltage Supply Systems For Equipment With Rated Current Less Than Or Equal To 16 A”

59021-06 A 1-5

1 – Introduction Communications Statements

1.6.5

VCCI Class A Statement

This is a Class A product based on the standard of the Voluntary Control Council For Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions.

1.6.6

BSMI Class A Statement

Warning:

This is a Class A product. In a domestic environment, this product may cause radio interference in which case the user will be required to take adequate measures.

1-6 59021-06 A

1.7

Laser Safety Information

This product may use Class 1 laser optical transceivers to communicate over the fiber optic conductors. The U.S. Department of Health and Human Services (DHHS) does not consider Class 1 lasers to be hazardous. The International Electrotechnical Commission (IEC) 825 Laser Safety Standard requires labeling in English, German, Finnish, and French stating that the product uses Class 1 lasers. Because it is impractical to label the transceivers, the following label is provided in this manual.

1 – Introduction

Laser Safety Information

1.8

Electrostatic Discharge Sensitivity (ESDS) Precautions

The assemblies used in the switch chassis are ESD sensitive. Observe ESD handling procedures when handling any assembly used in the switch chassis.

59021-06 A 1-7

1 – Introduction Accessible Parts

1.9

Accessible Parts

The Field Replaceable Units (FRUs) in the SANbox2-16 switch are the following:

 Small Form-Factor Pluggable (SFP) optical transceivers

 Power supplies

 Fans

Refer to Section 6 Removal/Replacement for more information.

1.10

Pièces Accessibles

Les pièces remplaçables, Field Replaceable Units (FRU), du commutateur SANbox2-16 Fibre Channel Switch sont les suivantes:

 Interfaces aux media d’interconnexion appelés SFP transceivers.

 Alimentation(s) de courant

 Ventilateurs

Se reporter à la Section 6 (Procédures de retrait et remplacement) pour plus de renseignements.

1.11

Zugängliche Teile

Nur die folgenden Teile im SANbox2-16 Fibre Channel Switch können kundenseitig ersetzt werden:

 Schnittstellen für die Zwischenverbindungsträger, SFP transceivers

genannt.

 Netzteil(e)

 Gehäuselüfte

Weitere Informationen finden Sie im Abshcnitt 6 (Ausbauen der ersetzbaren Teile).

1-8 59021-06 A

1.12

General Public License

QLogic Fibre Channel switches are powered by the Linux operating system. A machine-readable copy of the Linux source code is available upon written request to the following address. A nominal fee will be charged for reproduction, shipping, and handling costs in accordance with the General Public License.

QLogic Corporation 6321 Bury Drive Eden Prairie, MN 55346-1739 Attention: Technical Support - Source Request

Warning: Installation of software or files not authorized by QLogic will immediately and irrevocably void all warranty and service contracts on the affected units.

The following general public license has been reproduced with permission from:

1 – Introduction

General Public License

1.12.1

Preamble

The licenses for most software are designed to take away your freedom to share and change it. By contrast, the GNU General Public License is intended to guarantee your freedom to share and change free software--to make sure the software is free for all its users. This General Public License applies to most of the Free Software Foundation's software and to any other program whose authors commit to using it. (Some other Free Software Foundation software is covered by the GNU Library General Public License instead.) You can apply it to your programs, too.

When we speak of free software, we are referring to freedom, not price. Our General Public Licenses are designed to make sure that you have the freedom to distribute copies of free software (and charge for this service if you wish), that you receive source code or can get it if you want it, that you can change the software or use pieces of it in new free programs; and that you know you can do these things.

To protect your rights, we need to make restrictions that forbid anyone to deny you these rights or to ask you to surrender the rights. These restrictions translate to certain responsibilities for you if you distribute copies of the software, or if you modify it.

For example, if you distribute copies of such a program, whether gratis or for a fee, you must give the recipients all the rights that you have. You must make sure that they, too, receive or can get the source code. And you must show them these terms so they know their rights.

59021-06 A 1-9

1 – Introduction General Public License

We protect your rights with two steps: (1) copyright the software, and (2) offer you this license which gives you legal permission to copy, distribute and/or modify the software.

Also, for each author's protection and ours, we want to make certain that everyone understands that there is no warranty for this free software. If the software is modified by someone else and passed on, we want its recipients to know that what they have is not the original, so that any problems introduced by others will not reflect on the original authors' reputations.

Finally, any free program is threatened constantly by software patents. We wish to avoid the danger that redistributors of a free program will individually obtain patent licenses, in effect making the program proprietary. To prevent this, we have made it clear that any patent must be licensed for everyone's free use or not licensed at all.

The precise terms and conditions for copying, distribution and modification follow.

1.12.2

Terms And Conditions For Copying, Distribution And Modification

1. This License applies to any program or other work which contains a notice placed by the copyright holder saying it may be distributed under the terms of this General Public License. The "Program", below, refers to any such program or work, and a "work based on the Program" means either the Program or any derivative work under copyright law: that is to say, a work containing the Program or a portion of it, either verbatim or with modifications and/or translated into another language. (Hereinafter, translation is included without limitation in the term "modification".) Each licensee is addressed as "you".

Activities other than copying, distribution and modification are not covered by this License; they are outside its scope. The act of running the Program is not restricted, and the output from the Program is covered only if its contents constitute a work based on the Program (independent of having been made by running the Program). Whether that is true depends on what the Program does.

2. You may copy and distribute verbatim copies of the Program's source code as you receive it, in any medium, provided that you conspicuously and appropriately publish on each copy an appropriate copyright notice and disclaimer of warranty; keep intact all the notices that refer to this License and to the absence of any warranty; and give any other recipients of the Program a copy of this License along with the Program.

You may charge a fee for the physical act of transferring a copy, and you may at your option offer warranty protection in exchange for a fee.

3. You may modify your copy or copies of the Program or any portion of it, thus forming a work based on the Program, and copy and distribute such

1-10 59021-06 A

1 – Introduction

General Public License

modifications or work under the terms of Section 1 above, provided that you also meet all of these conditions:

a. You must cause the modified files to carry prominent notices stating

that you changed the files and the date of any change.

b. You must cause any work that you distribute or publish, that in whole or

in part contains or is derived from the Program or any part thereof, to be licensed as a whole at no charge to all third parties under the terms of this License.

c. If the modified program normally reads commands interactively when

run, you must cause it, when started running for such interactive use in the most ordinary way, to print or display an announcement including an appropriate copyright notice and a notice that there is no warranty (or else, saying that you provide a warranty) and that users may redistribute the program under these conditions, and telling the user how to view a copy of this License. (Exception: if the Program itself is interactive but does not normally print such an announcement, your work based on the Program is not required to print an announcement.)

These requirements apply to the modified work as a whole. If identifiable sections of that work are not derived from the Program, and can be reasonably considered independent and separate works in themselves, then this License, and its terms, do not apply to those sections when you distribute them as separate works. But when you distribute the same sections as part of a whole which is a work based on the Program, the distribution of the whole must be on the terms of this License, whose permissions for other licensees extend to the entire whole, and thus to each and every part regardless of who wrote it.

Thus, it is not the intent of this section to claim rights or contest your rights to work written entirely by you; rather, the intent is to exercise the right to control the distribution of derivative or collective works based on the Program.

In addition, mere aggregation of another work not based on the Program with the Program (or with a work based on the Program) on a volume of a storage or distribution medium does not bring the other work under the scope of this License.

4. You may copy and distribute the Program (or a work based on it, under Section 2) in object code or executable form under the terms of Sections 1 and 2 above provided that you also do one of the following:

a. Accompany it with the complete corresponding machine-readable

source code, which must be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or,

59021-06 A 1-11

1 – Introduction General Public License

b. Accompany it with a written offer, valid for at least three years, to give

any third party, for a charge no more than your cost of physically performing source distribution, a complete machine-readable copy of the corresponding source code, to be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or,

c. Accompany it with the information you received as to the offer to

distribute corresponding source code. (This alternative is allowed only for noncommercial distribution and only if you received the program in object code or executable form with such an offer, in accord with Subsection b above.)

The source code for a work means the preferred form of the work for making modifications to it. For an executable work, complete source code means all the source code for all modules it contains, plus any associated interface definition files, plus the scripts used to control compilation and installation of the executable. However, as a special exception, the source code distributed need not include anything that is normally distributed (in either source or binary form) with the major components (compiler, kernel, and so on) of the operating system on which the executable runs, unless that component itself accompanies the executable.

If distribution of executable or object code is made by offering access to copy from a designated place, then offering equivalent access to copy the source code from the same place counts as distribution of the source code, even though third parties are not compelled to copy the source along with the object code.

5. You may not copy, modify, sublicense, or distribute the Program except as expressly provided under this License. Any attempt otherwise to copy, modify, sublicense or distribute the Program is void, and will automatically terminate your rights under this License. However, parties who have received copies, or rights, from you under this License will not have their licenses terminated so long as such parties remain in full compliance.

6. You are not required to accept this License, since you have not signed it. However, nothing else grants you permission to modify or distribute the Program or its derivative works. These actions are prohibited by law if you do not accept this License. Therefore, by modifying or distributing the Program (or any work based on the Program), you indicate your acceptance of this License to do so, and all its terms and conditions for copying, distributing or modifying the Program or works based on it.

7. Each time you redistribute the Program (or any work based on the Program), the recipient automatically receives a license from the original licensor to copy, distribute or modify the Program subject to these terms and conditions. You may not impose any further restrictions on the recipients' exercise of the

1-12 59021-06 A

1 – Introduction

General Public License

rights granted herein. You are not responsible for enforcing compliance by third parties to this License.

8. If, as a consequence of a court judgment or allegation of patent infringement or for any other reason (not limited to patent issues), conditions are imposed on you (whether by court order, agreement or otherwise) that contradict the conditions of this License, they do not excuse you from the conditions of this License. If you cannot distribute so as to satisfy simultaneously your obligations under this License and any other pertinent obligations, then as a consequence you may not distribute the Program at all. For example, if a patent license would not permit royalty-free redistribution of the Program by all those who receive copies directly or indirectly through you, then the only way you could satisfy both it and this License would be to refrain entirely from distribution of the Program.

If any portion of this section is held invalid or unenforceable under any particular circumstance, the balance of the section is intended to apply and the section as a whole is intended to apply in other circumstances.

It is not the purpose of this section to induce you to infringe any patents or other property right claims or to contest validity of any such claims; this section has the sole purpose of protecting the integrity of the free software distribution system, which is implemented by public license practices. Many people have made generous contributions to the wide range of software distributed through that system in reliance on consistent application of that system; it is up to the author/donor to decide if he or she is willing to distribute software through any other system and a licensee cannot impose that choice.

This section is intended to make thoroughly clear what is believed to be a consequence of the rest of this License.

9. If the distribution and/or use of the Program is restricted in certain countries either by patents or by copyrighted interfaces, the original copyright holder who places the Program under this License may add an explicit geographical distribution limitation excluding those countries, so that distribution is permitted only in or among countries not thus excluded. In such case, this License incorporates the limitation as if written in the body of this License.

10. The Free Software Foundation may publish revised and/or new versions of the General Public License from time to time. Such new versions will be similar in spirit to the present version, but may differ in detail to address new problems or concerns.

11. Each version is given a distinguishing version number. If the Program specifies a version number of this License which applies to it and "any later version", you have the option of following the terms and conditions either of that version or of any later version published by the Free Software Foundation. If the Program does not specify a version number of this

59021-06 A 1-13

1 – Introduction General Public License

12. If you wish to incorporate parts of the Program into other free programs

13. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS

License, you may choose any version ever published by the Free Software Foundation.

whose distribution conditions are different, write to the author to ask for permission. For software which is copyrighted by the Free Software Foundation, write to the Free Software Foundation; we sometimes make exceptions for this. Our decision will be guided by the two goals of preserving the free status of all derivatives of our free software and of promoting the sharing and reuse of software generally.

NO WARRANTY

NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION.

14. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.

END OF TERMS AND CONDITIONS

1.12.3

How to Apply These Terms to Your New Programs

If you develop a new program, and you want it to be of the greatest possible use to the public, the best way to achieve this is to make it free software which everyone can redistribute and change under these terms.

To do so, attach the following notices to the program. It is safest to attach them to the start of each source file to most effectively convey the exclusion of warranty; and each file should have at least the "copyright" line and a pointer to where the full notice is found.

1-14 59021-06 A

1 – Introduction

General Public License

one line to give the program's name and an idea of what it does.

This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

Also add information on how to contact you by electronic and paper mail.

If the program is interactive, make it output a short notice like this when it starts in an interactive mode:

Gnomovision version 69, Copyright (C) year name of author

Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details.

The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, the commands you use may be called something other than `show w' and `show c'; they could even be mouse-clicks or menu items--whatever suits your program.

