ATTO Technology 1550D User Manual

iPBridge 1550D

Installation and Operation Manual

ATTO Technology, Inc.

155 CrossPoint Parkway
Amherst, New York 14068 USA

www.attotech.com

Tel (716) 691-1999
Fax (716) 691-9353

Sales support: sls@attotech.com
Technical support: Monday -- Friday, 8am-8pm EST

techsupp@attotech.com

© 2007 ATTO Technology, Inc. All rights reserved. All brand or product names are trademarks of their respective
holders. No part of this manual may be reproduced in any form or by any means without the express written
permission of ATTO Technology, Inc.

9/2007

........................................................................................................

Document Control Number: PRMA-0369-000

Contents

1 ATTO iPBridge provides storage options ........................................1

Features

1.1 Physical components ..........................................................3

Dimensions
Environment
Power
SCSI port
Ethernet port
Serial port
Reset switch
LED indicators

2 Installation ..........................................................................................5

Unpacking the packing box; verifying contents
Installing the iPBridge
Installing Windows drivers
Discovering the IP address.
Installing MS iSCSI Initiator for Windows
Installing iSCSI Initiator for Mac OS X
Setting up Internet Explorer
Beginning initial configuration

3 Configure the iPBridge ......................................................................7

Preliminary steps
ExpressWizard

3.1 Target management .............................................................9

Target names

Default target node

Automatically configure a single target
Map devices manually

Multiple target nodes

Automatically configure multiple targets
Manually configure multiple target nodes

3.2 iSCSI configuration ..............................................................12

Ethernet
iSCSI
CHAP commands

3.3 Optional changes .................................................................13

Preliminary steps
Modify passwords
Set up a VLAN: Virtual Local Area Network
Enhance performance

iSCSI performance configuration tool (Windows only)

4 Remote system monitoring ...............................................................15

SNMP

5 Updating firmware ..............................................................................16

Using ATTO ExpressNAV

Using FTP

6 Troubleshooting .................................................................................17

Inside out method
Check basic diagnostic tools

Check the host event log

Check the iPBridge event and trace logs

Visually inspect LEDs

Check for problems on attached devices

Check host versions

Check iPBridge product versions
Check components

Check SCSI devices

Check the iPBridge SCSI port

Check the serial port

Check the iPBridge internal configuration

Check the iPBridge Ethernet port

Check the LAN/WAN

Check the iSCSI Host Adapter or NIC

Check the iSCSI OS driver

Check the Operating System

Check the applications
Performance issues

Check SCSI devices

Check the iPBridge SCSI port

Check the iPBridge Ethernet port

Check the LAN/WAN

Check the Ethernet Host Adapter or NIC

Check the applications

Check the host system

Check the Operating System

Use the ATTO iSCSI performance configuration tool (Windows only)

Optimize ATTO ExpressNAV in Internet Explorer
Reset to factory defaults

7 Interface options ................................................................................23

Using ExpressNAV

Opening an ExpressNAV session

Optimizing ExpressNAV in Internet Explorer
Using the serial port
Using Telnet

Appendix A Cabling ...............................................................................i

SCSI cabling

Cable types

Examples

Connecting SCSI devices to the SCSI port
Ethernet connections

Appendix B CLI provides an ASCII-based interface ...........................iii

CLI error messages
CLI summary
Alphabetical CLI command explanations

Appendix C Safety standards and compliances .................................xiv

1

1 ATTO iPBridge provides storage options

The ATTO bridge family of products provides GbE-to-SCSI GbE-to-Fibre Channel or Fibre Channel­to-SCSI bridges available as embeddable boards, stand alone enclosures that can be fitted for
rackmount integration, or desktop units, depending on the model and your needs.

The ATTO iPBridge and ATTO FibreBridge
family of products share common configuration
options and functions to provide the most
versatile connectivity options available. Each
product has been engineered to address specific
customer needs. New capabilities are integrated
into products throughout the family as much as
possible, requiring only an upgrade of firmware to
incorporate them into your SAN (Storage Area
Network) or NAS (Network Attached Storage).

The ATTO iPBridge 1550 is a cost-effective way
of expanding your existing storage capacity
without sacrificing performance. The ATTO
iPBridge 1550 is ideally suited to the SME or for
corporate IT departments seeking to expand
storage requirements with minimal disruption
while making existing SCSI equipment accessible
over an Ethernet network to all network users.

To make sure you have the most up-to-date
version of the firmware, visit the ATTO
Technology website,

www.attotech.com

.

Features

• One independent Gigabit Ethernet port and one
independent Ultra 320 SCSI port

• ATTO ExpressNAV™, integrated web server for
configuration, upgrades, monitoring and
management

• ATTO ExpressWizard, one-button initial setup
for most configurations

• Inband LAN-based monitoring and management

• Command Line Interface (CLI) for configuration
and management

• RS-232 serial port with RJ-11 connector

• Diagnostic capabilities

• Support for manual and auto LUN mapping

• intelligent Bridging Architecture™ for optimized
performance

• Near wire speed sustained throughput

• Ideal solution for connecting high performance
tape and disk devices to an IP Storage Area
Network (SAN)

ATTO Technology Inc. iPBridge Installation and Operation Manual

Exhibit 1.0-1 Possible storage solutions using the iPBridge.

2

1.1 Physical components

The ATTO iPBridge 1550D is a 1-Gigabit Ethernet to Ultra 320 SCSI desktop bridge which produces a
cost-effective iSCSI solution for SMB/SME environments.

Dimensions

Width:

Depth:

Height:

7.5 inches wide

5.0 inches long

1.76 inches

Environment

Operating Temperature: 0-70 °C external
Ambient air

Humidity:

should not exceed 40 °C

10-90% non-condensing

Power

The iPBridge 1550 uses a 12-volt power brick
connected to an appropriate power source. The
power source must be connected to a protective
earth ground and comply with local electrical
codes. Improper grounding may result in an
electrical shock or damage to the unit.

Input voltage:

12v@1.5A

100-240 VAC, 0.5A@100v, 47-63 Hz

SCSI port

The SCSI port is an Ultra 320 LVD/SE SCSI bus
with 68-pin “P” interface; downward compatible
with all forms of low voltage differential and
single-ended SCSI.

Ethernet port

The 10/100/1000 GbE RJ-45 Ethernet port uses
the Intel 8254x family gigabit Ethernet chipset to
support iSCSI data transfer and inbound
management. GbE cables must be at least CAT­5E certified.

Serial port

An RS-232 serial port provides support for remote
monitoring and management. The serial port is set
at the factory at 115,200 bps.

Reset switch

A manual reset switch is mounted on the back
panel. Insert a tool in the hole in the back panel to
activate the switch, wait until the Activity LED on
the top of the iPBridge becomes green, then cycle
power. The iPBridge is reset to factory defaults

LED indicators

Ready/SCSI Port Activity:

a green LED on the
top and on the back of the iPBridge lights solid
green to indicate ready and blinks to show SCSI
activity and to identify the iPBridge when
commanded by software.

Ethernet port:

two LEDs are integrated into the
Ethernet connector. One lights solid green to
denote a complete link and blinks green to show
activity. A bicolor green/yellow LED lights
yellow to indicate 1 Gb/sec. transmission speed
and lights green to show 100 Mb/sec. speed.

3

ATTO Technology Inc. iPBridge Installation and Operation Manual

Exhibit 1.1-1 iPBridge 1550D back panel

4

2 Installation

If you have not already completed the instructions on the Quick Start packed with your iPBridge, use
the following instructions to install the iPBridge.

Unpacking the packing box; verifying contents

• The iPBridge
Note the serial number of your iPBridge,
located on the bottom of the unit, for later use:
____________________________________

• Power cord

• Power brick

• CD which includes the iPBridge firmware, the

Installation and Operation Manual, the ATTO
QuickNAV program and ATTO iPBridge drivers.

Installing the iPBridge

1 Place the iPBridge on a stable flat surface.
2 Connect the host computer to the Ethernet port.
3 Connect SCSI devices to the iPBridge using the

proper SCSI cables. For details refer to Cabling
on page i of the Appendix.

4 Power up the SCSI devices. Proper termination

is required.

Note

You must power up attached devices before
adding power to the iPBridge.

Installing Windows drivers

1 Windows automatically detects the iPBridge

and asks for the driver in the Add Hardware
wizard. Select Install from a list or specific

location

2 Click Next
3 Choose Don’t Search
4 Click Next
5 Choose Have disk
6 Specify the driver as found in the PC folder in

the setup CD. The files are in a folder based on
your operating system: Win2K drivers for
Windows 2000 and Windows XP/2003 drivers
for all 2003 Server products.

Note

7 Follow the remaining instructions to complete

8 After the driver is installed, the iPBridge is listed

Use the files directly from the CD or copy them
onto a floppy or to a local directory on your
hard drive.

the installation procedure.

in the System Devices folder.

5 Connect the iPBridge Ethernet port to your

network using at least Cat5e cable. For details
refer to Cabling

6 Connect the AC power cord from the iPBridge

to the proper AC source outlet, connect the AC
power cord to the power brick and connect the
brick to the iPBridge.

CAUTIONCAUTION

The power source must be connected to a
protective earth ground and comply with
local electrical codes. Improper grounding
may result in an electrical shock or damage
to the unit.

7 Wait for the iPBridge Ready LED to light

indicating the bridge has completed its power­on self test sequence.

8 Windows

Windows drivers; Mac® users continue to
Discovering the IP address.

on page i of the Appendix.

®

users continue to Installing

Discovering the IP address.

1 From the CD supplied with your iPBridge, run

the QuickNav Utility QuickNAV-windows.exe
for Windows or QuickNAV-Mac for Mac OS X.

2 Locate the iPBridge with the serial number

recorded earlier.

3 Highlight the serial number.
4 Click Next.

If a DHCP server is available on your network,

an address is assigned automatically by the

server. Note the assigned address:
_____________________________________
If you do not have a DHCP server, get an IP

address and subnet mask from your network

administrator, type it into the area provided, and

select Next. Note the IP address and subnet

mask here._____________________________

5 Click on Launch Browser

Your browser points to the ATTO ExpressNAV

splash screen.

5

ATTO Technology Inc. iPBridge Installation and Operation Manual

Windows users continue to Installing MS iSCSI

Initiator for Windows; Mac users continue to
Installing iSCSI Initiator for Mac OS X

If you use Internet Explorer, use Setting up

Internet Explorer if needed.

.

Installing iSCSI Initiator for Mac OS X

Contact your ATTO sales representative or go to

www.attotech.com

to purchase the ATTO
Technology Xtend SAN, iSCSI Initiator for Mac
OS X.

Installing MS iSCSI Initiator for Windows

®

1 Download the latest version of Microsoft

Software Initiator from

www.microsoft.com/downloads. Searching

on iSCSI Initiator usually helps to locate it.

