ATTO Technology iPBridge 2500C, iPBridge 2500D, iPBridge 2500R Installation And Operation Manual

ATTO Technology, Inc.

ATTO iPBridgeTM 2500C/R/D

Installation and Operation Manual

© 2005 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.

8/2005 Document Control Number: PRMA-0335-000

Contents

1 iPBridge 2500 provide storage options ............................................1

iPBridge2500 features

Connectivity, infrastructure solutions

1.1 ATTO iPBridge 2500R/D ......................................................3

Dimensions
Environment
Power
SCSI interface
Ethernet interface
Serial interface
LED indicators

Installation instructions

1.2 ATTO iPBridge 2500C ..........................................................6

Dimensions
Environment
Power
SCSI interface
Ethernet interface
Serial interface

Installation instructions

2 Configuring the iPBridge ..................................................................9

Microsoft iSCSI Initiator changes

2.1 Getting an IP address ..........................................................10

2.2 NDMP configuration provides backup ...............................11

How NDMP works

Setting up NDMP

Procedure
Assign NDMP names to devices

2.3 Mapping devices: NDMP .....................................................13

Map devices automatically
Map devices manually
Assign NDMP names to devices

2.4 Mapping devices: iSCSI .......................................................15

Node names

Single Target mode

Map devices automatically
Map devices manually

Multiple Target mode

Automatically configure Multiple Target mode
Manually configure Multiple Target mode

2.5 Additional configurations ....................................................19

Change the current user name, password
Set the Real Time Clock
Create a read only password or user name
Configuring SCSI devices
SNMP protocol

3 ATTO ExpressNAV interface .............................................................21

Browser compatibility
To optimize ExpressNAV in Internet Explorer
Accessing ExpressNAV
Opening an ExpressNAV session

3.1 ExpressNAV pages ..............................................................23

Status
Serial Port Configuration
Time & Date Configuration
Ethernet Port Configuration
SCSI Configuration
iSCSI Configuration
Bridge Configuration
Mapping
Advanced CLI Configuration
Firmware
Restart
Help

4 Updating firmware .............................................................................25

Preliminary steps
Using ATTO ExpressNAV
Using FTP over GbE

5 Copying iPBridge configurations .....................................................26

Using FTP over GbE
Using ZModem over the serial port

6 Troubleshooting .................................................................................27

Inside out method
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
Component check

Checking SCSI devices
Checking the iPBridge SCSI ports
Checking the serial port
Checking the iPBridge internal configuration
Checking iPBridge Ethernet ports
Checking the LAN/WAN
Checking the iSCSI Host Adapter or NIC
Checking the iSCSI OS driver
Checking the Operating System
Checking the applications

Performance issues

Checking SCSI devices
Checking iPBridge SCSI ports
Checking iPBridge Ethernet ports
Checking the LAN/WAN
Checking Ethernet Host Adapter or NIC
Checking the applications
Checking the host system
Checking the Operating System

7 Alternative interface options ............................................................33

Use the serial port or header
Use Telnet

7.1 CLI provides ASCII-based interface ...................................35

7.1.1 CLI commands summary .......................................36

7.1.2 General use commands .........................................39

Help
Password
ReadOnlyPassword
ReadOnlyUsername
RestoreConfiguration
SaveConfiguration
Username
VerboseMode

7.1.3 Maintenance commands ........................................41

Date
FirmwareRestart
MaxOpTemp
MinOpTemp
OpTempWarn
Password
Reserve
RestoreConfiguration
SCSIPortReset
SNTP
SNTPServer
SpeedWrite
SpeedWriteDefault
Time
TimeZone
Username
Zmodem

7.1.4 Diagnostic commands ...........................................43

BridgeModel
BridgeName
ClearEventLog
ClearTraceLog
DisplayEventLog
DisplayEventLogFilter
DisplayTraceLog
DisplayTraceLogFilter