You should also get your employer (if you work as a programmer) or your school, if any, to sign a "copyright disclaimer" for the program, if necessary. Here is a sample; alter the names:

Yoyodyne, Inc., hereby disclaims all copyright interest in the program `Gnomovision' (which makes passes at compilers) written by James Hacker.

signature of Ty Coon, 1 April 1989 Ty Coon, President of Vice

This General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Library General Public License instead of this License.

59021-06 A 1-15

1 – Introduction Technical Support

1.13

Technical Support

Customers should contact their authorized maintenance provider for technical support of their QLogic switch products. QLogic-direct customers may contact QLogic Technical Support; others will be redirected to their authorized maintenance provider.

Visit the QLogic support Web site listed in Contact Information for the latest firmware and software updates.

1.13.1

Availability

QLogic Technical Support is available from 7:00 AM to 7:00 PM Central Standard Time, Monday through Friday, excluding QLogic-observed holidays.

1.13.2

Training

QLogic offers certification training for the technical professional for both the SANblade HBAs and the SANbox2 switches. From the training link at

www.qlogic.com, you may choose Electronic-Based Training or schedule an

intensive "hands-on" Certification course.

Technical Certification courses include installation, maintenance and troubleshooting QLogic SAN products. Upon demonstrating knowledge using live equipment, QLogic awards a certificate identifying the student as a Certified Professional. The training professionals at QLogic may be reached by email at tech.training@qlogic.com.

1.13.3

Contact Information

Address: QLogic Switch Products Inc.

Telephone: +1 952-932-4040

Fax: +1 952-932-4018

Email: Technical Service Technical Training

Switch Support Web Site: http://support.qlogic.com

6321 Bury Drive Eden Prairie, Minnesota 55346 USA

support@qlogic.com tech.training@qlogic.com

1-16 59021-06 A

Section 2

General Description

This section describes the features and capabilities of the SANbox2-16 Fibre Channel switch. The following topics are described:

 Chassis controls and LEDs

 Fibre channel ports

 Ethernet port

 Serial port

 Power supplies

 Fans

 Switch management

Fabrics are managed with the SANbox Manager switch management application (version 2.00) and the Command Line Interface (CLI). Refer to the SANbox2-8c/16 Switch Management User’s Guide for information about using the SANbox Manager application. Refer to Appendix B Command Line Interface for more information about the command line interface.

Figure 2-1. SANbox2-16 Fibre Channel Switch

59021-06 A 2-1

2 – General Description Chassis Controls and LEDs

2.1

Chassis Controls and LEDs

Chassis controls include the power supply On/Off switches and the Maintenance button as shown in Figure 2-2. The Maintenance button is used to recover a disabled switch. The chassis LEDs provide information about the switch’s operational status. The chassis LEDs include the Over Temperature LED, Fan Fail LED, Heartbeat LED, and the Input Power LED.

Chassis LEDs

Left Power

Switch

Figure 2-2. Chassis Controls and LEDS

2.1.1

Power Switches

Each power supply has an On/Off switch that controls power to the switch logic circuitry. To apply power to the switch, place both switches in the On position.

2.1.2

Maintenance Button

The Maintenance button is a momentary switch on the front panel. Its purpose is to place the switch in maintenance mode. Maintenance mode sets the IP address to 10.0.0.1 and provides access to the switch for maintenance purposes when flash memory or the resident configuration file is corrupted. Refer to ”Recovering a

Switch” on page 5-12 for information about maintenance mode.

Maintenance

Button

Right Power

Switch

To place the switch in maintenance mode, do the following:

1. Isolate the switch from the fabric. Open a Telnet session, and enter the Shutdown command. Refer to ”Shutdown Command” on page B-70.

2. Place both power supply switches in the Off position.

3. Press and hold the Maintenance button with a pointed tool for a few seconds, then place one of the power supply switches in the On position. You can release the Maintenance button after the Input Power LED illuminates. When the switch is in maintenance mode, the Heartbeat LED

2-2 59021-06 A

To return to normal operation, power cycle the switch.

2.1.3

Chassis LEDs

The chassis LEDs shown in Figure 2-3 provide status information about switch operation. Refer to ”Port LEDs” on page 2-5 for information about port LEDs. Refer to ”Power Supplies” on page 2-9 for information about power supply LEDs.

2 – General Description

Chassis Controls and LEDs

illuminates continuously. Refer to ”Chassis LEDs” on page 2-3 for information about the Input Power LED and the Heartbeat LED.

Over Temperature LED

(Amber)

Fan Fail LED

(Amber)

Figure 2-3. Chassis LEDs

2.1.3.1

Over Temperature LED (Amber)

The Over Temperature LED provides status information about the air temperature inside the switch. This LED illuminates to indicate that the switch logic circuitry is overheating. Refer to Section 5 Diagnostics/Troubleshooting for information about troubleshooting over temperature conditions.

Heartbeat LED

(Amber)

Input Power LED

(Green)

2.1.3.2

Fan Fail LED (Amber)

The Fan Fail LED indicates operational status of all fans. This LED illuminates if the speed of any fan falls below the normal range. Removing a fan will not illuminate the Fan Fail LED. Refer to Section 5 Diagnostics/Troubleshooting for information about troubleshooting fan failure conditions.

59021-06 A 2-3

2 – General Description Fibre Channel Ports

2.1.3.3

Heartbeat LED (Amber)

The Heartbeat LED indicates the status of the internal switch processor and the results of the Power On Self Test (POST). Following a normal power-up, the Heartbeat LED blinks about once per second to indicate that the switch passed the POST and that the internal switch processor is running. In maintenance mode, the Heartbeat LED illuminates continuously. Refer to ”Heartbeat LED Blink

Patterns” on page 5-1 for more information about Heartbeat LED blink patterns.

2.1.3.4

Input Power LED (Green)

The Input Power LED indicates the voltage status at the switch logic circuitry. This LED illuminates when the switch logic circuitry is receiving the proper DC voltages.

2.2

Fibre Channel Ports

The SANbox2-16 switch has 16 Fibre Channel ports numbered 0–15 as shown in

Figure 2-4. Each of these ports is served by a Small Form-Factor Pluggable (SFP)

optical transceiver. The port LEDs are located to the right of their respective ports and provide port login and activity status information. The ports self discover the proper mode when connected to public devices and other switches. You can also configure any port to support a loop of private target devices.

Port Port LEDs

Figure 2-4. Fibre Channel Ports

2-4 59021-06 A

2.2.1

Port LEDs

2 – General Description

Fibre Channel Ports

Each Fibre Channel port has its own Logged-In LED and Activity LED as shown in

Figure 2-5.

2.2.1.1

Logged-In LED

The Logged-in LED indicates the logged-in or initialization status of the connected devices. After successful completion of the POST, the switch extinguishes all Logged-In LEDs. Following a successful loop initialization or port login, the switch illuminates the corresponding logged-in LED. This shows that the port is properly connected and able to communicate with its attached devices. The Logged-In LED remains illuminated as long as the port is initialized or logged in. If the port connection is broken or an error occurs that disables the port, the Logged-In LED will flash. Refer to ”Logged-In LED Indications” on page 5-5 for more information about the Logged-In LED.

Logged-In LED

(Green)

Figure 2-5. Port LEDs

Activity LED

(Amber)

2.2.1.2

Activity LED

The Activity LED indicates that data is passing through the port. Each frame that the port transmits or receives causes this LED to illuminate for 50 milliseconds. This makes it possible to observe the transmission of a single frame. When extending credits, the Activity LED for a donor port will reflect the traffic of the recipient port. Refer to ”Distance” on page 3-6 for more information about extended credits and donor ports.

59021-06 A 2-5

2 – General Description Fibre Channel Ports

2.2.2

Small Form-Factor Pluggable (SFP) Transceivers

An SFP transceiver, like the one shown in Figure 2-6, converts electrical signals to and from optical laser signals to transmit and receive data. SFP transceivers plug into the ports; duplex fiber optic cables plug into the transceivers which then connect to the devices. A port is capable of transmitting at 1 Gbps or 2 Gbps; however, the transceiver must be capable of 2 Gbps for the port to deliver at that rate.

The SFP transceivers are hot swappable. This means that you can remove or install an SFP transceiver while the switch is operating without harming the switch or the transceiver. However, communication with the connected device will be interrupted. Refer to ”SFP Transceivers” on page 6-2 for information about installing and removing SFP optical transceivers.

2.2.3

Port Modes

Figure 2-6. SFP Transceiver

SANbox2-16 switches support the following port modes:

 Generic ports (GL_Port and G_Port)

 Fabric ports (FL_Port and F_Port)

 Translated loop ports (TL_Port)

 Expansion ports (E_Port)

Switches come from the factory with all ports configured as GL_Ports. GL_Ports self-configure in the following ways:

 FL_Port when connected to a loop of public devices

 F_Port when connected to a single public device. If the device is a single

device on a loop, the GL_Port will attempt to configure first as an F_Port, then if that fails, as an FL_Port.

 E_Port when connected to another FC-SW-2 compliant switch

2-6 59021-06 A

G_Ports self-configure in the following ways:

 F_Port when connected to a public device

 E_Port when connected to another FC-SW-2 compliant switch

A TL_Port supports private loop devices and must be configured explicitly. Refer to the SANbox2-8c/16 Switch Management User’s Guide for more information about defining port modes.

2.2.3.1

Fabric Ports

An FL_Port can support a loop of up to 126 public devices. An FL_Port can also configure itself during the fabric login process as an F_Port when connected to a single public device (N_Port).

2.2.3.2

Translated Loop Port

A TL_Port supports a loop of up 124 private target devices with the ability to communicate with up to 63 “off-loop” public devices. The TL_Port acts as a proxy for the off-loop device translating private frames into and from public frames. The set of off-loop devices are maintained in the TL_Port’s translation entries list. The switch firmware automatically creates an entry in the translation entries list for each off-loop initiator device that attempts to establish communication. Soft or VPF zoning can be used to limit the number of potential initiators to 63. Zone membership must be done by worldwide name, or domain ID and port ID. TL_Ports connect to devices that conform to the Fibre Channel-Private Loop SCSI Direct Attach (FC-PLDA) standard. Devices connected to TL_Ports are registered with the Name Server.

2 – General Description

Fibre Channel Ports

2.2.3.3

Expansion Port

E_Ports enable you to expand the fabric by connecting SANbox2-16 switches with other FC-SW-2 compliant switches. SANbox2-16 switches self-discover all inter-switch connections. Refer to ”Multiple Chassis Fabrics” on page 3-2 for more information about multiple chassis fabrics.

59021-06 A 2-7

2 – General Description Ethernet Port

2.3

Ethernet Port

The Ethernet port shown in Figure 2-7 is an RJ-45 connector that provides a connection to a management workstation. A management workstation can be a Windows, Solaris™, or a Linux® workstation that is used to configure and manage the switch fabric. You can manage the switch over an Ethernet connection using SANbox Manager, the Command Line Interface (CLI), or SNMP. The switch through which the fabric is managed is called the fabric management switch.

RJ-45 Ethernet Port

2.4

Serial Port

Figure 2-7. Ethernet Port

The SANbox2-16 switch is equipped with an RS-232 serial port for maintenance purposes. The serial port location is shown in Figure 2-8. You can manage the switch through the serial port using the CLI.

Serial Port

Figure 2-8. Serial Port and Pin Identification

2-8 59021-06 A

2 – General Description

Power Supplies

The serial port connector requires a null-modem F/F DB9 cable. The pins on the switch RS-232 connector are shown in Figure 2-8 and identified in Table 2-1. Refer to ”Connect the Management Workstation to the Switch” on page 4-8 for information about connecting the management workstation through the serial port.

Table 2-1. Serial Port Pin Identification

Pin Number Description

1 Carrier Detect (DCD)

2 Receive Data (RxD)

3 Transmit Data (TxD)

4 Data Terminal Ready (DTR)

5 Signal Ground (GND)

6 Data Set Ready (DSR)

7 Request to Send (RTS)

8 Clear to Send (CTS)

9 Ring Indicator (RI)

2.5

Power Supplies

The power supplies convert standard 110 or 230 VAC to DC voltages for the various switch circuits. Each power supply has an AC power receptacle, an On/Off switch, and two status LEDs as shown in Figure 2-9. After connecting a power supply to an AC voltage source and placing the power switch in the On position, the power supply is energized and DC voltage is delivered to the switch logic circuitry. Refer to Section 6 Removal/Replacement for information about replacing a power supply.

Over Temperature LED

(Amber)

AC Power

Receptacle

Output Power LED

(Green)

On/Off Switch

Figure 2-9. Power Supply Components

59021-06 A 2-9

2 – General Description Fans

Each power supply is capable of providing all of the switch’s power needs. During normal operation, each power supply provides half of the demand. If one power supply goes offline, the second power supply steps up and provides the difference.