2 Launch the Initiator installation program and

follow the instructions.

3 Find the Microsoft iSCSI Initiator icon on your

desktop and launch the program.

4 Click on the Discovery tab.
5 Click on the Add button under the target portal

heading.

6 Type in the iPBridge IP address previously-

recorded in Discovering the IP address.
page 5.

7 Click on OK
8 Click the Targets tab.
9 Click on Log on button.
10 Select Automatically restore this connection

when the system reboots.

11 Click OK to complete logon.
12 If the Found New Hardware Wizard appears,

follow the instructions and install the iPBridge
driver from the CD that came with your
iPBridge.

13 Click OK to close the iSCSI Initiator utility.

You should now have storage you can manage
through Windows Disk Management.
Continue to Beginning initial configuration

iSCSI

on

.

Setting up Internet Explorer

1 Open your browser
2Select Internet Options.

3 In the Internet Options screen, select the

Security tab.
4 Click on the Trusted Sites icon.
5 Click on the Sites button.
6 In the text box Add this Web site to the zone,

add the IP address of the iPBridge. You may

use wild cards.
7 Click on Add
8 Uncheck the Require server verification

check box.
9 Click OK.
10 At the bottom of the Internet Options box, click

on OK and close the box.

Beginning initial configuration

1 Return to the ExpressNAV interface welcome

screen. Click on Enter Here
2 Type in the user name and password.

Note

The default values are user name
password
insensitive and the password is case
sensitive.It is best practice to change the
default user name and password. Refer to

Modify passwords

Password

on page 13.

. The user name is case

root

and

3The Status page appears. Continue to

Configure the iPBridge

on page 7.

6

3 Configure the iPBridge

To configure the ATTO iPBridge, use ATTO ExpressNAV. Default values are appropriate for most
configurations, but may be modified. The ExpressWizard simplifies initial configuration of the iPBridge.

Default values are appropriate for most applications. If
you wish to change these values, use ATTO
ExpressNAV, a browser-based graphical interface.
Other methods are also available. Refer to

options

on page 23.

Interface

Preliminary steps

1 If you are not already in

the ExpressNAV
interface, type the IP
address of your
iPBridge in a standard
browser as found in

Using ExpressNAV

page 23, click Enter
Here, type in your user
name and password,
and click OK.

2The Status page

appears.
You may view the

default settings by
clicking on each
element in the left hand
menu, then continue in
one of three ways:

on

If you do not use the ExpressWizard, continue to

• Mapping and addressing, also known as Target

management on page 9

• iSCSI configuration

• Optional changes

• Review the settings, keeping the automatic
settings created when you powered up your
iPBridge and do nothing now.

• Use the ExpressWizard, accessed from the
side menu, to initially set up your iPBridge
and its attached storage for specific
applications automatically.

• Use the individual pages listed on the side
menu to make changes or use other features
as needed.

on page 12

on page 13

ExpressWizard

Most applications may be set up automatically using
the ExpressWizard from the ExpressNAV interface.
The ExpressWizard simplifies initial configuration of
the iPBridge

1 Follow the Preliminary steps.
2 From the side menu select ExpressWizard.
3 Select your storage type

• Digital video disk storage: optimized for

digital video (sequential access)
configurations

• Digital audio disk storage: optimized for

audio applications (sequential access)

7

ATTO Technology Inc. iPBridge Installation and Operation Manual

• IT/database disk storage optimized for
general IT and database applications
(random access).

• Tape storage

• Optical storage

4 Click Next.
5 In the Devices Detected page, click on

Rescan to ensure all the devices you wish in
your storage configuration are present. The
ExpressWizard uses all attached storage for
the configuration.

6 When all devices are listed, click Next.
7 Set your administrator password.
8 Click Next.

9 Select the answer to the question Does your

network support Jumbo Frames?

10 Click Next.
11 Data port IP address, subnet mask and

gateway information is listed. Change any
elements as needed.

12 Click Next.

13 The configuration for the iPBridge based on

your input in the previous screens appears. If
the information is correct, click Commit.

14 The ExpressWizard configures your iPBridge

and storage. You may select items on the left
side menu to view the current configuration or
to change the configuration at any time.

8

3.1 Target management

Storage devices are mapped using the designations for the iSCSI LUN. The easiest way to map devices
is to use the Automatic Target Management feature in the ATTO ExpressNAV interface.

CAUTIONCAUTION

Changing the device map can affect the
host’s view of devices and your application
configuration.

To map SCSI devices, you must connect the
devices to the iPBridge SCSI port. To access
mapped SCSI devices over Ethernet, you must
have a host computer connected to the iPBridge
Ethernet data port.

If you decide to change the automatic mapping set
up when you powered up the iPBridge, you have
two options to map devices after you disable
automatic mapping:

• You may map devices manually to the single
default node.

Default target node

The default target is set as a single target with
Access Control (ACL) disabled and CHAP
authentication disabled. The default target node
cannot be deleted.

Use the ExpressNAV interface to map devices
automatically or manually. Refer to

ExpressNAV session

on page 23 for information

about ExpressNAV.

Automatically configure a single target

1 If you have not already, open an ExpressNAV

session. For instructions, refer to

ExpressNAV session on page 23

Here, type in your user name and password,
and click OK.

2The Status page appears. From the

ExpressNAV menu, select Auto Target Mgt.

3 Click on the Map all devices to default target

button.

4 When the action is complete, the iSCSI Target

Management page appears. Make any
adjustments to the mapping or begin a
discovery session.

Opening an

Opening an

,

click Enter

• You may map each device to its own target,
breaking the single iSCSI target node into
multiple nodes. Multiple target nodes allow
flexibility to grant or deny access between
initiators and devices.

If you divide the default single target node into
multiple target nodes, you must set up access to
each node separately.

Target nam e s

Each iSCSI target node is identified by a unique
world-wide iSCSI-qualified name which
references the iPBridge serial number and target
node name:

iqn.1995-12.com.attotech:ipbridge:
serialnumber <targetname>

5 When the action is complete, the iSCSI Target

Management page appears. From there you

may make adjustments to the mapping or begin
a discovery session.

If you are prompted to restart the iPBridge, go
to the Firmware Restart page and restart the
iPBridge.

Map devices manually

1 If you have not already, open an ExpressNAV

session. For instructions, refer to

ExpressNAV session on page 23

Here, type in your user name and password,
and click OK.

2The Status page appears. Select the Manual

Target Mgt menu item on the left panel.

3 Click on the Device Maps link of the default

target.

4 Select the devices from the box on the right

panel and drag to the appropriate LUN on the
central panel.

5 Click Submit.

If you are prompted to restart the iPBridge, go
to the Firmware Restart page and restart the
iPBridge.

Opening an

,

click Enter

9

ATTO Technology Inc. iPBridge Installation and Operation Manual

Multiple target nodes

Multiple targets allow you to create a more
configurable mapping scheme which can
segregate storage into different iSCSI nodes
within the iPBridge, with each iSCSI target
having its own set of access criteria.

For example, if you have two servers and a library
with four tapes and a media changer, the default
node would provide both servers access to all
tapes and the media changer (default target
mode).

If you configured multiple target nodes, you are
able to map some devices to one server and other
devices to the other server, requiring separate user
names and passwords for access using various
methods including Access Control Lists, iSNS
and CHAP authentication. Consult with your
network administrator and refer to Exhibit 3.1-1.

Note

If you map actual storage to more than one
iSCSI target and a server has authorization for
both targets, the server could show duplicate
storage without any warning.

Automatically configure multiple targets

1 If you have not already, open an ExpressNAV

session. For instructions, refer to

Opening an

ExpressNAV session on page 23

2 From the ExpressNAV main menu, click on the

Automatic Target Management menu item on
the left side of the screen.

3 Click on the Map each device to its own

target button.

A target name suffix is attached to the iqn of
each SCSI device such as

vendorid-devicename-xxx

• vendorid is the SCSI device vendor ID

• devicename is the SCSI device’s inquiry

device name.

• xxx is a device index

When the action is complete, the iSCSI Target
Management page appears.
If you are prompted to restart the iPBridge, go
to the Firmware Restart page and restart the
iPBridge.

Manually configure multiple target nodes

1 If you have not already, open an ExpressNAV

session. For instructions, refer to

Opening an

ExpressNAV session on page 23

2The Status page appears. Select Auto Target

Mgt menu item on the left side of the screen.

3 In the iSCSI Target Management page, type

[name] in the Add an iSCSI target box

The name is a suffix appended to the standard
IPBridge iqn name. The suffix name can be up
to 24 characters.

4 Click on the device map link of your target.
5 After the next mapping page opens, drag the

boxes representing devices to the LUNs you
want.

6 Click Submit.
7 Repeat from Step 3

configure.

8 If you are prompted to restart the iPBridge, go

to the Firmware Restart page and restart the
iPBridge.

for each node you want to

10

Exhibit 3.1-1 Target node configurations.

11

ATTO Technology Inc. iPBridge Installation and Operation Manual

3.2 iSCSI configuration

You may fine-tune the iPBridge using the ATTO ExpressNAV interface.

Several special iPBridge features may be
accessed using the ExpressNAV graphical user
interface. For details on each command, refer to

CLI provides an ASCII-based interface

on page

iii of the Appendix

1 If you are not already in the ExpressNAV

interface, type the IP address of your iPBridge
in a standard browser as found in Using

ExpressNAV on page 23, click Enter Here,

type in your user name and password, and click

2The Status page appears. Click on the menu

item which regulates the parameter you wish to
change.

• Ethernet

• iSCSI
iSNSServer, Speedwrite

• CHAP commands
Target in the Manual Target Mgt menu

3 Click Submit on each page after you make

changes to save your choices. When you have
completed all changes, go to the Restart page
and click on Restart.

: iSCSI port number

iSCSI Alias, ISNS Login Control,

: iSCSI Chap Secret, iSCSI

Ethernet

Click on the

iSCSI Port Number

Specifies the port number whereby the iPBridge listens
for iSCSI connections. The port number must be between
1024 and 65535 except for port 860. The default is 3260.

Ethernet

menu item.

iSCSI

Click on the

iSCSI Alias

Provides a human-readable name assigned to the
iPBridge. Aliases may be 1 to 64 characters long and may
contain spaces if spaces are enclosed in quotation
marks. The default is a blank space.

iSNS Login Control

Specifies whether the iPBridge will delegate its access
control/authorization to an iSNS server. Default is
disabled.

iSCSI

menu item.

Note

iSNS Login Control cannot be used with
Access Control found on the

Management

page.

iSCSI Target

iSNSServer

Specifies whether the IP address of a valid iSNS server
from which the iPBridge will attempt iSCSI initiator
discovery. Setting to 0.0.0.0 disables the iSNS server
lookup. Default is 0.0.0.0.