DumpEventLog
DumpTraceLog
EventLog
EventLogFilter
Help
IdentifyBridge
Info
iSCSITargetNameDisplay
IsReserved
NDMPStatus
Ping
RMON
RouteDisplay
SCSIPortList
SCSITargets
SerialNumber
SNMPDumpMIB
SNMPExtendedTraps
SNMPTrapAddress
SNMPTraps
TailEventLog
Temperature
TraceLog
TraceLogFilter
Voltage
WrapEventLog
WrapTraceLog

7.1.5 SCSI configuration commands .............................47

SCSIInitID
SCSIPortBusSpeed
SCSIPortList
SCSIPortReset
SCSIPortResetOnStartup
SCSIPortSelTimeout
SCSIPortSyncTransfer
SCSIPortTermination
SCSIPortWideTransfer
SCSITargets
SpeedWrite
SpeedWriteDefault
VirtualDriveResponse

7.1.6 Serial port configuration commands ....................49

SerialPortBaudRate
SerialPortEcho

7.1.7 Ethernet commands ...............................................51

DPMTU
EthernetSpeed
Exit
IPAddress
IPDHCP
IPGateway
IPSubnetMask
Password
Ping

ReadOnlyPassword
RMON
Username
ReadOnlyUsername

7.1.8 NDMP commands ...................................................53

NDMPAuthType
NDMPMaxVersion
NDMPPortNumber
NDMPStatus

7.1.9 iSCSI commands ....................................................55

iSCSIAlias
iSCSIChap
iSCSIChapSecret
iSCSIPortNumber
iSCSITarget
iSCSITargetNameDisplay
iSNSLoginControl
iSNSServer
MultiTargetMode

7.1.10 Mapping commands .............................................57

AutoMap
iSCSITarget
iSCSITargetNameDisplay
MultiTargetMode
Route
RouteDisplay
SCSIInitID
SCSITargets

Appendix A ATTO iPBridge, FibreBridge family .................................i

iPBridge products
Fibre Bridge products

Appendix B Cabling ...............................................................................iii

SCSI cabling

Cable types
Examples
Connecting SCSI devices to SCSI ports

Ethernet connections

Appendix C Glossary .............................................................................v

Appendix D Safety standards and compliances .................................vii

Appendix E ATTO accessories .............................................................ix

Appendix F Warranty, contact information .........................................x

Manufacturer limited warranty
Contact ATTO Technology, Inc.

1 iPBridge 2500 provide storage options

Two protocols available on the iPBridge 2500 allow storage devices such as hard drives, tape drives
and libraries and CD jukeboxes to attach easily to Internet Protocol networks such as Gigabit Ethernet.
The ATTO iPBridge supports the high throughput needs of streaming data transfers, optimizing
performance and management using ATTO Technology intelligent Bridging ArchitectureTM.

The ATTO iPBridge 2500 has two models
depending on the protocol you have chosen: either
the iSCSI protocol or the NDMP protocol.

The iSCSI protocol

increases the capabilities and
performance of storage data transmission by
transmitting data over local area networks
(LANs), wide area networks (WANs), or the
Internet, providing location-independent data
storage and retrieval to enhance current and future
Storage Area Networks (SANs).

NDMP

version 4.0 provides backup for network­attached storage (NAS) tape and CD devices.
NAS devices are dedicated file servers and cannot
host applications such as backup software. NDMP
defines a common agent to interface between any
NAS device and any backup software program,
minimizing demand on network resources, and
enabling local backups and disaster recovery. The
protocol is being developed by the Storage
Networking Industry Association (SNIA) NDMP
Working Group.

Gigabit Ethernet

(GbE) is a transmission

technology based on the Ethernet format and

protocol used in local area networks (LANs). It
provides a data rate of 1 billion bits per second
(one gigabit) as defined in the IEEE 802.3
standard.

intelligent Bridging Architecture,

the engine
within ATTO FibreBridgeTM and iPBridge
products, uses ATTO Data Routing Fabric
topology and ATTO Virtual Device Manager to
optimize performance.