The power supplies are hot swappable and interchangeable. Hot swappable means that you can remove and replace one power supply while the switch is in operation without disrupting service.

Each power supply has two status LEDs: an Output Power LED (green) and an Over Temperature LED (amber):

 The Output Power LED illuminates to indicate that the power supply is

 The Over Temperature LED illuminates to indicate that the power supply is

producing DC voltage at the proper levels.

overheating. When a power supply overheats, the switch extinguishes the Output Power LED and shuts down the power supply. Refer to

Section 5 Diagnostics/Troubleshooting for information about troubleshooting

over temperature conditions.

2.6

Fans

The switch is equipped with two fans as shown in Figure 2-10. If one fan should fail, the other fan is capable of providing the necessary cooling until the failed fan can be replaced. The fans are hot swappable and interchangeable. Refer to

”Fans” on page 6-4 for information about removing and replacing the fans. Air flow

can be front-to-back or back-to-front depending on the switch model.

Fans

Figure 2-10. Fans

2-10 59021-06 A

2.7

Switch Management

SANbox Manager is a workstation-based Java® application that provides a graphical user interface for fabric management. This application runs on a Windows®, Solaris™, or Linux® workstation. The management workstation connects to the fabric directly through one switch’s Ethernet port and provides in-band management for all other switches in the fabric. Refer to the SANbox2-8c/16 Switch Management User’s Guide for information about the SANbox Manager application and its use.

In addition to SANbox Manager, the switch supports the following management tools:

 Telnet command line interface (CLI)

 File Transfer Protocol (FTP)

 Simple Network Management Protocol (SNMP)

The command line interface provides monitoring and configuration functions by which the administrator can manage the fabric and its switches. The CLI is available over an Ethernet connection or a serial connection. Refer to

Appendix B Command Line Interface for more information.

2 – General Description

Switch Management

FTP provides the command line interface for exchanging files between the switch and the management workstation. These files include firmware image files, configuration files, and log files.

SNMP provides monitoring and trap functions for the fabric. SANbox2 firmware supports SNMP versions 1 and 2, the Fibre Alliance Management Information Base (FA-MIB) version 4.0, and the Fabric Element Management Information Base (FE-MIB) RFC 2837. Traps can be formatted using SNMP version 1 or 2.

59021-06 A 2-11

2 – General Description Switch Management

Notes

2-12 59021-06 A

3.1

Devices

Section 3

Planning

Consider the following when planning a fabric:

 Devices

 Multiple chassis fabrics

 Performance

 Device access

 Fabric management

 Fabric security

When planning a fabric, consider the number of devices and the anticipated demand. This will determine the number of ports that are needed and in turn the number of switches. Consider how many and what types of switches are needed.

The switch uses SFP optical transceivers, but the device host bus adapters you are using may not. Consider whether the device adapters use SFP transceivers or Gigabit Interface Converters (GBIC), and choose fiber optic cable accordingly. Use LC-type cable connectors for SFP transceivers and SC-type cable connectors for GBIC transceivers.

Consider the distribution of public and private devices as well as targets and initiators. Public devices have full Fibre Channel addressing capability, and therefore can communicate with any other public device on the fabric. An F_Port supports a single public device. An FL_Port can support up to 126 public devices in an arbitrated loop.

Private devices do not have full Fibre Channel addressing capability, only the Arbitrated Loop Physical Address (ALPA) portion. A TL_Port provides a proxy for a loop of up to 124 private target devices allowing communication with up to 63 off-loop public initiator devices. Consider the number of private devices in the fabric and the number of off-loop devices with which the private devices must communicate.

59021-06 A 3-1

3 – Planning Multiple Chassis Fabrics

3.2

Multiple Chassis Fabrics

By connecting switches together you can expand the number of available ports for devices. Each switch in the fabric is identified by a unique domain ID, and the fabric will automatically resolve domain ID conflicts. Because the ports are self-configuring, you can connect SANbox2-16 and other FC-SW-2 compliant switches together in a wide variety of topologies.

3.2.1

Domain ID, Principal Priority, and Domain ID Lock

The following switch configuration settings affect multiple chassis fabrics:

 Domain ID

 Principal priority

 Domain ID lock

The domain ID is a unique number from 1–239 that identifies each switch in a fabric. The principal priority is a number (1–255) that determines the principal switch which manages domain ID assignments for the fabric. The switch with the highest principal priority (1 is high, 255 is low) becomes the principal switch. If the principal priority is the same for all switches in a fabric, the switch with the lowest WWN becomes the principal switch.

The domain ID lock allows (False) or prevents (True) the reassignment of the domain ID on that switch. Switches come from the factory with the domain ID set to 1, the domain ID lock set to False, and the principal priority set to 254. Refer to the SANbox2-8c/16 Switch Management User’s Guide for information about changing the domain ID using SANbox Manager. Refer to the ”Set Config

Command” on page B-29 for information about changing the default domain ID,

domain ID lock, and principal priority parameters.

An unresolved domain ID conflict means that the switch with the higher WWN will isolate as a separate fabric, and the Logged-In LEDs on both switches will flash green to show the affected ports. If you connect a new switch to an existing fabric with its domain ID unlocked, and a domain ID conflict occurs, the new switch will isolate as a separate fabric. However, you can remedy this by resetting the new switch or taking it offline then back online. The principal switch will reassign the domain ID and the switch will join the fabric.

Note: Domain ID reassignment is not reflected in zoning that is defined by

domain ID/port number pair or Fibre Channel address. You must reconfigure zones that are affected by domain ID reassignment. To prevent zoning definitions from becoming invalid under these conditions, lock the domain IDs using SANbox Manager or the Set Config Switch command.

3-2 59021-06 A

3.2.2

Common Topologies

The SANbox2-16 switch supports three commonly used fabric topologies:

 Cascade

 Mesh

 Multistage®

3.2.2.1

Cascade Topology

A cascade topology describes a fabric in which the switches are connected in series. If you connect the last switch back to the first switch, you create a cascade-with-a-loop topology as shown in Figure 3-1. The loop reduces latency because any switch can route traffic in the shortest direction to any switch in the loop. The loop also provides failover should a switch fail.

The cascade fabric shown in Figure 3-1 has the following characteristics:

 Each chassis link contributes up to 200 MB/s of bandwidth between chassis,

400 MB/s in full duplex. However, because of the sequential structure, that bandwidth will be shared by traffic between devices on other chassis.

3 – Planning

Multiple Chassis Fabrics

 Latency between any two ports is no more than three chassis hops.

 48 Fibre Channel ports are available for devices.

Figure 3-1. Cascade-with-a-Loop Topology

59021-06 A 3-3

3 – Planning Multiple Chassis Fabrics

3.2.2.2

Mesh Topology

A mesh topology describes a fabric in which each chassis has at least one port directly connected to each other chassis in the fabric. The example mesh fabric shown in Figure 3-2 has the following characteristics:

 Each link contributes up to 200 MB/s of bandwidth between switches, 400

MB/s in full duplex. Because of multiple parallel paths, there is less competition for this bandwidth than with a cascade or a Multistage topology.

 Latency between any two device ports is no more than two chassis hops.

 40 Fibre Channel ports are available for devices.

Figure 3-2. Mesh Topology

3-4 59021-06 A

3.2.2.3

Multistage Topology

A Multistage topology describes a fabric in which two or more edge switches connect to one or more core switches. Each additional core switch increases the bandwidth to each edge switch by 200 MB/s. The Multistage fabric shown in

Figure 3-3 has the following characteristics:

 Each link contributes up to 200 MB/s of bandwidth between chassis.

Competition for this bandwidth is less than that of a cascade topology, but greater than that of the mesh topology.

 Latency between any two device ports is three chassis hops.

 52 Fibre Channel ports are available for devices

3 – Planning

Multiple Chassis Fabrics

Core Switch

Edge Switch

Figure 3-3. Multistage Topology

59021-06 A 3-5

3 – Planning Performance

3.3

Performance

The SANbox2-16 switch supports class 2 and class 3 Fibre Channel service at transmission rates of 1 Gbps or 2 Gbps with a maximum frame size of 2148 bytes. A port can transmit or receive at 1 Gbps or 2 Gbps depending on the device to which it is connected. The port discovers the transmission speed prior to login when the connected device powers up. Related performance characteristics include the following:

 Distance

 Bandwidth

 Latency

3.3.1

Distance

Consider the physical distribution of devices and switches in the fabric. Choose SFP transceivers that are compatible with the cable type, distance, Fibre Channel revision level, and the device host bus adapter. Refer to

Appendix A Specifications for more information about cable types and SFP

transceivers.

Each port is supported by a data buffer with a 12 credit capacity; that is, 12 maximum sized frames. For fibre optic cables, this enables full bandwidth over a distance of 20 kilometers at 1 Gbps (0.6 credits/Km), or 10 kilometers at 2 Gbps (1.2 credits/Km). Beyond this distance, however, there is some loss of efficiency because the transmitting port must wait for an acknowledgement before sending the next frame.

Longer distances can be spanned at full bandwidth by extending credits on G_Ports and F_Ports. Each port can donate up to 11 credits to a pool from which a recipient port can borrow. For example, you can configure a recipient port to borrow up to 66 credits from 6 ports for a total of 78 credits. This will support communication over approximately 130 Km at 1 Gbps (78÷0.6) or 65 Km at 2 Gbps (78÷1.2).

You can configure recipient and donor ports using SANbox Manager or the Set Config command. Refer to ”Set Config Command” on page B-29 for more information.

3-6 59021-06 A

3.3.2

Bandwidth

3 – Planning

Performance

Bandwidth is a measure of the volume of data that can be transmitted at a given transmission rate. A port can transmit or receive at 1 Gbps or 2 Gbps depending on the device to which it is connected. The switch supports all transmission rate combinations as shown in Tab le 3 -1 .

Table 3-1. Port-to-Port Transmission Combinations

Source Port Rate Destination Port Rate Maximum Bandwdith

1 Gbps 1 Gbps 100 MB

1 Gbps 2 Gbps 100 MB

1 Gbps x 2 ports 2 Gbps 200 MB

2 Gbps 1 Gbps x 2 ports

2 Gbps 2 Gbps 200 MB

Bandwidth will be less for larger sequence sizes.

100 MB each port

3.3.3

Latency

In multiple chassis fabrics, each link between chassis contributes 100 or 200 megabytes of bandwidth between those chassis. When additional bandwidth is needed between devices, increase the number of links between the connecting switches. The switch guarantees in-order-delivery with any number of links between chassis.

Latency is a measure of how fast a frame travels from one port to another. The factors that affect latency include transmission rate and the source/destination port relationship as shown in Tab le 3- 2.

Table 3-2. Port-to-Port Latency

Source/Destination Rates Same Switch I

1 Gbps - 1 Gbps < 1 µsec

2 Gbps - 2 Gbps < 0.4 µsec

59021-06 A 3-7

3 – Planning Device Access

3.4

Device Access

Consider device access needs within the fabric. Access is controlled by the use of zones and zone sets. Some zoning strategies include the following:

 Separate devices that use different operating systems.

 Separate devices that have no need to communicate with other devices in

 Separate devices into department, administrative, or other functional group.

 Group TL_Port private target devices with initiators to allow automatic

 Reserve a path and its bandwidth from one port to another.

A zone is a named group of devices that can communicate with each other. Membership in a zone can be defined by switch port number, port Fibre Channel address, or by device worldwide name (WWN). Devices can communicate only with devices that are members of the same zone. A zone can be a member of more than one zone set. Several zone sets can be defined for a fabric, but only one zone set can be active at one time. The active zone set determines the current fabric zoning.

the fabric or have classified data.

discovery.

A zoning database is maintained on each switch consisting of all inactive zone sets, the active zone set, all zones, aliases, and their membership. The switch supports the following maximum limits:

 256 zone sets

 256 zones per zone set

 1000 total zones

 2000 members per zone

 256 aliases

 2000 members per alias

 2000 total number of alias and zone members

The following zone types are supported:

 Soft zone

 Access Control List (ACL) - hard zone

 Virtual Private Fabric (VPF) - hard zone

3-8 59021-06 A

3.4.1

Soft Zones

3 – Planning

Device Access

Soft zoning divides the fabric for purposes of controlling discovery. Members of the same soft zone automatically discover and communicate freely with all other members of the same zone. The soft zone boundary is not secure; traffic across soft zones can occur if addressed correctly. The following rules apply to soft zones:

 Soft zones that include members from multiple switches need not include

the ports of the inter-switch links.

 Soft zone boundaries yield to ACL and VPF zone boundaries.

 Soft zones can overlap; that is, a port can be a member of more than one

soft zone.

 Membership can be defined by Fibre Channel address, domain ID and port

number, or worldwide name.

 Soft zoning supports all port modes.