SpeedWrite

When enabled, improves the performance of WRITE
commands to SCSI devices attached to the iPBridge.

CHAP commands

To find the CHAP commands,

1 Click on the Manual Target Mgt menu item
2 Click on the Target Management page

3 Click on the iSCSI CHAP table entry next to the

iSCSI target you wish to use.

iSCSI CHAP

iSCSI CHAP controls whether CHAP (Challenge
Handshake Authentication Protocol) is used for the iSCSI
protocol. If CHAP is enabled, the target requires the
initiator to negotiate CHAP authentication using CHAP
secrets (passwords). An initiator may reject this
negotiation.

iSCSI Chap Secret

Specifies the incoming and outgoing secrets (passwords)
for iSCSI CHAP sessions. Secrets are case sensitive, 12
to 32 characters (16 for Microsoft iSCSI initiator), and
cannot contain spaces.
different.
An

in

secret is for authentication of the server to the
iPBridge. The iPBridge can store up to 32 in secrets.
An

out

secret is for authentication of the iPBridge to the
server. There is only one out secret per target that cannot
be deleted.

iSCSI Target

Creates or deletes an iSCSI target name. The target
name acts as a suffix to the standard bridge iSCSI­qualified name. The target name may not exceed 24
characters.

In

and

out

secrets must be

12

3.3 Optional changes

Default values, even if you have not used the ExpressWizard, are appropriate for most configurations,
but may be modified.

Preliminary steps

1 If you are not already in the ExpressNAV

interface, type the IP address of your iPBridge
in a standard browser as found in Using

ExpressNAV on page 23, click Enter Here,

Modify passwords

1 Follow the Preliminary steps
2 Click Bridge.

The Bridge Configuration page is displayed.

type in your user name and password, and click
OK.

2The Status page appears.

View the default settings by clicking on each
element in the left hand menu, then use the
individual pages listed on the side menu to
make changes or use other features.

3 Enter the Administrator (Admin) password

where indicated.

4 Enter appropriate information into the New

Admin Password, Confirm New Admin
Password or New Read Only Password and
Confirm New Read Only Password text

boxes.

5 Click Submit.
6 Go to the Restart page and restart the

iPBridge.

The Administrator user name that you are
currently logged in with and the current read
only user name, if present, are displayed in
their text boxes.

Set up a VLAN: Virtual Local Area Network

A Virtual LAN (VLAN) is a group of devices on
the same physical LAN which can communicate
with each other as if they were all on different
physical LANs. This creates a network that is
independent of physical location, allows grouping
of users into logical workgroups, increases
efficient use of resources, and adds security
options by allowing some users into the LAN and
keeping other users out.

You may create up to eight Virtual LAN IDs for
each Ethernet data port. Each VLAN ID is

assigned a VLAN name of up to 64 characters. If
no VLAN Id exists for a data port, VLAN is
disabled for that port.

1 Follow the Preliminary steps
2 Click on the Ethernet menu item.
3The Ethernet Port Configuration page

appears. Add a VLAN ID number and name in
the appropriate boxes.

4 Press Submit.
5 Go to the Restart page and restart the

iPBridge.
After rebooting, Virtual LAN takes effect.

13

ATTO Technology Inc. iPBridge Installation and Operation Manual

Enhance performance

Note

If you used ExpressWizard to set up your
iPBridge, changing these parameters may
interfere with ExpressWizard settings.

Default values, even if you have not used the
ExpressWizard, are appropriate for most
configurations, but may be modified.

1 Follow the Preliminary steps.
2 On the iSCSI page, enable SpeedWrite.
3 On the Ethernet page, change MTU to 9014.

Note

If you change the MTU on the iPBridge, you
must enable jumbo frames on your initiator
and change the MTU on the initiator.

4 For Windows operating systems, use the ATTO

iSCSI performance configuration tool
(Windows only).

iSCSI performance configuration tool (Windows only)

The ATTO iSCSI performance configuration tool
changes the Windows registry parameters for
Microsoft iSCSI Initiator and TCP/IP to enhance
overall data throughput.

1 From the CD which came with your iPBridge,

copy the Perftune.exe file to your hard drive.

2 Execute the program.
3 Click on Use ATTO Performance Settings.

Settings take effect on the next system reboot.

The following settings are affected:

MaxBurstLength

The maximum SCSI data payload, in bytes, in a Data-In
or a solicited Data-Out iSCSI sequence. A sequence
consists of one or more consecutive Data-In or Data-Out
PDUs that end with a Data-In or Data-Out PDU with the
F bit set to one.

ATTO value: 1048576 decimal 00100000 hex

MaxRecvDataSegmentLength

The maximum data segment length, in bytes, that a
transmitter (initiator or target) can receive in an iSCSI
PDU. The transmitter is required to send PDUs with a
data segment that does not exceed

MaxRecvDataSegmentLength

ATTO value: 1048576 decimal 00100000 hex

of the receiver.

MaxTransferLength

The maximum number of bytes that may be transferred by
a single SCSI request block (SRB).

ATTO value 1048576 decimal 00100000 hex

SrbTimeoutDelta

The maximum amount of time, in seconds, before an SRB
request will time out.

ATTO value 300 decimal 0000012c hex

Tcp1323Opts

This parameter controls RFC 1323 time stamps and
window-scaling options. Time stamps and window
scaling are enabled by default, but can be manipulated
with flag bits. Bit 0 controls window scaling and bit 1
controls time stamps.

ATTO value: 1

FirstBurstLength

The maximum amount, in bytes, of unsolicited data an
iSCSI initiator may send to the target during the
execution of a single SCSI command including the
immediate data and the sequence of unsolicited Data-Out
PDUs which follow the command.
cannot exceed

ATTO value: 1048576 decimal 00100000 hex

MaxBurstLength

FirstBurstLength

14

4 Remote system monitoring

You may set up the iPBridge to send notifications when certain events occur.

You may set up the iPBridge to send notifications
when certain events occur using the

Management

page of the ExpressNAV

Remote

interface.
You designate the person receiving notification of

conditions and the level of severity which prompt
notification using the Simple Network
Management Protocol (SNMP).

SNMP

An agent resides in the iPBridge which takes
information from the iPBridge and translates it
into a form compatible with SNMP. If certain
conditions arise, the agent sends notifications
(traps) to a client.

Contact your network administrator for the MIB
software and appropriate MIB file for your
iPBridge.

1 Follow the Preliminary steps on page 13.
2 Click on Remote Mgt from the side menu. The

Remote Management page appears.
3 In the SNMP line, click on the enabled button.
4 In the SNMP Traps or SNMP Extended Traps

line, click on Enable. For details, refer to

SNMPTraps

page xi of the Appendix.
5 In the SNMP Trap Recipient IP addresses

section, enter the IP address of each person you

want to notify.
6 From the drop-down box next to each trap

address, select the level of severity for which

you want each address to be notified: None, All,

Critical or Warning.
7 Click on Submit.

and SNMPExtendedTraps on

For both methods, the severity level which is
report can be

• Critical means only critical event notifications

are sent.

• Warning means only warnings and critical event

notifications are sent.

• All means warnings, critical events and

informational messages are sent.

8 Go to the Restart page and restart the iPBridge.

After rebooting, the iPBridge sends notifications
as you set them up.

critical, warning or all

.

15

ATTO Technology Inc. iPBridge Installation and Operation Manual

5 Updating firmware

Several processors control the flow of data in the ATTO iPBridge. The firmware to control these
processors can easily be upgraded in the field.

The iPBridge firmware is distributed as an .ima file

can be obtained from the ATTO Technology, Inc. web
site at

www.attotech.com

or from the CD included

with your iPBridge.

CAUTIONCAUTION

Before beginning this procedure, ensure
that all I/O to the iPBridge has stopped.

During this procedure, do not interrupt the
flash process.

Do not power down the host or the
iPBridge until the display returns the
Ready prompt.

Interrupting the flash process will make
your iPBridge inoperable and you must
return it to ATTO Technology for repair.

Using ATTO ExpressNAV

1 If you have not already, open an ExpressNAV

session. For instructions, refer to Opening an

ExpressNAV session on page 23

2 Click on the Firmware page.
3 Click Browse and locate the firmware you

downloaded from the website or from the CD.
A sample filename:

c:\bridge_firmware\ibrg0370.ima

4 Click Upload and wait until a success message

is displayed.

5 Click the Restart link.
6 Click on Restart.

.

Using FTP

1 Establish an FTP link to the bridge that is to be

flashed.

2Use the PUT command to download the

firmware file. A sample filename:

c:\bridge_firmware\ibrg0370.ima

3 Once the download is complete, cycle power on

the iPBridge to activate the new firmware.

16

6 Troubleshooting

If it is clear that a particular component system is at fault in a problem situation, go directly to that component.
If it is not clear, the best approach is to troubleshoot using the inside-out method.

You may check on the status of your iPBridge
using the ExpressNAV interface. You may also
look for information by using the diagnostic CLI
commands, enumerated in

ASCII-based interface

CLI provides an

on page iii, in the

Advanced

page of the ExpressNAV interface or

by using the CLI directly.

To start and use the ExpressNAV interface,
including how to access the version information,
refer to

Opening an ExpressNAV session

on

page 23.

Inside out method

To troubleshoot using the inside out method, begin with the device(s) connected to the iPBridge first,
then work your way out.

• SCSI devices

• iPBridge SCSI port

• iPBridge internal configuration

• iPBridge Ethernet/IP port

• LAN/WAN

• Ethernet host adapter or NIC in host

• Initiator

• OS

• Application

Check basic diagnostic tools

Check the host event log

Check the event log on the host. Look for the most
recent entries and determine what could be
causing a problem, then go to that event and
continue troubleshooting.

Check the iPBridge event and trace logs

Check the iPBridge event log through the CLI.
Look for the most recent entries and determine
what could be causing a problem. Then go to that
event and continue troubleshooting.

Visually inspect LEDs

Light Emitting Diodes (LEDs) are located the
back of the iPBridge.

Each SCSI bus has its own LED which lights
when the iPBridge is ready and blinks steadily
when there is SCSI activity.

17

ATTO Technology Inc. iPBridge Installation and Operation Manual

Check for problems on attached devices

Check the following in order to find problems on
attached devices:

• LEDs

• Display panels

• Firmware levels

• Operability

Check host versions

Check the following to find problems on attached
hosts:

• Operating system version

• Service pack version

• Host adapter version

• Host adapter firmware version

• Host adapter device driver version

• iSCSI driver version

If an update is required, perform the update. For
an updated list of supported iPBridge host

platforms and host adapters, visit

www.attotech.com.

Check iPBridge product versions

For a current list of required updates, visit

www.attotech.com

.

Check components

1 If you have not already, open an ExpressNAV

session.