3.4.2

Access Control List Hard Zones

Access Control List (ACL) zoning divides the fabric for purposes of controlling discovery and inbound traffic. ACL zoning is a type of hard zoning that is hardware enforced. This type of zoning is useful for controlling access to certain devices without totally isolating them from the fabric. Members can communicate with each other and transmit outside the ACL zone, but cannot receive inbound traffic from outside the zone. The following rules apply to ACL zones:

 The ACL zone boundary is secure against inbound traffic.

 ACL zones can overlap; that is, a port can be a member of more than one

ACL zone.

 ACL zones that include members from multiple switches need not include

the ports of the inter-switch links.

 ACL zone boundaries supersede soft zone boundaries, but yield to VPF

zone boundaries.

 Membership can be defined only by domain ID and port ID.

 ACL zoning supports all port modes except TL_Port.

59021-06 A 3-9

3 – Planning Fabric Management

3.4.3

Virtual Private Fabric Hard Zones

Virtual Private Fabric (VPF) zoning divides the fabric for purposes of controlling discovery and both inbound and outbound traffic. This type of zoning is useful for providing security and reserving paths between devices to guarantee bandwidth. VPF zoning is a type of hard zoning that is hardware enforced. Members can only transmit to and receive from members of the same VPF zone. The VPF zone boundary is secure against both inbound and outbound traffic. The following rules apply to VPF zones:

 VPF zones that include members from multiple switches must include the

ports of the inter-switch links.

 VPF zones cannot overlap; that is, a port can be a member of only one VPF

zone.

 VPF zone boundaries supersede both soft and ACL zone boundaries.

 Membership can be defined only by domain ID and port ID.

 VPF zoning supports all port modes.

3.5

Fabric Management

The SANbox Manager application and CLI execute on a management workstation that provides for the configuration, control, maintenance of the fabric. Supported platforms include Windows, Windows NT, Solaris, and Linux. The SANbox Manager application can manage multiple fabrics. Consider how many fabrics will be managed, how many management workstations are needed, and whether the fabrics will be managed with the CLI or SANbox Manager.

A switch supports a combined maximum of 19 logins reserved as follows:

 4 sessions for internal applications such as management server and SNMP

 15 sessions for SANbox Manager inband and out-of-band logins,

Application Programming Interface (API) inband and out-of-band logins and Telnet logins. Of these 15, there can be a combined maximum of 10 SANbox Manager and API logins. Additional logins will be refused.

3-10 59021-06 A

3.6

Security

3 – Planning

Security

Security is available in the form of user authentication, inter-switch security, and inband management. User authentication validates user accounts for both Telnet and SANbox Manager sessions. A user account consists of an account name, a password, an authority level, and an expiration date. If an account has Admin authority, all management tasks can be performed by that account in both SANbox Manager and the Telnet command line interface. Otherwise only monitoring tasks are available. Consider your management needs and determine the number of user accounts, their authority needs, and expiration dates.

Account names and passwords are required only if fabric security is enabled. Fabric security is controlled by the SecurityEnabled parameter which is set by the Set Setup System command. Fabric security must be configured the same for all switches in the fabric. Refer to the ”Set Setup Command” on page B-43 for more information. Switches come from the factory with fabric security disabled. Consider your user accounts and determine whether user authentication is necessary.

Inter-switch link security controls whether connections are permitted with other switches. You can configure a SANbox2-16 switch to connect with FC-SW-2 compliant switches only, SANbox2 switches only, or to reject all connections regardless of switch type. Refer to the ”Set Config Command” on page B-29 for more ISL security information and a Set Config Port example. Consider the types of switches in your fabric and where connections are needed.

Inband management is the ability to manage switches across inter-switch links using SANbox Manager, SNMP, IPFC, management server, or the application programming interface. The switch comes from the factory with inband management enabled. If you disable inband management on a particular switch, you can no longer communicate with that switch by means other than a direct Ethernet or serial connection. Consider how you want to manage the fabric and what switches you do not want managed through another switch.

59021-06 A 3-11

3 – Planning Security

Notes

3-12 59021-06 A

Section 4

Installation

This section describes how to install and configure the SANbox2-16 switch. It also describes how to load new firmware and how to recover a disabled switch.

4.1

Site Requirements

Consider the following items when installing a SANbox2-16 switch:

 Fabric management workstation

 Power requirements

 Environmental conditions

4.1.1

Fabric Management Workstation

The requirements for fabric management workstations running SANbox Manager are described in Table 4-1:

Table 4-1. Management Workstation Requirements

Operating System

Memory 128 MB or more

Disk Space 150 MB per installation

Processor 300 MHz or faster

Hardware

Internet Browser Microsoft® Internet Explorer® or Netscape Navigator®

Telnet workstations require an RJ-45 Ethernet port or an RS-232 serial port and an operating system with a Telnet client.

4.1.2

 Windows® NT, 2000, 95/98  Linux® 7.2 Red Hat®  Solaris™

CD-ROM drive, RS-232 serial port,

Switch Power Requirements

Operating voltage requirements are as follows:

90 to 137 VAC; 47 to 63 Hz 180 to 265 VAC; 47 to 63 Hz

RJ-45 Ethernet port

59021-06 A 4-1

4 – Installation Installing a Switch

4.1.3

Environmental Conditions

Consider the factors that affect the climate in your facility such as equipment heat dissipation and ventilation. The switch requires the following operating conditions:

 Operating temperature range: 10° – 40° C (50°– 104°F)

 Relative humidity: 25 – 80%, non-condensing

4.2

Installing a Switch

Unpack the switch and accessories. The SANbox2-16 product is shipped with the components shown in Figure 4-1:

 SANbox2-16 Fibre Channel Switch (1) with firmware installed

 Power cords (2)

 Rubber feet (4)

 Rack mount brackets (2)

 CD-ROM containing the SANbox Manager switch management application,

release notes, and documentation.

Figure 4-1. SANbox2-16 Fibre Channel Switch

4-2 59021-06 A

Installing a SANbox2-16 switch involves the following steps:

1. Mount the switch.

2. Install SFP transceivers.

3. Connect the switch to the AC power source.

4. Connect the management workstation to the switch.

5. Install the SANbox Manager application.

6. Configure the switch.

7. Configure the ports.

8. Cable devices to the switch.

4.2.1

Mount the Switch

The switch can be placed on a flat surface and stacked or mounted in a 19” EIA rack. The top of each chassis has dimples to receive the rubber feet of a second chassis stacked on top. Without the rubber feet, the switch occupies 1U of space in an EIA rack. Mounting rails are required for rack installation and are available through QLogic Corporation.

4 – Installation

Installing a Switch

WARNING!!

CAUTION!

Mount switches in the rack so that the weight is distributed evenly. An unevenly loaded rack can become unstable possibly resulting in equipment damage or personal injury.

If the switch is mounted in a closed or multi-unit rack assembly, make sure that the operating temperature inside the rack enclosure does not exceed the maximum rated ambient temperature. Refer to ”Environmental” on page A-4.

The switch must rest on rails or a shelf in the rack or cabinet. Allow 16 cm (6.5 in) minimum clearance at the front and rear of the rack for service access and ventilation.

Do not restrict chassis air flow. Allow 16 cm (6.5 in) minimum clearance at the front and rear of the rack for service access and ventilation.

Multiple rack-mounted units connected to the AC supply circuit may overload that circuit or overload the AC supply wiring. Consider the power source capacity and the total power usage of all switches on the circuit. Refer to ”Electrical” on page A-3.

Reliable grounding in the rack must be maintained from the switch chassis to the AC power source.

59021-06 A 4-3

4 – Installation Installing a Switch

When mounting the switch in a rack, ensure that the 19-inch rack meets the following standard specifications:

 ANSI/EIA RS-230 Standard, entitled Cabinets, Racks, Panels, and

Associated Equipment

 MIL-STD- 189, entitled Racks, Electrical Equipment, 19-Inch and Associated

Panels

The brackets shown in Figure 4-2 are provided with the switch so that the switch can be secured on a shelf. The brackets alone are not designed to support the weight of the switch.

Figure 4-2. Installing Rack Mount Brackets

4.2.2

Install SFP Transceivers

The switch has been validated with transceivers that support a variety of interconnection media. To install, insert the transceiver into the port and gently press until it snaps in place. To remove a transceiver, gently press the transceiver into the port to release the tension, then pull on the release tab or lever and remove the transceiver. Different transceiver manufacturers have different release mechanisms. Consult the documentation for your transceiver.

Note: The SFP transceiver will fit only one way. If the SFP does not install

under gentle pressure, flip it over and try again.

4-4 59021-06 A

4.2.3

Connect the Switch to AC Power

WARNING!! This product is supplied with a 3-wire power cable and plug for

the user’s safety. Use this power cable in conjunction with a properly grounded outlet to avoid electrical shock. An electrical outlet that is not correctly wired could place hazardous voltage on metal parts of the switch chassis. It is the responsibility of the customer to ensure that the outlet is correctly wired and grounded to prevent electrical shock.

You may require a different power cable in some countries because the plug on the cable supplied with the equipment will not fit your electrical outlet. In this case, you must supply your own power cable. The cable you use must meet the following requirements:

 For 125 Volt electrical service, the cable must be rated at

10 Amps and be approved by UL and CSA.

4 – Installation

Installing a Switch

 For 250 Volt electrical service: The cable must be rated at

AVERTISSEMENT!!

Pour la sécurité de l’utilisateur, l’appareil est livré avec un câble d’alimentation trifilaire et une fiche. Pour éviter toute secousse électrique, enficher ce câble à une prise correctement mise à la terre.Une prise électrique dont les fils sont mal branchés peut créer une tension dangereuse dans les pièces métalliques du châssis switch. Pour éviter toute secousse électrique, s’assurer que les fils sont correctement branchés et que la prise est bien mise à la terre.

Dans certains pays les prises électriques sont de modèle différent; on ne peut y enficher le câble de l’appareil. On doit donc en utiliser un autre ayant les caractéristiques suivantes:

 Alimentation 125 V: Câble pour courant nominal de 10 A,

 Alimentation 250 V: Câble pour courant nominal de 10 A,

10 Amps, meet the requirements of H05VV-F, and be approved by VDE, SEMKO, and DEMKO.

agréé LAC et CSA.

conforme au H05VV-F, et agréé VDE, SEMKO et DEMKO.

59021-06 A 4-5

4 – Installation Installing a Switch

WARNUNG!!

Dieses Produkt wird mit einem 3-adrigen Netzkabel mit Stecker geliefert. Dieses Kabel erfüllt die Sicherheitsanforderungen und sollte an einer vorschriftsmäßigen Schukosteckdose angeschlossen werden, um die Gefahr eines elektrischen Schlages zu vermeiden.Elektrosteckdosen, die nicht richtig verdrahtet sind, können gefährliche Hochspannung an den Metallteilen des switch-Gehäuses verursachen. Der Kunde trägt die Verantwortung für eine vorschriftsmäßige Verdrahtung und Erdung der Steckdose zur Vermeidung eines elektrischen Schlages.

In manchen Ländern ist eventuell die Verwendung eines anderen Kabels erforderlich, da der Stecker des mitgelieferten Kabels nicht in die landesüblichen Steckdosen paßt. In diesem Fall müssen Sie sich ein Kabel besorgen, daß die folgenden Anforderungen erfüllt:

 Für 125 Volt-Netze: 10 Ampere Kabel mit UL- und

CSA-Zulassung.

 Für 250 Volt-Netze: 10 Ampere Kabel gemäß den

Anforderungen der H05VV-F und VDE-, SEMKO- und DEMKO-Zulassung.

To energize the switch, do the following:

1. Connect the power cords to the AC power receptacles on the front of the switch chassis.

2. Connect each power cord to a 3-wire, grounded, AC outlet that delivers power in accordance with the power requirements in

Appendix A Specifications.

Note: To provide redundancy in the event of an AC power circuit failure,

connect the switch power supplies to separate AC circuits.

3. Place one or both power On/Off switches in the On position to energize the switch logic circuitry. Confirm that the Input Power LED on the switch chassis is illuminated indicating that the switch logic circuitry is receiving DC voltage. If not, contact your authorized maintenance provider.

4-6 59021-06 A

4 – Installation

Installing a Switch

4. Confirm that the Output Power LEDs on both power supplies are illuminated. If not, do the following:

a. Check voltage at the AC power source.

b. Inspect the power cord.

c. Replace the power supply.

5. Observe the Heartbeat LED to determine the results of the Power On Self Test (POST). The POST tests the condition of firmware, memories, data-paths, and switch logic circuitry and passes a blink code to the Heartbeat LED. If the Heartbeat LED blinks steadily about once per second, the POST was successful, and you can continue with the installation process. Any other blink pattern appears indicates that an error has occurred. Refer to ”Heartbeat LED Blink Patterns” on page 5-1 for more information about the error blink pattern.

59021-06 A 4-7

4 – Installation Installing a Switch

4.2.4

Connect the Management Workstation to the Switch

Connect the management workstation to the switch in one of three ways:

 Indirect Ethernet connection from the management workstation to the switch

RJ-45 Ethernet connector through an Ethernet switch or a hub. This requires a 10/100 Base-T straight cable as shown in Figure 4-3. With this method, you can manage the switch with the SANbox Manager application or Command Line Interface.

 Direct Ethernet connection from the management workstation to the switch

RJ-45 Ethernet connector. This requires a 10/100 Base-T cross-over cable as shown in Figure 4-3. With this method, you can manage the switch with the SANbox Manager application or Command Line Interface.

 Serial port connection from the management workstation to the switch

RS-232 serial port connector. This requires a null modem F/F DB9 cable as shown in Figure 4-3. With this method, you can manage the switch with Command Line Interface.

Indirect Ethernet

RJ-45 Connection

Direct Ethernet

RJ-45 Connection

Serial RS-232

Connection

Figure 4-3. Ethernet and Serial Cable Connections

4-8 59021-06 A

4.2.4.1

Ethernet Connection

To establish an Ethernet connection, do the following:

1. Connect a 10/100 Base-T cross-over cable from an RJ-45 port on the management workstation directly to the RJ-45 Ethernet port; or a 10/100 Base-T straight cable indirectly over an Ethernet network.

2. Open a command line window.

3. Open a Telnet session by entering the following command with the switch IP address. The default IP address is 10.0.0.1

telnet 10.0.0.1

4. Log in to the switch. If fabric security is disabled, account names and passwords are not enforced. Refer to the ”Set Setup Command” on

page B-43 for information about setting fabric security. The default account

name and password are (admin, password).

SANbox2 Login: admin Password: ********

4 – Installation

Installing a Switch

4.2.4.2

Serial Connection

To establish a serial port connection, do the following:

1. Connect a null modem F/F DB9 cable from a COM port on the management workstation to the RS-232 serial port on the switch.

2. Configure the connection according to your platform:

 For Windows:

a. Open the HyperTerminal application on a Windows platform.

Choose the Start button, select Programs, Accessories, HyperTerminal, and HyperTerminal.

b. Enter a name for the switch connection and choose an icon in the

Connection Description window. Choose the OK button.

c. Select the COM port in the Connect To window and choose the

OK button.

d. Enter the following COM Port settings in the COM Properties

window and choose the OK button.

 Bits per second: 9600

 Data Bits: 8

 Parity: None

 Stop Bits: 1

 Flow Control: None

59021-06 A 4-9

4 – Installation Installing a Switch

 For Linux:

a. Set up minicom to use the serial port. Create or modify the

/etc/minirc.dfl file with the following content:

pr portdev/ttyS0 pu minit pu mreset pu mhangup

b. Verify that all users have permission to run minicom. Review the

/etc/minicom/users file and confirm that the line "ALL" exists or that there are specific user entries.

c. Enter the following command at the Linux prompt:

minicom

 For Solaris:

a. Set up Solaris to use the serial port. Modify the /etc/remote file to

include the following lines:

sanbox2:\ :dv=/dev/term/a:br#9600:el=C^S^Q^U^D:ie%$:oe=^D:

b. Enter the following command at the Solaris prompt:

3. Log in to the switch. If fabric security is disabled, account names and passwords are not enforced. Refer to the ”Set Setup Command” on

page B-43 for information about setting fabric security. The default account

name and password are (admin, password).

SANbox2 Login: admin Password: ********

4.2.5

Install SANbox Manager

You can install SANbox Manager on the Windows, Linux, and Solaris platforms. Your switch was shipped with either a SANsurfer® Management Suite Disk or a SANbox2 Installation Disk. Refer to the following installation instructions that correspond to your situation:

 SANsurfer Management Suite Disk - Windows Installation

 SANsurfer Management Suite Disk - Linux Installation

 SANsurfer Management Suite Disk - Solaris Installation

 SANbox2 Installation Disk - Windows Installation

 SANbox2 Installation Disk - Linux Installation

# tip sanbox2

 SANbox2 Installation Disk - Solaris Installation

4-10 59021-06 A

4.2.6

SANsurfer Management Suite Disk - Windows Installation

To install the SANbox Manager application on Windows from the SANsurfer® Management Suite Disk, do the following:

1. Close all programs currently running, and insert the SANsurfer Management Suite Disk into the management workstation CD-ROM drive. If the SANsurfer Management Suite start page does not open in your default browser, do the following:

a. Using Windows Explorer, double-click the drive letter which contains

the SANsurfer Management Suite Disk.

b. Locate and double-click the Start_Here.htm file to open the SANsurfer

Management Suite start page in your default browser.

2. On the SANsurfer Management Suite start page, choose the SANbox Switch Software button.

3. On the SANbox Switch Software page, scroll to the SANbox2 (2Gb) Series area.

4 – Installation

Installing a Switch

4. In the Windows column, choose the SANbox Manager link to open the File Download window.

5. You have a choice of running the installation file from the CD-ROM or downloading the installation file to your hard drive. Choose one of the following:

 Open the installation file from the CD-ROM and follow the SANbox

Manager installation instructions.

 Specify a location in which to save the

sansurfer_windows_install.exe file, and choose the Save button. Double-click the saved sansurfer_windows_install.exe file and follow the SANbox Manager installation instructions.

59021-06 A 4-11

4 – Installation Installing a Switch

4.2.7

SANsurfer Management Suite Disk - Linux Installation

To install the SANbox Manager application on Linux from the SANsurfer Management Suite Disk, do the following:

1. Close all programs currently running, and insert the SANsurfer Management Suite Disk into the management workstation CD-ROM drive. If a file browser window opens showing icons for the contents of the CD-ROM, double-click the Start_Here.htm file to open the SANsurfer Management Suite start page. If a file browser does not open, double-click the CD-ROM icon on the to open the browser. If there is no CD-ROM icon, do the following:

a. Open an xterm or other terminal window.

b. Mount the CD-ROM. From a shell prompt, enter the following

command:

mount /mnt/cdrom

c. Execute your web browser to view the Start_Here.htm document

using one of the following commands:

$mozilla file:/mnt/cdrom/Start_Here.htm

$netscape file:/mnt/cdrom/Start_Here.htm

d. The SANsurfer Management Suite start page opens in your default

browser.

2. On the SANsurfer Management Suite start page, choose the SANbox Switch Software button.

3. On the SANbox Switch Software page, scroll to the SANbox2 (2Gb) Series area.

4. In the Linux column, choose the SANbox Manager link to open the Save As window.

5. Enter a path name to save the sansurfer_linux_install.bin file, and choose the Save button.

6. Open a terminal window for the directory in which the sansurfer_linux_install.bin file was saved, and enter the following command and press the Enter key:

chmod +x sansurfer_linux_install.bin

7. Enter the following command:

./sansurfer_linux_install.bin

8. Press the Enter key, and follow the SANbox Manager installation instructions.

4-12 59021-06 A

4.2.8

SANsurfer Management Suite Disk - Solaris Installation

To install the SANbox Manager application on Solaris from the SANsurfer Management Suite CD-ROM, do the following:

a. Right-click the to open the Workshops Menu.

b. Point to and select Files, then select File Manager.

c. In File Manager, double-click the CD-ROM icon, and then double-click

the Sansurfer folder.

d. In the Sansurfer folder, double-click the Start_Here.htm file to open

the SANsurfer Management Suite start page in your default browser.

2. On the SANsurfer Management Suite start page, choose the SANbox Switch Software button.

4 – Installation

Installing a Switch

3. On the SANbox Switch Software page, scroll to the SANbox2 (2Gb) Series area.

4. In the Solaris column, choose the SANbox Manager link to open the Save As window.

5. Enter a path name to save the sansurfer_solaris_install.pkg file and choose the Save button.

6. Open a terminal window for the directory in which the sansurfer_solaris_install.pkg file was saved, and enter the following command:

chmod +x sansurfer_solaris_install.pkg

7. Enter the following command and follow the SANbox Manager installation instructions:

pkgadd -d QLGCsol_x.x.yyyy.mm.dd.xx.xx

Note: If you download SANbox Manager from a server, be sure the

downloaded file has execute permission before installing.

59021-06 A 4-13

4 – Installation Installing a Switch

4.2.9

SANbox2 Installation Disk - Windows Installation

To install the SANbox Manager application on Windows from the SANbox2 Installation Disk, do the following:

1. Close all programs currently running, and insert the SANbox2 Installation Disk into the management workstation CD-ROM drive.

2. Using Windows Explorer, double-click the drive letter which contains the SANbox2 Installation Disk.

3. Double click the SANbox_Manager folder, then double click the Windows folder.

4. Double click the executable file and follow the SANbox Manager installation instructions.

4.2.10

SANbox2 Installation Disk - Linux Installation

To install the SANbox Manager application on Linux from the SANbox2 Installation Disk, do the following:

1. Close all programs currently running, and insert the SANbox2 Installation Disk into the management workstation CD-ROM drive.

2. Open the File Manager and double-click on the CD-ROM icon.

3. Double click the SANbox_Manager folder, then double click the Linux folder.

4. Double click the executable file and follow the SANbox Manager installation instructions.

4.2.11

SANbox2 Installation Disk - Solaris Installation

To install the SANbox Manager application on Solaris from the SANbox2 Installation Disk, do the following:

1. Close all programs currently running, and insert the SANbox2 Installation Disk into the management workstation CD-ROM drive.

2. Open a terminal window. If the disk isn’t already mounted, enter the following command:

mount /mnt/cdrom

3. Move the directory on the disk that contains the executable. Enter the following command:

cd cdrom/cdrom0/sanbox~1/solaris

4. Run the executable and follow the SANbox Manager installation instructions. Enter the following command:

pkgadd -d sol_pkg

4-14 59021-06 A

4.2.12

Configure the Switch

Do the following to configure a switch using the SANbox Manager application. Refer to the SANbox2-8c/16 Switch Management User’s Guide for more information about configuring a switch. You can also configure the switch using the Command Line Interface. Refer to Appendix B Command Line Interface for more information.

1. Connect to the switch using an Ethernet connection and run SANbox Manager.

2. Open the Fabric menu and select Add Fabric to open the Add a New Fabric window.

3. Enter a fabric name and the IP address of the switch through which to manage the fabric. The default IP address is 10.0.0.1. If this is a new switch, leave the login name and password fields empty, and choose the Add Fabric button. By default, fabric security is disabled, and therefore account names and passwords are not enforced. Refer to the ”Set Setup Command”

on page B-43 for information about setting fabric security.

4 – Installation

Installing a Switch

4. Open the Switch menu and select Switch Properties. In the Switch Properties window, enter a chassis name. Accept the default domain ID, and choose the OK button.

5. Open the Switch menu and select Network Properties. In the Network Properties window, enter values for the IP address, subnet mask, and gateway address. Accept the default boot method. If you know the SNMP configuration settings, enter those as well. Choose the OK button.

6. Set the date and time. Double click on the switch in the topology display. In the faceplate display, open the Switch menu and select Set Date/Time. Enter the date and time in the Switch Date and Time window and choose the OK button. Reset the switch when prompted to implement the new and date and time.

Repeat this process for each switch in the fabric, then connect the switches.

59021-06 A 4-15

4 – Installation Installing a Switch

4.2.13

Configure the Ports

Configuring a port involves defining the port mode. For public devices and other switches, a switch automatically sets the port mode as each port discovers the type of device to which it is connected. The default port mode is GL_Port.

A GL_Port will self configure as an FL_Port when connected to a loop of public devices or an F_Port when connected to a single device. A G_Port will self configure as an F_Port when connected to a single public device. Both GL_Ports and G_Ports self configure as E_Ports when connected to another switch. Refer to the SANbox2-8c/16 Switch Management User’s Guide for more information about configuring ports. You can also configure ports using the CLI. Refer to

Appendix B Command Line Interface for more information.

4.2.14

Cable Devices to the Switch

Connect cables to the SFP transceivers and their corresponding devices, and then energize the devices. Device host bus adapters can have SFP (or SFF) transceivers or GigaBit Interface Converters (GBIC). LC-type duplex fiber optic cable connectors are designed for SFP transceivers, while SC-type connectors are designed for GBICs. Duplex cable connectors are keyed to ensure proper orientation. Choose the fiber optic cable with the connector combination that matches the device host bus adapter.

4-16 59021-06 A

4.3

Install Firmware

The switch comes with current firmware installed. You can upgrade the firmware from the management workstation as new firmware becomes available. Firmware installation involves loading the firmware image file onto the switch, unpacking the image file, and then resetting the switch to activate the new firmware. Firmware versions that follow version 2.0 can be loaded and activated on an operating switch without disrupting traffic.