2 Go to the Status page and check the version

number.

3 If you need to update, download the update

from

www.attotech.com.

Refer to Updating

firmware on page 16.

Check SCSI devices

1 Check SCSI devices to make sure they are all

set to different SCSI IDs.
By default, the iPBridge SCSI port uses SCSI

ID 7 so drives should use IDs 0 through 6 and 8
through 15.

2 Check the SCSI device power. Make sure the

devices are powering up.

3 Watch the drive lights before, during, and after

startup. Many drives have term power lights
that should be on before startup and turn off
when system boots.

4 Verify the external terminator is the correct type

and does not have damaged pins.

5 Check cable integrity. Check the cables for

solid connections. Make sure they are screwed
down. Inspect cable ends for bent pins.

6 If termination is correct, and the problem

persists, try drives one at a time with different
cables, adding drives and cables until the
problem occurs. This helps pinpoint the drive or
cable causing the problem.

7 Check with the manufacturer of SCSI device(s)

for further troubleshooting methods.

If SCSI devices appear to be working, continue to
the iPBridge SCSI port section.

Check the iPBridge SCSI port

1 Verify the iPBridge has its termination set

properly. By default, termination is

2 Perform a SCSI bus scan on each SCSI port.

If no devices appear, re-check SCSI cables and
termination. If garbage information appears,
the problem is most likely a bad SCSI cable or
termination.

3 Check the internal cabling of the SCSI device.

LVD SCSI cable lengths are limited to 12.5
meters. Longer cable lengths can cause
problems. Internal cabling is also considered
when calculating total cable length. For details,
refer to Cabling

on page i of the Appendix.

enabled

4 Some older SCSI devices improperly negotiate

with the iPBridge SCSI port. If older devices are
not showing up, contact your service
representative.

5 If all devices appear, invoke the ScsiTargets

command several times on each SCSI port to
verify that the devices can be seen. If devices
disappear then appear again, the problem is
most likely a SCSI cable.

If all devices appear and remain, move to the
iPBridge internal configuration section.

When changing any setting on the iPBridge the
configuration must be saved by using either the
saveConfiguration CLI command or through the
ATTO ExpressNAV interface.

Check the serial port

1 Verify you have the correct settings and that

your terminal is configured to:

• Baud rate: 115200

• Data bits: 8

• Stop bits: 1

• Parity: off

• Flow control: None

• Echo: disabled

2 Verify that your serial cable is less then two

meters in length.

.

Check the iPBridge internal configuration

Verify that the SCSI devices are mapped
properly. Check in the ATTO ExpressNAV
interface or use the

routedisplay iSCSI

command to show mappings. If devices do not
appear, power down the iPBridge and power back
on. Refer to

Target management

on page 9.

When changing any setting on the iPBridge, the
configuration must be saved.

18

Check the iPBridge Ethernet port

1 Check Ethernet cable integrity. Check the

cables for solid connections. Cat5 cable can
cause connection issues with Gigabit Ethernet.
Cat6 cable is the best cabling for the iPBridge.

2 Verify the IP address, subnet mask, and

gateway are properly set on each data port on
the iPBridge for your network environment.
Refer to Install

3 Verify that the Ethernet speed is set to auto:

invoke the get EthernetSpeed all command,
check the Ethernet page of the ATTO
ExpressNAV interface, or check the LED link
lights to determine if the Ethernet speed is
correct.

4 Determine if the iPBridge is set to get its IP

information from a DHCP server. If so, verify
that the DHCP server has available IP
addresses. Refer to Install

5 Verify that each used Ethernet port on the

iPBridge can be pinged from the desired host.
Refer to Ping

If the host cannot ping the iPBridge port and the
iPBridge port is properly configured, continue to
the Local Area Network/Wide Area Network
section, Check the LAN/WAN

Verify that each port on the iPBridge can ping
each desired host. Refer to Ping
the Appendix. If the iPBridge cannot ping the
host, continue to Check the LAN/WAN

19.

6 If using DHCP, verify that the DHCP server is

assigning the correct IP information to the host.

7 Some older switches/hosts cannot auto

negotiate between the iPBridge and the
switch/host at the desired speed. You may
have to force the host/switch or the iPBridge to
the desired speed.

8 Verify that the host is logging into the iPBridge

correctly by viewing the Connections page
and determining if there a “session open”
status.

9 Verify that you are using the correct log in

procedure for your initiator. For example: When
connecting using the Adaptec initiator, the log
on screen requests the iPBridge iqn (iSCSI
qualified name). If left blank, Adaptec cannot
log in. Enter “iSCSI” into this field for auto iqn
discovery.

ation on page 5.

ation on page 5.

on page ix of the Appendix.

on page 19.

on page ix of

on page

When changing any setting on the iPBridge the
configuration must be saved by using either the

saveConfiguration

CLI command or through the

ATTO ExpressNAV interface.

Check the LAN/WAN

1 Verify that the switch/switches are segmented

properly so that hosts and the iPBridge have
access to each other.

2 If there are routers involved in the setup, make

sure the IP addresses and/or MAC addresses
of the iPBridge are allowed through the router.

3 Verify that the switch can see the iPBridge on

the port(s) in question. Refer to your switch
vendor’s guide for more information.

Check the iSCSI Host Adapter or NIC

iSCSI host adapters appear as a type of Storage
Controller to the host OS, not as a standard NIC.
These adapters usually have hardware
acceleration to offload the TCP processing from
the host. Configuration of these adapters is
usually done through the vendor’s own utility and
not through the OS itself.

NICs come in two types: accelerated and un­accelerated. Accelerated NICs use some hardware
to offload some of the TCP processing from the
host. Un-accelerated NICs make the OS do all
TCP processing.

To check the iSCSI host adapter or NIC

1 Check cable integrity. Check the cables for

solid connections. Make sure they are plugged
in properly. Inspect cable ends for broken clips
and improper wiring.

2 Verify that the iSCSI host adapter or NIC is

configured with the correct IP information.

3 If using DHCP, verify that the DHCP server is

assigning the correct IP information to the host.

4 Verify that the hosts are running the

recommended driver and firmware level for the
iSCSI host adapter or NIC vendor.

5 Verify that the hosts and the iPBridge are using

the same port number to communicate via
iSCSI. The default port number for the iPBridge
is 3260.

6 Make sure the host adapter/NIC is configured

to log into the iPBridge. Some iSCSI host
adapters do not re-login upon reboot or
unplug/replug event without marking a check
box.

19

ATTO Technology Inc. iPBridge Installation and Operation Manual

7 Some older switches cannot autonegotiate

between the host and the switch properly. You
may have to force the host or switch to the
desired speed.

For a NIC using an OS iSCSI driver, continue to
the iSCSI OS driver section.

Check the iSCSI OS driver

This section is for hosts using a driver that allows
the OS to talk to iSCSI targets via a NIC, not an
iSCSI storage adapter.

1 A PC using an iSCSI storage adapter and an

iSCSI OS driver might not work correctly on the
same machine. Check with the vendors to
make sure they are compatible.

2 Verify that the PC has the latest iSCSI driver as

well as the required service packs and patches.
Check with the iSCSI OS driver vendor for more
information.

3 Verify that the iSCSI OS driver has started.

Look under Device Manager for Windows or
lsmod for Linux.

4 Verify that the iSCSI OS is still looking for the

iPBridge at the right IP address.

5 If using DHCP, verify that the DHCP server is

assigning the correct IP information to the host.

6 Verify that the NIC is configured with the correct

IP information.

7 Verify that the hosts and the iPBridge are using

the same port number to communicate via
iSCSI. The default port number for the iPBridge
is 3260.

8 Check cable integrity. Check the cables for

solid connections. Make sure they are plugged
in properly. Inspect cable ends for broken clips
and improper wiring.

Check the Operating System

1 Verify that the OS has the required service

packs or patches installed. If not, obtain the
proper service packs and patches and install
them.

2 Some iSCSI host adapters and iSCSI OS

drivers do not always automatically find new
targets when plugged in or when forced to
rescan. Reboot the hosts.

3 Check if the vendor has a new driver. If so,

install it.

Check the applications

1 Verify that the application is running the latest

device drivers for the devices connected to
iPBridge. If not, get the latest device drivers and
install them.

2 Verify with the application vendor if the iSCSI

technology is supported on the version of the
application being used.

Performance issues

If the host is not getting the performance it should,
check the following items.

Check SCSI devices

1 Verify that the devices are running at their

highest possible SCSI speed.
Mixing SE and LVD devices on the same SCSI

bus forces the speed of the bus to SE, thus
slowing faster LVD devices. The iPBridge
cannot accelerate an already slow device.
Refer to Connecting SCSI devices to

port on page ii of the Appendix.

2 Verify that the proper terminator is being used.

An SE terminator forces the SCSI bus to SE
speeds.

Check the iPBridge SCSI port

1 Verify that the SCSI port configuration is set to

the highest speed using the ExpressNAV
interface, SCSI page.

the SCSI

The iPBridge SCSI port speed, wide
negotiation, and sync negotiation settings all
affect the speed of the port. By default, these
settings are set for optimal speed.

Check the iPBridge Ethernet port

1 Verify that the data port is set to auto negotiate

or forced to 1000 Mb.

2 Verify that the MTU size is set to optimal setting

for the LAN/WAN environment.
The current optimized frame size for the

iPBridge is 9k.

Check the LAN/WAN

1 Verify that the MTU size is set to optimal setting

for the LAN/WAN environment.
9k frame size is the current optimized frame

size for the iPBridge. Many switch and router
vendors do not support the larger frame size of
9k or 16k.

20

2 Verify that each associated port in the IP SAN

is configured for 1000Mbs.
IP SAN traffic should be segmented so that it

does not interfere with the main LAN network
traffic.For better performance, the IP SAN
should be on its own set of hardware.

3 Verify that packets are not being dropped along

the LAN/WAN. Many utilities track packet
activity and switch statistics.

Check the Ethernet Host Adapter or NIC

Ethernet Storage Adapters generally outperform
accelerated NICs and un-accelerated NICs by
offloading most of the processing from the host.

An accelerated NIC provides some offloading,
but still requires a host OS iSCSI driver, making
the host spend more CPU cycles.

An un-accelerated NIC does not offload anything
so the CPU must do much of the processing.

To check the Ethernet host adapter or NIC

1 Verify that the adapter or NIC is sent to auto-

negotiate or forced to 1000 Mb.

2 Set the MTU size to the largest MTU size

supported in the LAN/WAN.
9k frame size is the current optimized frame
size for the iPBridge. Many switch and router
vendors do not support the larger frame size of
9k or 16k. Set the maximum transfer size to the
most efficient size for the intended target(s).
For many tape drives, 64k is the optimal setting.

Check the applications

Some applications can be configured to change
transfer sizes. Configure the application for the
optimal size for the particular SCSI device(s)
connected to the iPBridge.

Check the host system

The faster the host, the faster your transfer times
are. The work flow goes only as fast as the slowest
connection in the host system, so transferring data
from an IDE drive, 100Mb connection, a DLT
4000, a high speed RAID volume across the
country, or other applications, slows the system
no matter how fast everything else is in the
system.

1 Verify that the iSCSI storage adapter or NIC is

connected to the fastest PCI bus connector
supported by the adapter or NIC.

If the adapter supports PCI-X, place the
adapter in a PCI-X slot. If one is not available,
the host might not achieve the optimal
performance capable from the adapter.

Even placing a PCI-X adapter into a 64 bit 66
MHz slot loses performance. Some adapters
adjust clock speed depending on the speed of
the PCI slot into which they are plugged.

2 The host OS disk and swap disk/partition/file

should be on a high speed drive such as a SCSI
drive to minimize the time needed to access the
host’s virtual memory.
The more memory a system has, the less time
it spends accessing virtual memory (hard drive
space).

Check the Operating System

If possible, eliminate swap space and virtual
drives which require large amounts of system
memory. However, the OS might not allow the
elimination of swap space. An OS set to run many
kinds of different servers spends much of its CPU
cycle on other operations, thus slowing down
performance.

Use the ATTO iSCSI performance configuration tool (Windows only)

The ATTO iSCSI performance configuration tool
changes the Windows registry parameters for
Microsoft iSCSI Initiator and TCP/IP to enhance
overall data throughput.

1 From the CD which came with your iPBridge,

copy the Perftune.exe file to your hard drive.

2 Execute the program.
3 Click on Use ATTO Performance Settings.

Settings take effect on the next system reboot.

The following settings are affected:

FirstBurstLength

The maximum amount, in bytes, of unsolicited data an
iSCSI initiator may send to the target during the
execution of a single SCSI command including the
immediate data and the sequence of unsolicited Data-Out
PDUs which follow the command.
cannot exceed

ATTO value: 1048576 decimal 00100000 hex

MaxBurstLength

FirstBurstLength

21

ATTO Technology Inc. iPBridge Installation and Operation Manual

MaxBurstLength

The maximum SCSI data payload, in bytes, in a Data-In
or a solicited Data-Out iSCSI sequence. A sequence
consists of one or more consecutive Data-In or Data-Out
PDUs that end with a Data-In or Data-Out PDU with the
F bit set to one.

ATTO value: 1048576 decimal 00100000 hex

Tcp1323Opts

This parameter controls RFC 1323 time stamps and
window-scaling options. Time stamps and window
scaling are enabled by default, but can be manipulated
with flag bits. Bit 0 controls window scaling and bit 1
controls time stamps.

ATTO value: 1

MaxRecvDataSegmentLength

The maximum data segment length, in bytes, that a
transmitter (initiator or target) can receive in an iSCSI
PDU. The transmitter is required to send PDUs with a
data segment that does not exceed

MaxRecvDataSegmentLength

ATTO value: 1048576 decimal 00100000 hex

of the receiver.

MaxTransferLength

The maximum number of bytes that may be transferred by
a single SCSI request block (SRB).

ATTO value 1048576 decimal 00100000 hex

SrbTimeoutDelta

The maximum amount of time, in seconds, before an SRB
request will time out.

ATTO value 300 decimal 0000012c hex

Reset to factory defaults

A manual reset switch is mounted on the back panel.
Insert a tool in the hole in the back panel to activate the
switch, wait until the Activity LED on the top of the

Optimize ATTO ExpressNAV in Internet Explorer

1 Go to the browser toolbar and select Tools
2Select Internet Options
3 Select the Security tab
4 Select the Custom Level button.
5 On the menu presented, go to the Microsoft

VM, Java permissions and make sure
Disable Java is not selected.

6 Go to the Miscellaneous topic and select

METAREFRESH.

iPBridge becomes green, then cycle power. The
iPBridge is reset to factory defaults.

22

7 Interface options

Alternative methods to the ATTO ExpressNAV interface may be used to manage the iPBridge. ATTO
ExpressNAV is the recommended interface.

Using ExpressNAV

Each page in the ATTO ExpressNAV interface
provides information and/or configuration parameters
based on a specific topic.

ATTO ExpressNAV is the recommended
management tool for the iPBridge. It is a web-based
graphical user interface (GUI) that allows you to
manage the iPBridge by clicking choices and
commands in traditional GUI fashion or by entering
CLI commands directly, as you would in a terminal
emulation session, on the

Advanced CLI

page.

Opening an ExpressNAV session

1 Point your browser at the IP address of the

iPBridge. Refer to Discovering the IP address.
on page 5.

2The ExpressNAV home page is displayed.

Click Enter.

3 Enter the user name and password values.

Note

The default values are user name:
password:
insensitive and password is case sensitive. It
is best practice to change user names and
passwords. Refer to
page 13.

Password

. The user name is case

Modify passwords

root

and

on

The Status page appears.

Each page can be reached through the menu at the
side of each page. An image on each page’s
header shows each port in the product faceplate.
Each port is clickable and takes you to the
appropriate page.

If you have completed configuration operations at
any time and have clicked
you are viewing, go to the

Submit
Restart

on the page
page and

restart the iPBridge to save the settings.

If you have not completed configuration changes,
go on to the next command.

Optimizing ExpressNAV in Internet Explorer

1 Go to the browser toolbar and select Tools
2Select Internet Options
3 Select the Security tab
4 Select the Custom Level button.
5 On the menu presented, go to the Microsoft

VM, Java permissions and make sure
Disable Java is not selected.

6 Go to the Miscellaneous topic and select

METAREFRESH.

Using the serial port

1 Connect a cable from iPBridge RS-232 serial

port to the serial (COM) port on a personal

computer.
2 Turn on the iPBridge.
3 Start a terminal emulation program on the

personal computer, and use it to connect to the

iPBridge. For example, if you are using

HyperTerminal on a computer running a

Windows operating system,

a. Type iPBridge in the New Connection

dialog box.

b. Click OK.
c. In the Connect To dialog box, for the

Connect using field select the COM

23

ATTO Technology Inc. iPBridge Installation and Operation Manual

port number to which your serial cable
is connected.

d. Click OK.
e. In the COM Properties dialog box

select the following values:

• Bits per second: 115200

• Data Bits: 8

• Parity: None

• Stop Bits: 1

• Flow Control: None

• Terminal type: ASCII

• Echo: off

f. Click OK.

4 After you connect to the iPBridge, start-up

messages are displayed. These messages are

only displayed at start-up. The last line in the

start-up message sequence is Ready.
5 In serial port sessions, there is no prompt on

the line below the word Ready. Begin typing

commands in the blank line where the cursor is

resting. No user name or password is required

for serial port access.
6 To verify that you have connected successfully,

type help after the Ready prompt and press

Enter.

Using Telnet

• If a list of all available commands does not
appear on the screen, review the steps in this
section, check the cable, or contact service
personnel until the problem is solved.

If you have difficulty using the serial port, verify that
you have the correct settings and that your serial cable
is less then two meters in length.

Up to three Telnet sessions can be conducted
simultaneously. A serial port session can use the CLI
while Telnet sessions are open. Whichever session
issues the first

set

CLI command can continue to issue

set commands, while the other sessions can only issue

get

commands or display information. Once a
connection is established, refer to

ASCII-based interface

1 Connect to the iPBridge from a computer on the

same Ethernet network.

2 Start a Telnet session.

Note

There is more than one way to connect to the
iPBridge using a telnet program.Your telnet
program may operate differently than in the
following instructions.

on page iii of the Appendix.

CLI provides an

3 At the telnet prompt, issue the open command

where x.x.x.x is the IP address of the iPBridge.

telnet > open x.x.x.x

4 If you have to specify a port type, enter the port

type “telnet” and the terminal type “vt100”.

port type: telnet

terminal type: vt100

5 Enter the default values for the user name,

root, and the password, Password, if you did
not set new values in Modify passwords
page 13.

on

24

Appendix A Cabling

Additional information to physically connect ports to devices and to your SAN.

SCSI cabling

Cables and devices must be chosen to maximize
performance and minimize the electrical noise
from the high-speed data transfers available with
the SCSI protocol. Cabling and termination
methods become important considerations for
proper performance. SCSI cables and devices are
subject to specific length and number limitations
to deal with electrical problems that arise at
increased operating speeds.

Cable types

Use high-quality cables rated for the type of SCSI

Examples

The SCSI specification limits total bus cable
length for single-ended SCSI in a non-UltraSCSI
environment to 3 meters (combined length of both
internal and external cable lengths).

In an UltraSCSI workgroup environment with a 7­drive tower, you are limited to 1.5 meters between
the host and the tower, including the cabling for
the tower. If the 7-drive tower requires 1 meter of
cabling to connect all of its drives, the distance

from the tower to the host must be .5 meters.
transfers required: well-insulated SCSI cables
ensure error free communications. Try to keep
cable lengths as short as possible to ensure higher
signal quality and performance.

Exhibit A-1 Various types of SCSI operate at different speeds and require different bus lengths to support a certain number of devices.

Bus speed

STA terms

Fast SCSI 10 8 3 25 n/a 8
Fast/WIDE SCSI 20 16 3 25 n/a 16
UltraSCSI 20 8 1.5 25 n/a 8
Ultra/WIDE SCSI 40 16 n/a 25 n/a 16
WIDE Ultra SCSI 40 16 1.5 n/a n/a 8
WIDE Ultra SCSI 40 16 3 n/a n/a 4
Ultra2 SCSI 40 8 n/a n/a 12 8
WIDE Ultra2 SCSI 80 16 n/a n/a 12 16
Ultra 160 SCSI 160 16 n/a n/a 12 16
Ultra 320 SCSI 320 16 n/a 12 n/a 16

MB/sec.

max.

Bus

width

bits

Max. bus lengths in meters

Single-

ended

Note

UltraSCSI is very sensitive to SCSI bus noise,
cable distances and the number of devices
connected on the SCSI bus. Carefully connect
your devices when working with UltraSCSI.

Max. device

Differential LVD

support

i

ATTO Technology Inc. iPBridge Installation and Operation Manual

Connecting SCSI devices to the SCSI port

ATTO iPBridge SCSI ports connect SCSI storage
devices to the network.

The SCSI port is a bus capable of supporting 15
devices and each bus is capable of 40, 80, 160 or
320 MB/sec. (Ultra, Ultra2 or Ultra320) transfer
rates.

The iPBridge supports a wide variety of SCSI
storage devices including stand-alone drives,
removable drives, JBODs, RAIDs, tape, CD and
DVD drives, changers and libraries.

1 Connect the cable from the SCSI device to a

VHDCI SCSI port on the iPBridge.