You can use the SANbox Manager application or the CLI to install new firmware:

 The SANbox Manager application loads and unpacks the firmware image

 When using the CLI on a workstation that has an FTP server, you can open

 When using the CLI on a workstation without an FTP server, you must open

4 – Installation

Install Firmware

file in one operation. Refer to ”Using SANbox Manager to Install Firmware”

on page 4-17.

a Telnet session and load and unpack the firmware image file using the CLI Image command. Refer to ”Using the CLI to Install Firmware” on page 4-18.

an FTP session through the switch to load the image file, then open a Telnet session to unpack it with the CLI Image command. Refer to ”Using FTP and

the CLI to Install Firmware” on page 4-19.

4.3.1

Using SANbox Manager to Install Firmware

To install firmware using SANbox Manager, do the following:

1. From the Faceplate display, open the Switch menu and select Load Firmware.

2. In the Firmware Upload window, browse and select the firmware file you want to load.

3. In the Firmware Upload window, choose the Start button to begin the loading process. When the firmware is finished loading, the Bytes Transferred field displays the number of bytes that have been transferred.

4. Choose the Close button to close the Firmware Upload window.

5. If a non-disruptive activation is not possible, SANbox Manager prompts you to reset the switch. Choose the OK button to reset the switch and activate the new firmware.

59021-06 A 4-17

4 – Installation Install Firmware

4.3.2

Using the CLI to Install Firmware

To install firmware using the CLI when an FTP server is present on the management workstation, do the following:

1. Connect to the switch through the Ethernet or the serial port and open a Telnet session.

2. Enter the following account name and password:

SANbox2 Login:admin Password: password

3. To start an admin session, enter the following:

SANbox2 $> admin start

4. Retrieve the firmware file. The device on which the firmware file is stored must be running an FTP server. Enter the following command to retrieve the firmware file from the specified IP address:

SANbox2 (admin) #> image fetch username 10.0.0.254 firmwarefilenametoload firmwarefilenameonswitch

Connected to 10.0.0.254.

Note: If prompted for your password, enter your password (for that IP

Address) and press the Enter key.

331 Password required for username. Password: 230 User username logged in. bin 200 Type set to I. verbose Verbose mode off.

5. Enter the following command to display the list of firmware files:

SANbox2 (admin) #> image list

6. Enter the following command to install the new firmware:

SANbox2 (admin) #>image unpack filename

7. If the new firmware is later than version 2.0, the new firmware can be acivated without disrupting traffic. Enter the Hotreset command to perform a non-disruptive activation.

SANbox2 (admin) $>hotreset

4-18 59021-06 A

4.3.3

Using FTP and the CLI to Install Firmware

To install firmware using the CLI when the management workstation does not have an FTP server, do the following:

1. Connect to the switch through the Ethernet or the serial port.

2. Move to the folder or directory that contains the new firmware image file.

3. Establish communications with the switch using the File Transfer Protocol (FTP). Enter one of the following on the command line:

>ftp xxx.xxx.xxx.xxx

>ftp switchname

where xxx.xxx.xxx.xxx is the switch IP address, and switchname is the switch name associated with the IP address.

4. Enter the following account name and password:

4 – Installation

Install Firmware

user:images password: images

5. Activate binary mode and copy the firmware image file on the switch:

ftp>bin ftp>put filename

6. Close the FTP session.

ftp>quit

7. Establish communications with the switch using the CLI. Enter one of the following on the command line:

telnet xxx.xxx.xxx.xxx

telnet switchname

where xxx.xxx.xxx.xxx is the switch IP address, and switchname is the switch name associated with the IP address.

8. A Telnet window opens prompting you for a login. Enter an account name and password. The default account name and password are (admin, password).

9. Open an Admin session to acquire the necessary authority.

SANbox2 $>admin start

59021-06 A 4-19

4 – Installation Powering Down a Switch

10. Display the list of firmware image files on the switch to confirm that the file was loaded. Refer to the ”Image Command” on page B-16 for more information.

SANbox2 (admin) $>image list

11. Unpack the firmware image file to install the new firmware in flash memory.

SANbox2 (admin) $>image unpack filename

12. If the new firmware is later than version 2.0, the new firmware can be activated without disrupting traffic. Enter the Hotreset command to perform a non-disruptive activation.

SANbox2(admin) $>hotreset

4.4

Powering Down a Switch

Simply unplugging the switch from the power source does not allow the switch to complete executing tasks and could lead to flash memory corruption. For this reason, open a Telnet session and use the Shutdown command to initiate an orderly shut down, then power down the switch. Refer to the ”Shutdown

Command” on page B-70.

4-20 59021-06 A

Diagnostic information about the switch is available through the chassis LEDs, the power supply LEDs, and the Logged-In LED. Diagnostic information is also available through the SANbox Manager and CLI event logs and error displays. This section describes two types of diagnostics: Power On Self Test (POST) and chassis. POST diagnostics describe the Heartbeat LED and the port Logged-In LED indications. Chassis diagnostics cover power supply and fan diagnostics as well as over temperature conditions. This section also describes how to use maintenance mode to recover a disabled switch.

5.1

POST Diagnostics

The switch performs a series of Power On Self Tests (POST) as part of its power-up procedure. The POST diagnostic program performs the following tests:

 Checksum tests on the boot firmware in PROM and the switch firmware in

flash memory

 Internal data loopback test on all ports

 Access and integrity test on the ASIC

Section 5

Diagnostics/Troubleshooting

During the POST, the switch logs any errors encountered. Some POST errors are fatal, others are non-fatal. The switch uses the Heartbeat LED and the Logged-In LED to indicate switch and port status. A fatal error disables the switch so that it will not operate. A non-fatal error allows the switch to operate, but disables the ports that have errors. Whether the problem is fatal or non-fatal, contact your authorized maintenance provider.

If there are no errors, the Heartbeat LED blinks at a steady rate of once per second. If a fatal error occurs, the Heartbeat LED will show an error blink pattern. If there are non-fatal errors, the switch disables the failed ports and flashes the associated Logged-In LEDs. Refer to ”Heartbeat LED Blink Patterns” on page 5-1 for more information about Heartbeat LED blink patterns.

5.1.1

Heartbeat LED Blink Patterns

5.1.1.1

Normal (all pass)

If all POST diagnostics pass, the switch will go to normal operation and the Heartbeat LED will blink at a steady rate of one (1) blink per second.

59021-06 A 5-1

5 – Diagnostics/Troubleshooting POST Diagnostics

5.1.1.2

Maintenance Mode Pattern

Steady illumination indicates that the switch is in maintenance mode, which returns the switch IP address to 10.0.0.1. From maintenance mode, you may reload firmware, reset the password to the factory default, and remove a corrupt configuration.

5.1.1.3

Internal Firmware Failure Blink Pattern

An internal firmware failure blink pattern is 2 blinks per second followed by a two second pause. The 2-blink error pattern indicates that the firmware has failed, and that the switch must be reset. Power cycle the switch to reset it.

1 second

5.1.1.4

2 seconds

Fatal Error Blink Pattern

A fatal error blink pattern is 3 blinks per second followed by a two second pause. The 3-blink error pattern indicates that a fatal error has left the switch inoperable. If a fatal error occurs, contact your authorized maintenance provider. Power cycle the switch to reset the switch.

1 second

5.1.1.5

2 seconds

Configuration File System Error Blink Pattern

A configuration file system error blink pattern is 4 blinks per second followed by a two second pause. The 4-blink error pattern indicates that a configuration file system error has occurred, and that the configuration file must be recreated. Refer to ”Recovering a Switch” on page 5-12 for more information.

1 second

To recreate the configuration file, do the following:

1. Open a Telnet session and use the Shutdown command to close activity on the switch, then power down the switch. Refer to the ”Shutdown Command”

on page B-70.

5-2 59021-06 A

2 seconds

5 – Diagnostics/Troubleshooting

POST Diagnostics

2. Place the switch in maintenance mode. Press and hold the Maintenance button, then power up the switch. Refer to ”Recovering a Switch” on

page 5-12 for more information about placing the switch in maintenance

mode.

3. Establish a Telnet session with the switch using the default IP address

10.0.0.1.

telnet 10.0.0.1

4. Enter the account name (prom) and password (prom), and press the Enter key.

Sanbox2 login: prom Password:xxxx [username@host:Itasca]% telnet 10.0.0.1 Trying 10.0.0.1... Connected to 10.0.0.1. Escape character is '^]'.

5. The following menu is displayed. Enter "6" (Remake Filesystem) and press the Enter key to recreate the configuration file.

0) Exit

1) Image Unpack

2) Reset Network Config

3) Reset Password File

4) Copy Log Files

5) Remove Switch Config

6) Remake Filesystem

7) Reset Switch

8) Show Firmware Versions

9) Set Active Image Option: 6

6. When the recreate process is complete, select option 7 to reset the switch and exit maintenance mode.

7. If a previously saved configuration file is available for the switch, do the following to restore the configuration file.

a. Establish communications with the switch using the File Transfer

Protocol (FTP). Enter one of the following on the command line:

>ftp xxx.xxx.xxx.xxx

>ftp switchname

where xxx.xxx.xxx.xxx is the switch IP address and switchname is the switch name associated with the IP address.

59021-06 A 5-3

5 – Diagnostics/Troubleshooting POST Diagnostics

b. Enter the following account name and password:

user:images password:images

c. Activate binary mode and copy the configuration file from the

workstation to the switch. The configuration file must be named "configdata".

ftp>bin ftp>put configdata

d. Close the FTP session.

ftp>quit

e. Establish communications with the switch using Telnet. Enter one of

the following on the command line:

telnet xxx.xxx.xxx.xxx

telnet switchname

where xxx.xxx.xxx.xxx is the switch IP address and switchname is the switch name associated with the IP address.

f. A Telnet window opens prompting you for a login. Enter an account

name and password. The default account name and password are (admin, password).

g. Open an admin session to acquire the necessary authority.

SANbox2 $>admin start

h. Restore the configuration file.

SANbox2 (admin) $>config restore

i. Reset the switch and close the Telnet session.

SANbox2 (admin) $>reset

5-4 59021-06 A

5.1.2

Logged-In LED Indications

Port diagnostics are indicated by the Logged-In LED for each port as shown in

Figure 5-1.

Figure 5-1. Logged-In LED

5 – Diagnostics/Troubleshooting

POST Diagnostics

Logged-In LED

The Logged-In LED has three indications:

 Logged in - Continuous illumination.

 Logging in - Flashes at roughly once per second as shown in Figure 5-2.

 Error - Flashes at roughly twice per second as shown in Figure 5-2.

Logging In

Error

If a Logged-In LED shows an error indication, review the alarm log for messages regarding the affected port. You can inspect the alarm log using the Alarm data tab in SANbox Manager faceplate display or the Show Alarm command. Pertinent alarm log messages will point to one or more of the following conditions:

 E_Port isolation

 Excessive port errors

1 second

Figure 5-2. Logged-In LED Indications

59021-06 A 5-5

5 – Diagnostics/Troubleshooting POST Diagnostics

5.1.2.1

E_Port Isolation

A Logged-In LED error indication is often the result of E_Port isolation. An isolated E_Port is indicated by a red link in the SANbox Manager topology display. E_Port isolation can be caused by conflicting domain IDs, conflicting timeout values, or conflicting zone membership between active zone sets. Refer to the SANbox2-8c/16 Switch Management User’s Guide for information about how to change domain IDs, timeout values, and edit zoning.

Review the alarm log and do the following to diagnose and correct an isolated E_Port:

1. Display the fabric domain IDs using the Show Domains command or the Switch data tab in the SANbox Manager topology display. Are all domain IDs in the fabric unique?

 Yes - C on ti nue .

 No - Correct the domain IDs on the offending switches using the Set

Config Switch command or the SANbox Manager Switch Properties window. Reset the port. If the condition remains, continue.

2. Compare the RA_TOV and ED_TOV timeout values for all switches in the fabric using the Show Config Switch command or the Switch data tab of the SANbox Manager topology display. Is each timeout value the same on every switch?

 Yes - C on ti nue .

 No - Correct the timeout values on the offending switches using the

Set Config Switch command or the SANbox Manager Switch Properties dialog. Reset the port. If the condition remains, continue.

3. Display the active zone set on each switch using the Zoning Active command or the Active Zoneset tab of the SANbox Manager topology display. Compare the zone membership between the two active zone sets. Are they the same?

 Yes - Contact your authorized maintenance provider.

 No - Deactivate one of the active zone sets or edit the conflicting zones

so that their membership is the same. Reset the port. If the condition remains, contact your authorized maintenance provider.

Note: This can be caused by merging two fabrics whose active

zone sets have two zones with the same name, but different membership.

5-6 59021-06 A

5.1.2.2

Excessive Port Errors

The switch monitors a set of port errors and generates alarms based on user-defined sample intervals and thresholds. Refer to the SANbox2-8c/16 Switch Management User’s Guide for information about managing alarms. These port errors include the following:

 CRC errors

 Decode errors

 ISL connection count

 Login errors

 Logout errors

 Loss-of-signal errors

If the count for any of these errors exceeds the rising threshold for three consecutive sample intervals, the switch generates an alarm and disables the affected port, changing its operational state to “down”. Port errors can be caused by the following:

5 – Diagnostics/Troubleshooting

POST Diagnostics

 Thresholds are too low or the sample interval is too small

 Faulty Fibre Channel port cable

 Faulty SFP

 Faulty port

 Fault device or HBA

Review the alarm log to determine if excessive port errors are responsible for disabling the port. Look for a message that mentions one of the monitored error types indicating that the port has been disabled, then do the following:

1. Examine the alarm configuration for the associated error using the Show Config Threshold command or the SANbox Manager application. Refer to the ”Show Config Command” on page B-60. Refer to Table B-5 for a list of the alarm configuration defaults. Are the thresholds and sample interval correct?

 Yes - C on ti nue

 No - Correct the alarm configuration. If the condition remains, continue.

59021-06 A 5-7

5 – Diagnostics/Troubleshooting POST Diagnostics

2. Reset the port, then perform an external port loopback test to validate the port and the SFP. Refer to the ”Test Command” on page B-71 or the SANbox2-8c/16 Switch Management User’s Guide for information about testing ports. Does the port pass the test?

 Yes - C on ti nue

 No - Replace the SFP and repeat the test. If the port does not pass the

test, contact your authorized maintenance provider. Otherwise continue.

3. Replace the Fibre Channel port cable. Is the problem corrected?

 Yes - C om pl ete.

 No - Continue.

4. Inspect the device to which the affected port is connected and confirm that the device and its HBA are working properly. Make repairs and corrections as needed. If the condition remains, contact your authorized maintenance provider.

5-8 59021-06 A

5.2

Chassis Diagnostics

Chassis diagnostics are indicated by the chassis and power supply LEDs as shown in Figure 5-3.

5 – Diagnostics/Troubleshooting

Chassis Diagnostics

Output Power LED

(Green)

Power Supply Over

Temperature LED

(Red)

The following conditions are described:

 Chassis Over Temperature LED is illuminated

Chassis Over Temperature LED

(Amber)

Fan Fail LED

(Amber)

Input Power LED

(Green)

Figure 5-3. Chassis and Power Supply LEDs

 Input Power LED is extinguished

 Fan Fail LED is illuminated

 Output Power LED is extinguished

 Power supply Over Temperature LED is illuminated

Note: The chassis and power supply Over Temperature LEDs are different.

The chassis LED indicates an over temperature condition in the switch logic circuitry; the power supply LED indicates an over temperature condition in the power supply.

59021-06 A 5-9

5 – Diagnostics/Troubleshooting Chassis Diagnostics

5.2.1

Chassis Over Temperature LED is Illuminated

The chassis Over Temperature LED illuminates to indicate that the switch logic circuitry is overheating. If the chassis Over Temperature LED illuminates, do the following:

1. Inspect the chassis fans. Are the intake openings clear? Are all fans operating and producing air flow?

 Yes - C on ti nue .

 No - Remove any debris from fan intakes and exhausts if necessary.

Replace any fan that is not operating. Refer to

Section 6 Removal/Replacement. If the condition remains, continue.

2. Consider the ambient air temperature near the switch. Make necessary corrections. If the condition remains, shut down the switch immediately and contact your authorized maintenance provider.

5.2.2

Input Power LED Is Extinguished

The Input Power LED illuminates to indicate that the switch logic circuitry is receiving proper voltages. If the Input Power LED is extinguished, inspect the Output Power LED. Is the Output Power LED illuminated?

 Yes - Contact your authorized maintenance provider.

 No - Refer to ”Output Power LED Is Extinguished” on page 5-11.

5.2.3

Fan Fail LED is Illuminated

The Fan Fail LED illuminates to indicate a malfunction with one or more of the chassis fans. If the Fan Fail LED illuminates, do the following:

1. Inspect the chassis fan connections. Remove and reinstall the chassis fan. Refer to Section 6 Removal/Replacement. If the condition remains, continue.

2. Are all fans operating and producing equal air flow?

 Yes - Contact your authorized maintenance provider.

 No - Replace the weaker chassis fan. Refer to

Section 6 Removal/Replacement. If the condition remains, contact

your authorized maintenance provider.

Note: Removing a fan will not illuminate the Fan Fail LED.

5-10 59021-06 A

5.2.4

Output Power LED Is Extinguished

The Output Power LED illuminates to indicate that the power supply is producing the proper voltages. If the Output Power LED is extinguished, do the following:

1. Inspect the power supply Over Temperature LED. Is the power supply Over Temperature LED illuminated?

 Yes - Refer to ”Power Supply Over Temperature LED is Illuminated” on

page 5-11.

 No - Continue.

2. Inspect the power cables and connectors. Are the cables unplugged? Are the cables or connectors damaged?

 Yes - Make necessary corrections or repairs. If the condition remains,

continue.

 No - Continue.

3. Inspect the power source. Is the power source delivering the proper voltage?

5 – Diagnostics/Troubleshooting

Chassis Diagnostics

 Yes - C on ti nue

 No - Make necessary repairs. If the condition remains, continue.

4. Replace the power supply. Refer to Section 6 Removal/Replacement. If the condition remains, contact your authorized maintenance provider.

5.2.5

Power Supply Over Temperature LED is Illuminated

The power supply Over Temperature LED illuminates to indicate that the power supply is overheating. If the power supply Over Temperature LED illuminates, do the following:

1. Inspect the chassis fans. Are the intake openings clear? Are both fans operating and producing air flow?

 Yes - C on ti nue .

 No - Remove any debris from fan intakes if necessary. Replace any

fan that is not operating. Refer to Section 6 Removal/Replacement. If the condition remains, continue.

2. Consider the ambient air temperature near the switch and clearance around the switch. Make necessary corrections. If the condition remains, continue.

3. Replace the power supply. Refer to Section 6 Removal/Replacement. If the condition remains, contact your authorized maintenance provider.

59021-06 A 5-11

5 – Diagnostics/Troubleshooting Recovering a Switch

5.3

Recovering a Switch

A switch can become inoperable or unmanageable for the following reasons:

 Firmware becomes corrupt

 IP address is lost

 Switch configuration becomes corrupt

 Forgotten password

In these specific cases, you can recover the switch using maintenance mode. Maintenance mode temporarily returns the switch IP address to 10.0.0.1 and provides opportunities to do the following:

 Unpack a firmware image file

 Restore the network configuration parameters to the default values

 Remove all user accounts and restore the Admin account name password to

the default.

 Copy the log file

 Restore factory defaults for all but user accounts and zoning

 Restore all switch configuration parameters to the factory default values

 Reset the switch

 Display firmware versions stored on the switch

 Select the firmware image to activate

To recover a switch, do the following:

1. Place the switch in maintenance mode. Do the following:

a. Power down the switch.

b. Press and hold the Maintenance button with a pointed tool, then power

up the switch. All chassis LEDs will illuminate, then extinguish leaving only the Input Power LED illuminated. Release the button.

2. Allow one minute for the switch to complete its tests. When the switch is in maintenance mode, the Input LED will be illuminated and the Heartbeat LED will illuminate continuously. All other chassis LEDs will be extinguished.

3. Establish a Telnet session with the switch using the maintenance mode IP address 10.0.0.1.

5-12 59021-06 A

5 – Diagnostics/Troubleshooting

Recovering a Switch

4. Enter the maintenance mode account name and password (prom, prom), and press the Enter key.

Sanbox login: prom Password:xxxx [username@anteater:Itasca]% telnet 10.0.0.1 Trying 10.0.0.1... Connected to 10.0.0.1. Escape character is '^]'.

5. The maintenance menu displays several recovery options. To select a switch recovery option, press the corresponding number (displayed in option: field) on the keyboard and press the Enter key.

0) Exit

1) Image Unpack

2) Reset Network Config

3) Reset Password File

4) Copy Log Files

5) Remove Switch Config

6) Remake Filesystem

7) Reset Switch

8) Show Firmware Versions

9) Set Active Image Option:

These options and their use are described in the following subsections.

5.3.1

Maintenance – Exit

This option closes the current login session. To log in again, enter the maintenance mode account name and password (prom, prom). To return to normal operation, power cycle the switch.

5.3.2

Maintenance – Image Unpack

This option unpacks and installs new firmware when the current firmware has become corrupt. Before using this option, you must load the new firmware image file onto the switch. The steps to install new firmware using this option are as follows:

1. Place the switch in maintenance mode. Refer to the procedure for maintenance mode in ”Recovering a Switch” on page 5-12.

2. Use FTP to load a new firmware image file onto the switch. Refer to ”Using

FTP and the CLI to Install Firmware” on page 4-19. Do not unpack the

firmware image file with the Image command.

59021-06 A 5-13

5 – Diagnostics/Troubleshooting Recovering a Switch

3. Select option 1 from the maintenance menu. When prompted for a file name prompt, enter the firmware image file name.

Image filename: filename Unpacking ’filename’, please wait... Unpackage successful.

4. Select option 7 to reset the switch and exit maintenance mode.

5.3.3

Maintenance – Reset Network Config

This option resets the network properties to the factory default values and saves them on the switch. Refer to Table B-8 for the default network configuration values.

5.3.4

Maintenance – Reset Password File

This option restores the password for the Admin account name to the default (password) and removes all other user accounts from the switch.

5.3.5

Maintenance – Copy Log Files

This option copies all log file buffers to a file on the switch named logfile. You can use FTP to download this file to the management workstation.

5.3.6

Maintenance – Remove Switch Config

This option deletes all configurations from the switch except for the default configuration. This restores switch configuration parameters to the factory defaults except for user accounts and zoning. Refer to Table B-3 though Tab le B -8 for the factory default values.

5.3.7

Maintenance – Remake Filesystem

In the event of sudden loss of power, it is possible that the switch configuration may become corrupt. The file system on which the configuration is stored must be re-created. This option resets the switch to the factory default values including user accounts and zoning. Refer to Table B-3 though Tab le B -8 for the factory default values.

CAUTION!

If you choose the Remake Filesystem option, you will lose all changes made to the fabric configuration that involve that switch, such as password and zoning changes. You must then reconfigure the portions of the fabric that involve the switch.

5-14 59021-06 A

5.3.8

Maintenance – Reset Switch

This option closes the Telnet session, exits maintenance mode and reboots the switch using the current switch configuration. All unpacked firmware image files that reside on the switch are deleted.

5.3.9

Maintenance – Show Firmware Versions

This option displays the image numbers and firmware versions that are stored on the switch.

5.3.10

Maintenance – Set Active Image

This option specifies the firmware version to be used when the switch returns to normal operation. A message reminds you of the pending firmware version and gives you an opportunity to change it by selecting the other image number.

5 – Diagnostics/Troubleshooting

Recovering a Switch

59021-06 A 5-15

5 – Diagnostics/Troubleshooting Recovering a Switch

Notes

5-16 59021-06 A

Section 6

Removal/Replacement

This section describes the removal and replacement procedures for the following field replaceable units (FRU):

 SFP transceivers

 Power supplies

 Fans

The switch is equipped with a battery that powers the non-volatile memory. This memory stores the switch configuration. The battery is not a field replaceable unit.

WARNING!!

WARNUNG!!

AVERTISSEMENT!!

Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. Dispose of the used battery according to the manufacturer’s instructions.

Bei unsachgemäß ausgetauschter Batterie besteht Explosionsgefahr. Die Batterie nur mit der gleichen Batterie oder mit einem äquivalenten, vom Hersteller empfohlenen Batterietyp ersetzen. Die gebrauchte Batterie gemäß den Herstelleranweisungen entsorgen.

Danger d’explosion si le remplacement de la pile est incorrect. Ne remplacer que par une pile de type identique ou équivalent recommandé par le fabricant. Jeter la pile usagée en observant les instructions du fabricant.

59021-06 A 6-1

6 – Removal/Replacement SFP Transceivers

6.1

SFP Transceivers

The SFP transceivers can be removed and replaced while the switch is operating without damaging the switch or the transceiver. However, transmission on the affected port will be interrupted until the transceiver installed.

To remove a transceiver, gently press the transceiver into the port to release the tension, then pull on the release tab or lever and remove the transceiver. Different transceiver manufacturers have different release mechanisms. Consult the documentation for your transceiver. To install, insert the transceiver into the port and gently press until it snaps in place as shown in Figure 6-1.

Note: The SFP transceiver will fit only one way. If the SFP does not install

under gentle pressure, flip it over and try again.