Ethernet connections

2 Check the type of cable, cable length limit and

number of devices recommended for the port.
See Exhibit 1.

Keep cable lengths as short as possible to

ensure the highest signal quality and
performance. These cable lengths include the
wiring inside the devices.

3 Set the IDs of the SCSI devices connected to

the bridge to a value other than 7.

Use a sequential ID starting at 0 for each

device. The SCSI port in the ATTO iPBridge
has an internal factory setting ID of 7, typical for
a SCSI initiator device.

4 Terminate the SCSI bus after the last device.

The iPBridge is terminated internally.

Use at least Cat 5e cable to connect the Ethernet
port to your network.

Note

For best performance, all cabling, network
interface cards (NICs), host bus adapters
(HBAs), and network switches must be Gigabit
Ethernet (GbE), and at least Cat 5e certified.
Most standard offices use 2-pair wiring which
is not compatible. GbE requires 4-pair wiring.

For best performance, support for 9014 byte
jumbo frames should be available for all switches
and host iSCSI equipment.

Before you begin installing the iPBridge Ethernet
port, be sure to check or complete the following:

• If you are managing your iSCSI system across a

WAN and your system uses a firewall, be sure
that the following ports are open and available:

If you are using the TCP protocol

• telnet (port 23)

• http (port 80)

• ftp (ports 20 and 21)

• iSCSI (port 3260)

• iSNS (port 3705)

If you are using the UDP protocol

• ntp (port 123)

• Be sure your host system(s) is set up and
configured.

• Your host system can use any of three
different types of cards: a network interface
card (NIC), a telnet offload engine card
(TOE), or a storage network interface card
(SNIC).

• The ATTO driver file from the CD included
with your iPBridge or from the ATTO
website,
your host.

• The switch has been configured to forward
UDP broadcast messages.

• The minimum requirement for Windows-based
browsers is Internet Explorer 5.5 or Netscape
Navigator 6.2. The minimum requirement for
Macintosh browsers is Internet Explorer 5.2 or
Safari 1.2.

• Ethernet speed defaults to auto; the iPBridge
determines the speed and set other parameters
based on the speed.

www.attotech.com, is installed on

ii

Appendix B CLI provides an ASCII-based interface

The command line interface (CLI) uses ASCII commands typed while in CLI mode.

CAUTIONCAUTION

Do not use CLI unless you are directed to by an ATTO technician.
Changing parameters may cause loss of data and/or disruption to performance and reliability of

the iPBridge.
The ExpressNAV interface is the preferred method to operate and manage the iPBridge. Refer to

Interface options

on page 23 for details.

The command line interface (CLI) is a set of
ASCII-based commands which perform
configuration and diagnostic tasks. Refer to

Interface options

• CLI commands are context sensitive and
generally follow a standard format

• [Get|Set] Command [Parameter1|Parameter2]

followed by the return or enter key

• CLI commands are case insensitive: you may
type all upper or all lower case or a mixture.
Upper and lower case in this manual and the
help screen are for clarification only.

• Commands generally have three types of
operation: get, set and immediate.

• The get form returns the value of a parameter or
setting and is an informational command.

• Responses to get commands are followed by
Ready.

on page 23.

• The set form is an action that changes the value
of a parameter or configuration setting. It may
require a SaveConfiguration command and a
restart of the system before it is implemented.
The restart can be accomplished as part of the
SaveConfiguration command or by using a
separate FirmwareRestart command. A
number of set commands may be issued before
the SaveConfiguration command.

• Responses to set commands are either an error
message or Ready. *. The asterisk indicates
you must use a SaveConfiguration command
to finalize the set command.

• Set commands which do not require a
SaveConfiguration command, defined as
immediate commands, are immediately
executed.

Note

Using certain CLI commands during normal
operation can cause a performance drop.
Once command actions are complete,
performance should return to normal levels.

Exhibit A-2 Symbols, typefaces and abbreviations used to indicate functions and elements of the command line interface used in this manual.

Symbol Indicates

[ ] Required entry

< > Optional entry

| pick one of

- a range (6 – 9 = 6, 7, 8, 9)

sb SCSI bus number (n=1)

sl SCSI LUN ID (0 <= sl <=63)
st SCSI target ID (0 <= st <= 15)

dp1 Ethernet port used to manage the iPBridge

iii

ATTO Technology Inc. iPBridge Installation and Operation Manual

CLI error messages

The following error messages may be returned by the Command line Interface

ERROR. Invalid Command. Type 'Help' for command list.
ERROR. Wrong/Missing Parameters
Usage: <usage string>

CLI summary

The following chart summarizes the Command
Line Interface commands, their defaults, and an

Commands which have no default values have a
blank entry in that column of the table.

example of how to enter the commands.

CAUTIONCAUTION

Do not use CLI unless you are directed to by an ATTO technician.
Changing parameters may cause loss of data and/or disruption to performance and reliability of

the iPBridge.
The ExpressNAV interface is the preferred method to operate and manage the iPBridge. Refer to

Interface options

Command Default Example

AccessControl disabled for default node

AccessEntry set accessentry discovery all delete
AutoMap automap
AutoMapOnBoot enabled set automaponboot disabled
AutoMapOnBootDelay 0 set automaponbootdelay 20
BridgeModel get bridgemodel
BridgeName iPBridge set bridgename Omega6
ClearEventLog cleareventlog
Date set date 03/03/2003
DeleteAllMaps deleteallmaps
DPMTU 1514 set dpmtu 9014
DumpConfiguration dumpconfiguration
DumpEventLog dumpeventlog
EthernetSpeed auto set ethernetspeed dp1 100
Exit exit
FirmwareRestart firmwarerestart
Help help automap
IdentifyBridge disabled set identifyBridge enabled
Info info
IPAddress 10.0.0.1 get ipaddress dp1
IPDHCP enabled set ipdhcp dp1 disabled
IPGateway 0.0.0.0 get ipgateway dp1
IPSubnetMask 255.255.0.0 get ipsubnetmask dp1
iSCSIAlias “ “ set iscsialias diamond
iSCSIChap disabled set iscsichap default enabled

on page 23 for details.

set accesscontrol default enabled

enabled for all other nodes

iv

Command Default Example

iSCSIChapSecret set iscsichapsecret default in iqn.1991-

05.com.microsoft:barbpc barb123
ISCSIInitiators iscsiinitiators
iSCSIPortNumber 3260 get iscsiportnumber dp1
iSCSITarget iscsitarget alpha1
iSCSITargetNameDisplay iscsitargetnamedisplay
iSCSIWANIPAddress 0.0.0.0 set isciwanipaddress dp1 172.21.22.1
iSNSLoginControl disabled set isnslogincontrol enabled
iSNSServer 0.0.0.0 get isnsserver
IsReserved isreserved
Password Password set password
Ping ping dp1 192.42.155.155
ReadOnlyPassword Password set readonlypassword
ReadOnlyUsername user get readonlyusername
Reserve reserve
RestoreConfiguration restoreconfiguration default
RMON see Exhibit A-3

xiii of the Appendix
Route route iscsi default 2 scsi 1 1 1
RouteDisplay routedisplay iscsi
SaveConfiguration saveconfiguration restart
SCSIDomainValidation scsidomainvalidation
SCSIInitId 0x07 set scsiinitid 1 12
SCSIPortBusSpeed ultra320 set scsiportbusspeed 1 ultra160
SCSIPortList scsiportlist
SCSIPortReset scsiportreset 1
SCSIPortResetOnStartup enabled set scsiportresetonstartup 1 disabled
SCSIPortSyncTransfer enabled set scsiportsynctransfer 1 disabled
SCSIPortTermination enabled set scsiporttermination 1 enabled
SCSIPortWideTransfer enabled set scsiportwidetransfer 1 disabled
SCSITargetLUNs 8 set scsitargetluns 1 64
SCSITargets scsitargets 1
SerialNumber get serialnumber
SerialPortBaudRate 115200 set serialportbaudrate 19200
SerialPortEcho enabled get serialportecho
SNMP enabled set snmp disabled
SNMPDumpMIB snmpdumpmib
SNMPExtendedTraps disabled set snmpextendedtraps enabled
SNMPTrapAddress iPAddress = 0.0.0.0

level = none
SNMPTraps disabled set snmptraps enabled
SNTP enabled get sntp
SNTPServer 192.43.244.18 set sntpserver 129.6.15.28
SpeedWrite disabled set speedwrite scsi all enabled
SpeedWriteDefault disabled get speedwritedefault

on page

get RMON ethernethistory

set snmptrapaddress 6 192.42.155.155 all

v

ATTO Technology Inc. iPBridge Installation and Operation Manual

Command Default Example

TailEventLog taileventlog
Time 00:00:00 set time 03:32:30
TimeZone EST set timezone pst
Username root set username barbara
VerboseMode enabled set verbosemode disabled
VirtualDriveResponse disabled get virtualdriveresponse
VLAN set vlan dp1 5 alpha1

Alphabetical CLI command explanations

AccessControl

Controls access on a target node. Access to the target
node is keyed to the iSCSI qualified name of listed
initiators.

Note

AccessControl cannot be used with iSNS.

Default: disabled on the default node; enabled on all other

nodes

set AccessControl [default | Target Name] [enabled |

disabled]

get AccessControl [default | Target Name]

AccessEntry

Allows the addition or deletion of an initiator entry from
the access control list of a target node. The initiator name
must be formatted as an iSCSI qualified name and must
be between 1 to 223 characters, is case sensitive and
cannot be

Default: default all
set AccessEntry [default | Target Name | discovery]

get AccessEntry [default | Target Name | discovery]

all

.

[Initiator Name <delete> | all [delete]]

AutoMap

Automatically maps all target devices visible to the
iPBridge to iSCSI addresses. If you use no arguments, all
devices are mapped to the default target. If you specify a
target, all devices are mapped to that target. If you
specify

*,

each device is mapped to its own auto-named

target.

Automap <default | * | target name>
SaveConfiguration command required

AutoMapOnBoot

Regulates automatic device detection and mapping
(

AutoMap

Default: enabled
set AutoMapOnBoot [enabled | disabled]
get AutoMapOnBoot

) at startup.

AutoMapOnBootDelay

Specifies the duration of time in seconds that the iPBridge
waits before performing an
operation.

AutoMapOnBoot

AutoMapOnBoot

must be enabled for the

specified delay to take effect.

Default: 0
set AutoMapOnBootDelay [0 - 256]
get AutoMapOnBootDelay

BridgeModel

Reports specific model and firmware information.

get BridgeModel

BridgeName

Specifies the eight-character ASCII name assigned to the
iPBridge to identify individual units. It is not the World
Wide Name. Changes take effect immediately.

set BridgeName [name]
SaveConfiguration Restart command required
get BridgeName

ClearEventLog

Clears the contents of the event log. No new entries are
recorded until the operation is completed.