Figure 6-1. SFP Transceiver Installation

6-2 59021-06 A

6.2

Power Supplies

The power supplies are hot pluggable. This means you can remove or install one of the power supplies while the switch is operating without disrupting service. The power supplies are also interchangeable; that is, the left and right power supplies are the same unit.

To remove the power supply, grasp the power supply latch handle and pull firmly to release the latches and disengage the modular connector. Slide the power supply out of its bay as shown in Figure 6-2.

To install a power supply, slide the power supply into the bay with the latch handle on top. Press the power supply firmly into place until it is fully seated, then push the latch handle in against the power supply to engage the latches.

6 – Removal/Replacement

Power Supplies

Latch Handle

Figure 6-2. Power Supply Removal

59021-06 A 6-3

6 – Removal/Replacement Fans

6.3

Fans

The fans are hot pluggable. This means you can remove or install one of the fans while the switch is operating without disrupting service. The fan is completely enclosed, so there is no risk of injury from the fan blades. The fans are also interchangeable; that is, the left and right fans are the same unit.

To remove a fan, loosen the two retaining screws, then grasp the fan housing and pull firmly to disengage the modular connector. Slide the fan out of its bay as shown in Figure 6-2.

Figure 6-3. Fan Removal

When replacing a fan, consider the following:

 The left and right fans are interchangeable. However, you must orient the

fan so that the modular connector aligns with the mating connector in the switch as shown in Figure 6-4.

 Replacement fans must be compatible with the switch air flow direction. Air

flow direction for switch model SB2A-16A is front-to-back; air flow direction for switch model SB2A-16B is back-to-front.

 A label on the fan indicates the switch model number and fan air flow

direction as shown in Figure 6-4.

CAUTION!

6-4 59021-06 A

Both fans must have the same air flow direction to prevent the switch from overheating.

6 – Removal/Replacement

Fans

To install a fan, do the following:

1. Confirm that the new fan is compatible with the switch air flow direction.

2. Align the modular connector toward the inside of the switch as shown in

Figure 6-4.

3. Slide the fan into the bay until it is firmly seated and confirm that the air flow is correct. Fasten the screws.

Modular

Connector

Part Number

Label

Figure 6-4. Fan Installation for Switch Model SB2A-16B

59021-06 A 6-5

6 – Removal/Replacement Fans

Notes

6-6 59021-06 A

This appendix contains the specifications for the SANbox2-16 Fibre Channel switch. Refer to Section 2 General Description for the location of all connections, switches, controls, and components.

A.1

Fabric Specifications

Fibre Channel Protocols ................. FC-PH Rev. 4.3

Appendix A

Specifications

FC-PH-2 FC-PH-3 FC-AL Rev 4.5 FC-AL-2 Rev 7.0 FC-FLA FC-GS-3 FC-FG FC-PLDA FC-Tape FC-VI FC-SW-2 Fibre Channel Element MIB RFC 2837 Fibre Alliance MIB Version 4.0

Fibre Channel Classes of Service .. Classes 2 and 3

Modes of Operation ........................ Fibre Channel Classes 2 and 3,

connectionless

Port Types....................................... F_Port

FL_Port TL_Port E_Port G_Port GL_Port

Port Characteristics ........................ All ports are auto-discovering and

self-configuring.

Number of Fibre Channel Ports...... 16 ports per chassis

Scalability........................................ Maximum 239 switches depending on

configuration

59021-06 A A-1

A – Specifications Maintainability

Maximum User Ports ...................... > 475,000 ports depending on

configuration

Buffer Credits.................................. 12 buffer credits per port

Media Type ..................................... Small Form Pluggable (SFP) optical

transceivers. Hot swappable. 3.3 Volts.

Fabric Port Speed........................... 1.0625 or 2.125 Gigabits/second

Maximum Frame Size..................... 2148 bytes (2112 byte payload)

System Processor........................... 266 MHz Pentium® processor

Fabric Latency (best case) ............. <0.4 µsec.

Fabric Point-to-Point Bandwidth ..... 212 or 424 MB/s full duplex

Fabric Aggregate Bandwidth .......... 64 Gb/s for a single switch

A.2

Maintainability

Maintenance Strategy..................... Field Replaceable Units

Diagnostics ..................................... Power On Self Test (POST) tests all

User Interface ................................. LED indicators

 SFP transceivers  Power supplies  Fans

functional components except SFP transceivers. Port tests include online, internal, and external tests.

A-2 59021-06 A

A.3

Fabric Management

Management Methods .................... SANbox Manager Graphical User Interface

Maintenance Connection................ RS-232 connector; null modem F/F DB9

Ethernet Connection....................... RJ-45 connector; 10/100 BASE-T cable

Switch Agent................................... Allows a network management station to

A – Specifications

Fabric Management

Application Programming Interface Command Line Interface GS-3 Management Server SNMP FTP

cable

obtain configuration values, traffic information, and failure data pertaining to the Fibre Channels using SNMP through the Ethernet interface.

A.4

Dimensions

A.5

Electrical

Width...............................................

Height .............................................

Depth ..............................................

Weight............................................. 18 lbs (8.16 Kg)

Operating voltage ........................... 90 to 137 Vac; 47 to 63 Hz

Power source loading ..................... 1.9 Amps maximum at 90 to 137 Vac

Heat Output (maximum) ................. 170 watts

Circuit Protection ............................ Internally fused

17.0” (431 mm), 19 inch rack mount

1.75” (44 mm) (1U)

18.0” (457 mm)

180 to 265 Vac; 47 to 63 Hz

0.95 Amps maximum at 180 to 265 Vac

59021-06 A A-3

A – Specifications Environmental

A.6

Environmental

Temperature

 Operating ..................................

 Non-operating ...........................

Humidity

 Operating ..................................

 Non-operating ...........................

Altitude

 Operating ..................................

 Non-operating ...........................

10 to 40°C (50 to 104°F)

-40 to 65°C (-40 to 149°F)

25% to 80%, non-condensing 25% to 90%, non-condensing

0 to 3048m (0 to 10,000 feet) 0 to 15,240m (0 to 50,000 feet)

Vibration

 Operating ..................................

 Non-operating ...........................

Shock

 Operating ..................................

 Non-operating ...........................

Air flow............................................ Two fans; front-to-back or back-to-front by

Magnitude during/after along any axis

2.54 mm (.1); 5 - 14 Hz

0.1G; 14-300 Hz 5 - 500 Hz, random

2.09 G rms, 10 minutes

Magnitude during/after along any axis 1 g for 15 msec 8 g for 15 msec

model

A-4 59021-06 A

A.7

Regulatory Certifications

Safety Standards ............................ UL1950, CSA 22.2 No. 950, EN60950

Emissions Standards ...................... FCC Part 15B Class A

Voltage Fluctuations ....................... EN 61000-3-3

Harmonics....................................... EN 61000-3-2

Immunity ......................................... EN 55024:1998

Marking........................................... FCC Part 15,UL (United States), cUL

A – Specifications

Regulatory Certifications

VCCI Class A ITE BSMI Class A CISPR 22, Class A EN 55022, Class A

(Canada), TUV, VCCI, BSMI, CE

SANmark® SCD 3001, 3002, 3010, 3020

59021-06 A A-5

A – Specifications Shortwave Laser SFP 1G/2G (multi-mode)

A.8

Shortwave Laser SFP 1G/2G (multi-mode)

Connector ....................................... Duplex LC

Color coding.................................... Beige or black exposed connector

surfaces

Cable .............................................. Fibre Channel 100-M6-SN-I (50 µm

multimode) Fibre Channel 200-M5-SN-I or 200-M6-SN-I (62.5 µm multimode)

Wavelength..................................... 830 - 860 nm

Transmit Power............................... -10 dBm minimum

Receiver Sensitivity ........................ -16 dBm average

Distance.......................................... 500 meters maximum, 50 micron fiber

300 meters maximum, 62.5 micron fiber

Safety.............................................. DHHS 21 CFR(J), IEC 825-1

CENELEC EN 60825-1, VDE

Standard ......................................... Small Form-Factor Pluggable Multisource

Agreement

A-6 59021-06 A

A.9

Longwave Laser SFP 1G/2G (single-mode)

Connector ....................................... Duplex LC

Color coding.................................... Blue exposed connector surfaces

Cable .............................................. Fibre Channel 100SM-LC-L (9 µm single

mode)

Wavelength..................................... 1270 - 13.5 nm

Transmit Power............................... -10 dBm minimum

Receiver Sensitivity ........................ -20 dBm average

Distance.......................................... 2 meters to 10 kilometers

Safety.............................................. DHHS 21 CFR(J), IEC 825-1

CENELEC EN 60825-1, VDE

A – Specifications

Longwave Laser SFP 1G/2G (single-mode)

Standard ......................................... Small Form-Factor Pluggable Multisource

Agreement

59021-06 A A-7

A – Specifications Longwave Laser SFP 1G/2G (single-mode)

Notes

A-8 59021-06 A

Command Line Interface

Each switch contains a Telnet server. This server allows a Telnet client to establish a Telnet session with the switch to retrieve information or to configure parameters using the Command Line Interface (CLI). The CLI enables you to perform a variety of fabric and switch management tasks through an Ethernet or a serial port connection.

B.1

Logging On to a Switch

To log on to a switch using Telnet, open a command line window on the management workstation and enter the Telnet command followed by the switch IP address:

/> telnet 123.45.67.89

A Telnet window opens prompting you for a login. Enter an account name and password. Switches come from the factory with the following user account already defined:

Account name: admin Password: password Authority: Admin

Appendix B

This user account provides full access to the switch and its configuration. After planning your fabric management needs and creating your own user accounts, consider changing the password for this account. Refer to ”Commands” on

page B-3 for more information about authority levels. Refer to the ”User Command” on page B-75 for information about creating user accounts.

Note: A switch supports a combined maximum of 19 logins reserved as

follows:

 4 sessions for internal applications such as management server

and SNMP

 15 sessions for SANbox Manager inband and out-of-band logins,

59021-06 A B-1

B – Command Line Interface Command Syntax

B.2

Command Syntax

The command syntax is as follows:

command

key

word keyword [value] keyword [value1] [value2]

The Command is followed by one or more keywords. Consider the following rules and conventions:

 Commands and keywords are lowercase and case sensitive.

 Commands with keywords require one of those keywords.

 Required keyword values appear in standard font: [value]. Optional values

are shown in italics: [value].

 Underlined portions of the keyword in the command format indicate the

abbreviated form that can be used. For example the Del abbreviated Del.

ete keyword can be

A command-line completion feature makes entering and repeating commands easier. Ta bl e B-1 describes the command-line completion keystrokes.

Table B-1. Command-Line Completion

Keystroke Effect

Tab Completes the command line. Enter at least one character and

press the tab key to complete the command line. If more than one possibility exists, press the Tab key again to display all possibilities.

Up Arrow Scrolls backward through the list of previously entered commands.

Down Arrow Scrolls forward through the list of previously entered commands.

Control-A Moves the cursor to the beginning of the command line

Control-E Moves the cursor to the end of the command line.

B-2 59021-06 A

Q-Logic 42051 User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Table of Contents

Figures

Tables

Intended Audience

Related Materials

Safety Notices

Sicherheitshinweise

Notes informatives relatives à la sécurité

Communications Statements

Federal Communications Commission (FCC) Class A Statement

Canadian Department of Communications Class A Compliance Statement

Avis de conformité aux normes du ministère des Communications du Canada

CE Statement

VCCI Class A Statement

BSMI Class A Statement

Laser Safety Information

Electrostatic Discharge Sensitivity (ESDS) Precautions

Accessible Parts

Pièces Accessibles

Zugängliche Teile

General Public License

Preamble

Terms And Conditions For Copying, Distribution And Modification

How to Apply These Terms to Your New Programs

Technical Support

Availability

Training

Contact Information

Chassis Controls and LEDs

Power Switches

Maintenance Button

Chassis LEDs

Over Temperature LED (Amber)

Fan Fail LED (Amber)

Heartbeat LED (Amber)

Input Power LED (Green)

Fibre Channel Ports

Port LEDs

Logged-In LED

Activity LED

Small Form-Factor Pluggable (SFP) Transceivers

Port Modes

Fabric Ports

Translated Loop Port

Expansion Port

Ethernet Port

Serial Port

Power Supplies

Fans

Switch Management

Devices

Multiple Chassis Fabrics

Domain ID, Principal Priority, and Domain ID Lock

Common Topologies

Cascade Topology

Mesh Topology

Multistage Topology

Performance

Distance

Bandwidth

Latency

Device Access

Soft Zones

Access Control List Hard Zones

Virtual Private Fabric Hard Zones

Fabric Management

Security

Site Requirements

Fabric Management Workstation

Switch Power Requirements

Environmental Conditions

Installing a Switch

Mount the Switch

Install SFP Transceivers

Connect the Switch to AC Power

Connect the Management Workstation to the Switch