ClearEventLog

vi

Date

Regulates the current date for this iPBridge. The date
range is 1/1/2000 to 12/31/2099.

set Date [MM] / [DD] / [YYYY]
get Date

FirmwareRestart

Resets and reinitializes the iPBridge firmware. Use the

forced

option to override any CLI reservations held by

other sessions.

FirmwareRestart <forced>

DeleteAllMaps

Removes all mapped devices from the map table. Upon
the subsequent POST, the default maps are loaded if no
maps are present.

DeleteAllMaps
SaveConfiguration command required

DPMTU

Controls the MTU, or maximum transmission unit, used
by the data port.

default: 1514
set DPMTU [dp1 | all] [1514 | 9014]
get DPMTU [dp1 | all]

DumpConfiguration

Displays the iPBridge configuration to the ExpressNlAV

Advanced

page text box, an available RS-232 or telnet
session.Results may be truncated in the ExpressNAV
readout.

DumpConfiguration

DumpEventLog

Dumps the entire contents of the event log to the
ExpressNlAV

Advanced

page text box, an available RS­232 or telnet session.Results may be truncated in the
ExpressNAV readout.

DumpEventLog

EthernetSpeed

Regulates the speed of the iPBridge Ethernet port. If

Auto

is enabled, the Ethernet speed is negotiated. When

hard set, 10 and 100 speeds are half duplex.

Default: auto
set EthernetSpeed [dp1 | all] [10 | 100 | 1000 | auto]
get EthernetSpeed [dp1 | all]

Exit

Terminates the current CLI session over Telnet. This
command has no effect if used during a serial CLI
session.

Exit

Help

Issued with no parameters displays a list of available CLI
commands. When a CLI command name is specified, a
command usage string and command description are
displayed.

Help <Command>

IdentifyBridge

Causes both the

Activity

and

SCSI

LEDs on the
iPBridge to blink so that you can identify the iPBridge
hardware. Disabling this option cancels the blinking.

Default: disabled
set IdentifyBridge [enabled | disabled]
get IdentifyBridge

Info

Displays version numbers and other product information
for key components within the iPBridge.

Info

IPAddress

Controls the current IP address of the Ethernet port on
the iPBridge. If

IPDHCP

is enabled, the get command
reports the current IP address assigned by the network
DHCP server, followed by the (DHCP) identifier.

Default: 10.0.0.0 if IPDHCP is disabled
set IPAddress [dp1] [xxx.xxx.xxx.xxx]
SaveConfiguration Restart command required
get IPAddress [dp1 | all]

IPDHCP

Regulates how the iPBridge acquires its IP address.
When disabled, the iPBridge uses the IP address
specified by the

IPAddress

CLI command.; when
enabled, the iPBridge gets its IP address from a DHCP
server.

Default: enabled
set IPDHCP [dp1 | all] [enabled | disabled]
SaveConfiguration Restart command required
get IPDHCP [dp1 | all]

vii

ATTO Technology Inc. iPBridge Installation and Operation Manual

IPGateway

Controls the current default gateways used by any
Ethernet port on the iPBridge. If

get

command reports the current IP gateway

the

IPDHCP

is enabled,

assigned by the network DHCP server.

Default: 0.0.0.0
set IPGateway [dp1 | all] [xxx.xxx.xxx.xxx]
SaveConfiguration Restart command required
get IPGateway [dp1 | all]

IPSubnetMask

Controls the current subnet masks used by any Ethernet
port on the iPBridge. If

IPDHCP

is enabled, the get
command reports the current IP subnet mask assigned by
the network DHCP server.

Default: 255.255.0.0
set IPSubnetMask [dp1 | all] [xxx.xxx.xxx.xxx]
SaveConfiguration Restart command required
get IPSubnetMask [dp1 | all]

iSCSIAlias

Assigns a human-readable name to the iPBridge. Aliases
may be 1 to 64 characters in length and may contain
spaces if enclosed in quotes.

Default: “ “
set iSCSIAlias [Alias]
get iSCSIAlias

iSCSIChap

Regulates whether CHAP (Challenge-Handshake
Authentication Protocol) is to be used for the iSCSI
protocol. If CHAP is enabled, the target requires the
initiator to negotiate CHAP authentication using the
CHAP secrets. An initiator may reject this negotiation. If

discovery

is specified, the setting applies to CHAP

during discovery sessions.

Default: disabled
set iSCSICHAP [default | Target Name | discovery]

[enabled | disabled]

get iSCSICHAP [default | Target Name | discovery]

iSCSIChapSecret

Specifies the incoming and outgoing passwords for iSCSI
CHAP sessions. Secrets are case sensitive, 12 to 32
characters, and cannot contain spaces.
secrets must be different for each name. If

In

and

discovery

out

is
specified, the setting applies to CHAP during discovery
sessions. An
iPBridge. The iPBridge can store up to 32
each with a unique Account Name and secret pair. An

in

secret authenticates the server to the

in

secrets,

out

secret authenticates the iPBridge to the server. There is

out

only one
The

account name

set iSCSICHAPSecret [default | target name | discovery]
[in [Account Name | all] | out [root] | delete [Account

Name | all]] <Secret>
get iSCSICHAPSecret [default | target name | discovery]
[in [Account Name | all] | out [root]]

secret per target which cannot be deleted.

for the out secret is

root

by default.

iSCSIInitiators

Displays a list of previous and current successfully
logged-in iSCSI initiators, including successful initiators
recorded in the event log and any initiators manually
added since the last reboot. This list is cleared if the event
log is cleared.

iSCSIInitiators

iSCSIPortNumber

Specifies the port number which listens for iSCSI
connections. Port number must be between 1024 and
65535 with the exception of port 860.

Default: 3260
set iSCSIPortNumber [dp1 | all] [portnumber]
get iSCSIPortNumber [dp1 | all]

iSCSITarget

Creates/deletes an iSCSI target. The target name acts as
a suffix to the standard iPBridge iSCSI-qualified name.
The target name may not exceed 24 characters. A newly­created target has one LUN, the iPBridge LUN, at LUN

0.

AccessControl

iSNSLoginControl

is enabled by default, unless

is already enabled. If the target
name already exists, this command does nothing. The
default target cannot be deleted.

iSCSITarget [Target Name] <delete>

iSCSITargetNameDisplay

Displays iSCSI target names.

iSCSITargetNameDisplay

viii

iSCSIWANIPAddress

Sets or displays the IP address reported to an iSCSI
initiator located outside the iPBridge LAN. If this
iPBridge is behind a NAT router, the address must be set
to the external IP address of the router. Setting the
address to

0.0.0.0

causes the iPBridge to be inaccessible

from outside the LAN.

Default: 0.0.0.0
set iSCSIWANIPAddress [dp1] | all] [xxx.xxx.xxx.xxx]
get iSCSIWANIPAddress [dp1] | all]

iSNSLoginControl

Specifies whether the iPBridge delegates its access
control/authorization policy to an iSNS server.

Note

iSNSLoginControl cannot be used with

AccessControl

Default: disabled
set iSNSLoginControl [enabled | disabled]
get iSNSLoginControl

.

iSNSServer

Specifies the IP address of a valid iSNS server from which
the iPBridge tries iSCSI initiator discovery. Set to

0.0.0.0

to disable iSNS server lookup.If

VLAN

is
enabled, a VLAN ID must be specified for each data port.
All iSNS connections have the same VLAN tag.

Default: 0.0.0.0
set iSNSServer [xxx.xxx.xxx.xxx] <dp1] [VLAN ID]>
get iSNSServer

IsReserved

Displays the reservation status of the current iPBridge.

IsReserved

Ping

Sends an ICMP echo request to the specified host.If

VLAN

is enabled, the VLAN ID must be provided.

ping [dp1] [xxx.xxx.xxx.xxx] <count <size>>

ReadOnlyPassword

Specifies a password which allows only read and no
writes. It is case sensitive, 0 to 32 characters, and cannot
contain spaces. An empty password can be configured by
not specifying one.

Default: Password
set ReadOnlyPassword

ReadOnlyUsername

Specifies the user name which allows only read and no
writes. It is case insensitive, 1 to 32 characters, and
cannot contain spaces.

Default: user
set ReadOnlyUsername [username]
get ReadOnlyUsername

Reserve

Reports the state of CLI reservation for the current CLI
session. If the command reports that Reservations are
enabled, then another CLI session has control of
parameter modification on the unit.

Reserve

RestoreConfiguration

Issued with the
NVRAM settings to their original defaults. The

defaul

t option, forces the iPBridge

saved

option undoes any changes made to this session since the
last save.

RestoreConfiguration [Default | Saved]

Password

Specifies the password used for all sessions: NDMP,
Telnet, FTP and ExpressNAV. Password is case sensitive,
0 to 32 characters, and cannot contain spaces. An empty
password can be configured by pressing the enter key
when prompted for the new password and new password
confirmation.

Default: Password
set Password

ix

ATTO Technology Inc. iPBridge Installation and Operation Manual

RMON

Displays Ethernet data and allows data collection at
specified intervals. Get displays hex.

Valid range for bucketsRequest= 1-180
Valid range for ethernetStat index = 1-3
Valid range for historyControl = 1-6
Valid range for ethernetHistory index = 1-6
Valid range for sampleIdx = 1-2147483647

Valid range for interval = 1-3600
Default: See
set rmon [idx] [bucketsRequest] [interval] [valid | invalid]
get rmon [ethernetStat | historyControl] <idx>
get rmon [ethernetHistory] <idx sampleIdx>

Exhibit A-3

on page xiii of the Appendix

Route

Assigns an iSCSI protocol address to a target destination
device. If you try to map a new SCSI BTL to the same
iSCSI LUN, the new BTL overwrites the previous map.
Using the

Delete

identifier instead of

SCSI

removes the
map from its map table. In verbose mode, overwriting a
map requires secondary confirmation.

Route [iSCSI] [default | Target Name] [lun] [SCSI <sb st

sl> | Bridge | Delete]

RouteDisplay

Displays s a combined list of iSCSI to SCSI bus, target,
LUN mappings. The optional target name limits the list to
maps which have that target name. The optional LUN
parameter limits the list further to the map which satisfies
a search for the given LUN.

RouteDisplay iSCSI <default <lun> | Target Name <lun>>

SaveConfiguration

Issued with the
after saving configuration changes. The

restart

option, cycles iPBridge power

norestart

option saves changes without restarting.

SCSIPortBusSpeed

Controls the transfer rate at which the iPBridge attempts
to negotiate with its SCSI devices

Default: ultra320
set SCSIPortBusSpeed [sb] [fast | ultra | ultra2 | ultra160

| ultra320]

get SCSIPortBusSpeed [sb]

SCSIPortList

Lists the status of the SCSI port.

SCSIPortList

SCSIPortReset

Resets the SCSI bus.

SCSIPortReset [sb]

SCSIPortResetOnStartup

Controls whether the SCSI bus is reset each time the
iPBridge is powered up.

Default: enabled
set SCSIPortResetOnStartup [sb] [enabled | disabled]
get SCSIPortResetOnStartup [sb]

Note

Certain modifications require a system restart.

SaveConfiguration <Restart | NoRestart>

SCSIDomainValidation

Runs Domain Validation tests on the SCSI system which
may detect problems with SCSI cables, termination or
damaged transceivers. Tape drives attached to the
iPBridge should be loaded with media. The media is not
overwritten. Disable

VirtualDriveResponse

before
running this test and reboot the iPBridge after running
the test.

SCSIDomainValidation

SCSIInitID

Specifies the persistent SCSI initiator ID used by the
iPBridge on this SCSI bus. All maps coinciding with the
user-specified ID are destroyed after this command is
issued.

Default: 0x07
set SCSIInitID [sb] [0-15]
get SCSIInitID [sb]

SCSIPortSyncTransfer

Controls the iPBridge attempts to negotiate synchronous
SCSI transfers with devices on the specified bus.

Default: enabled
set SCSIPortSyncTransfer [sb] [enabled | disabled]
get SCSIPortSyncTransfer [sb]

SCSIPortTermination

Configures the SCSI internal termination of the specified
SCSI port. Enabling termination allows the iPBridge to
act as a terminator at the end of a SCSI chain.

Default: enabled
set SCSIPortTermination [sb] [enabled | disabled]
get SCSIPortTermination [sb]

SCSIPortWideTransfer

Controls the iPBridge attempts to negotiate wide SCSI
transfers with devices on the specified bus.

Default: enabled
set SCSIPortWideTransfer [sb] [enabled | disabled]
get SCSIPortWideTransfer [sb]

x

SCSITargetLUNs

Controls the maximum number of SCSI LUNs per target
the iPBridge queries during a SCSI bus scan.

Default: 8
set SCSITargetLUNs [sb] [ 8 | 64]
get SCSITargetLUNs [sb]

SNMPDumpMIB

Displays the contents of the ATTO iPBridge private
SNMP MIB to the current CLI session. For further
assistance with SNMP, consult your network
administrator.

SNMPDumpMIB

SCSITargets

Lists the physical devices that are connected and running
on the specified SCSI port.

SCSITargets [sb]

SerialNumber

Displays the serial number of the iPBridge. The serial
number is a 13 character field. The first seven
alphanumeric characters are an abbreviation
representing the product name. The remaining six digits
are the individual iPBridge number.

get SerialNumber

SerialPortBaudRate

Configures the baud rate for the iPBridge RS-232 serial
port. The number of data bits per character is fixed at 8
with no parity.

Default: 115200
set SerialPortBaudRate [2400 | 9600 | 19200 | 38400 |

57600 | 115200]
SaveConfiguration Restart command required
get SerialPortBaudRate

SerialPortEcho

Controls if the iPBridge echoes characters on its RS-232
port. When enabled, all non-control character keyboard
input is output to the display.

Default: enabled
set SerialPortEcho [enabled | disabled]
get SerialPortEcho

SNMP

Controls whether or not SNMP functions on the iPBridge.

Default: enabled
set SNMP [enabled | disabled]
get SNMP

SNMPExtendedTraps

Regulates Extended (i.e., Device Transition and Device
Error) SNMP trap functionality.

Default: disabled
set SNMPExtendedTraps [enabled | disabled]
get SNMPExtendedTraps

SNMPTrapAddress

Regulates or displays IP Trap Addresses and Trap

Index

Levels.

is a value from 1 to 6. The IP address must
be in the same subnet as the iPBridge, and is the host that
wishes to receive traps. The supported severity levels
required to trigger a trap are:

None, All, Warning,

Critical

Default IP address: 0.0.0.0
Default level: none
set SNMPTrapAddress [index] [xxx.xxx.xxx.xxx] [None |

All | Warning |Critical]

get SNMPTrapAddress [index]

SNMPTraps

Regulates SNMP traps.If

VLAN

is enabled on a data
port, a VLAN ID for that port must be specified. All SNMP
traps are sent with the same VLAN tag.

Default: disabled
set SNMPTraps [enabled |disabled] <[dp1] [VLAN ID]>
get SNMPTraps <[dp1] [VLAN ID]>

SNTP

Controls whether SNTP time server is used.If

VLAN

is
enabled on a data port, a VLAN ID for that port must be
specified.

Default: enabled
set SNTP [enabled | disabled] <[dp1] [VLAN ID]>
SaveConfiguration Restart command required
get SNTP <[dp1] [VLAN ID]>

xi

ATTO Technology Inc. iPBridge Installation and Operation Manual

SNTPServer

Controls or displays the main IP address the client uses
to retrieve the SNTP time.

Default: 192.43.244.18
set SNTPServer [xxx.xxx.xxx.xxx]
SaveConfiguration Restart command required
get SNTPServer

SpeedWrite

Improves the performance of SCSI WRITE commands to

all

target devices attached to the iPBridge. Specify

to set
the Speed Write state for each currently mapped device
on the iPBridge, or to get a list of the Speed Write states
of all currently mapped devices on the iPBridge.

Default: disabled
set SpeedWrite SCSI [ sb st sl | all] [enabled | disabled]
get SpeedWrite SCSI [ sb st sl | all]

SpeedWriteDefault

Specifies the default
device mappings created manually or using an

SpeedWrite

state applied to new

AutoMap

operation.

Default: disabled
set SpeedWriteDefault [enabled | disabled]
get SpeedWriteDefault

Username

Specifies the user name for all sessions. It is case
insensitive, 1 to 32 characters, and cannot contain
spaces.

Default: root
set Username [username]
SaveConfiguration command required
get Username

VerboseMode

Controls the level of detail in CLI

Help

output and

command response output for the current CLI session.

Default: enabled
set VerboseMode [enabled | disabled]
get VerboseMode

VirtualDriveResponse

Provides proxy responses to SCSI INQUIRY and TEST
UNIT READY commands if a SCSI device selection times
out or has a busy event. Host systems can assign devices
consistently regardless of the device’s state during the
execution of the commands.

Default: disabled
set VirtualDriveResponse [enabled | disabled]
get VirtualDriveResponse

TailEventLog

Displays new events to the terminal. Type

ENTER

TailEventLog

to exit tail mode.

quit

then press

Time

Controls or displays the current time as clocked by the
iPBridge in 24 hour format.

set Time [HH: MM: SS]
get Time

TimeZone

Controls or displays the time zone or an offset from GMT.

Default: EST
set TimeZone [[EST | CST | MST | PST] | [[+| -]

[HH]:[MM]]]
SaveConfiguration command required
get TimeZone

VLAN

Sets Virtual LAN ID values for each Ethernet data port.
Up to 8 IDs can be stored per port. Incoming packets are
filtered if their tags are not on the list of VLAN IDs for
that data port. Outgoing packets are tagged to match
their connection. Each VLAN ID is assigned a VLAN
name of up to 64 characters. If no VLAN IDs exist for a
data port, VLAN is disabled for that data port.

set VLAN [dp1] [[VLAN ID] [VLAN Name] <delete> | [all]

[delete]]

get VLAN [dp1]

xii

Exhibit A-3 Default history Control table (buckets and interval in hexadecimal) for the RMON CLI command.

Idx DataSrc BktReq BktGrant Interval Owner Status
====================================================================
001 43.6.1.2.1.2.2.1.1.1 00000032 00000032 0000001e monitor 00000004
002 43.6.1.2.1.2.2.1.1.1 00000032 00000032 00000708 monitor 00000004
003 43.6.1.2.1.2.2.1.1.2 00000032 00000032 0000001e monitor 00000004
004 43.6.1.2.1.2.2.1.1.2 00000032 00000032 00000708 monitor 00000004
005 43.6.1.2.1.2.2.1.1.3 00000032 00000032 0000001e monitor 00000004
006 43.6.1.2.1.2.2.1.1.3 00000032 00000032 00000708 monitor 00000004

xiii

ATTO Technology Inc. iPBridge Installation and Operation Manual

Appendix C Safety standards and compliances

The equipment described in this manual generates and uses radio frequency energy. If this equipment
is not used in strict accordance with the manufacturer's instruction, it can and may cause interference
with radio and television reception. See the Technical Specification sheet for a full list of certifications.

WARNING

Risk of explosion if battery is removed and/or replaced by an incorrect type. Dispose of used
batteries in accordance with your local environmental regulations.

No operator serviceable components inside the iPBridge 1550D.

Do not remove cover of the iPBridge 1550D. Refer servicing to qualified personnel.

FCC Standards: Radio and Television Interference

This equipment generates, uses, and can radiate radio frequency energy
and, if not installed and used in accordance with the instruction manual,

may cause interference to radio communications. It has been tested and
found to comply with the limits for a Class A computing device pursuant to Subpart J of Part 15 of FCC
rules, which are designed to provide a reasonable protection against such interference when operating
in a commercial environment. Operation of this equipment in a residential area is likely to cause
interference, in which case the user, at his own expense, will be required to take whatever measures may
be required to correct the interference.

If this equipment does cause interference to radio and television reception, which can be determined by
turning the equipment off and on, try to correct the interference by one or more of the following
measures

• Move the receiving antenna.

• Relocate the bridge with respect to the receiver,

or move the bridge away from the receiver.

• Plug the computer into a different outlet so the

computer and receiver are on different branch

circuits.
The booklet How to Identify and Resolve Radio/TV Interference Problems prepared by the Federal Com-
munications Commission is a helpful guide. It is available from the US Government printing office, Wash­ington, DC 20402, Stock No. 004-000-00345-4.

• If necessary, consult an ATTO authorized
dealer, ATTO Technical Support Staff, or an
experienced radio/television technician for
additional suggestions.

Canadian Standards

This Class A digital apparatus complies with Canadian ICES-003.

Cet appareil numérique de la classe A est conforme à la norme NMB-003 du
Canada.

European Standards: Declaration of Conformity

This following statement applies to the ATTO iPBridge.

This device has been tested in the basic operating configuration and found to be compliant
with the following European Union standards

Application of Council Directive: 89/336/EEC

xiv

Standard(s) to which conformity is declared: EN55022, EN50082-1

This Declaration will only be valid when this product is used in conjunction with other CE approved
devices and when the entire system is tested to the applicable CE standards and found to be compliant.

The ATTO iPBridge 1550 complies with Directive 2002/95/EC on the
Restriction of the Use of Hazardous Substances in Electrical and Electronic
Equipment (RoHS).

xv

ATTO Technology Inc. iPBridge Installation and Operation Manual

xvi