The iPBridge 2500C/R/D provides a compact
embeddable, rack or desktop solution which may
be installed in a wide range of system
configurations. Uniquely designed to support the
high throughput needs for applications that
require streaming data transfers (data backup), the
iPBridge optimizes performance by using ATTO
Technology intelligent Bridging Architecture.

You may choose an iPBridge 2500C/R/D which
supports the iSCSI protocol or one which supports
the NDMP protocol, maximizing application,
system and network configuration flexibility and
support.

iPBridge2500 features

• Physical configuration: board, rackmount or
desktop

• 1 Gigabit data transfer rate per sec.

• 2 SCSI ports (SCSI bus 0, 1)

• Ultra 3 SCSI negotiation max capability

• Serial management port

• a 10/100/1000 Ethernet management port
(MPn) which may be used as a data port in the
iPBridge 2500 iSCSI model.

• two 10/100/1000 Ethernet data ports (DP0, DP1)

• iSCSI or NDMP protocol

• ATTO ExpressNAV browser-based
management

• Advanced diagnostics

ATTO Technology Inc. iPBridge Installation and Operation Manual

SpeedWrite:

a performance-enhancing capability
that significantly boosts Write performance by
efficiently managing Write commands between
host and a tape device. Using the iPBridge results
in a higher throughput and shorter backup times
compared to native Fibre tape or direct attached
SCSI tape libraries.

Advanced Diagnostics:

software event-logging
capability time and date stamped by the real time
clock. You can also determine numerous status
and current configuration parameters.

ATTO ExpressNAV:

a web-based management
application that allows all of the configurable
settings for the iPBridge to be defined, viewed
and edited.

Connectivity, infrastructure solutions

The topology of a heterogeneous Storage Area
Network shown below demonstrates the critical
role ATTO products play in the design and

implementation of a SAN. Whether your
application needs are data-intensive or band­width intensive, you need to store and manage
that data and then deliver it to end-users
efficiently. ATTO products have been engineered
with the highest performance and lowest cost
available today.

Possible storage

configurations

ATTO Celerity FC

storage adapter

4-Gb FC Switch

ATTO FibreBridge 2400

ATTO iPBridge 2700

ATTO FibreCenter Hub

ATTO FibreBridge

Ethernet
Fibre Channel
SCSI

GbE network

GbE Switch

ATTO ExpressPCI

FC storage adapter

embedded
ATTO iPBridge
1500/1550/2500

SCSI Tape Library

FC model SCSI model

ATTO Diamond Storage Array

SCSI Tape Library

ATTO ExpressPCI

SCSI storage adapter

Introduction

1.1 ATTO iPBridge 2500R/D

The ATTO iPBridge 2500R/D is a 1-Gigabit Ethernet to SCSI 1U full-rack bridge for midrange high
performance, cost effective solutions in enterprise environments.

The iPBridge 2500R/D includes a single power
supply, two Ethernet data ports, an Ethernet
management port which may be used as a data
port in the iPBridge 2500 iSCSI-configured
model, a serial management port and two SCSI
data and management ports. It includes a battery­backed Real-Time-Clock, and an IP Time client
(RFC 1631 compliant).

Designed to fit into a 1U, full-rack enclosure, the
iPBridge 2500R/D supports side mounting so it
may be mounted into a standard 19-inch rack. The
ports and AC power are accessed from the rear of
the unit while LEDs showing port activity and
status are in the front and rear.

Dimensions

Width:

Depth:

Height:

Weight:

16.91 inches wide (42.95 cm)
10 inches deep (25.4 cm)

1.72 inches high (4.32 cm (1U)
approximately 2 pounds

Environment

Operating temperature:

0-70° C external

Ambient air should not exceed 40°C.

User-configurable thermal sensor for automatic
shutdown default is 70°C

Blower and airflow:

air enters through the slots in
the rear panel and exits through the blower on the
far end of the rear panel.

Humidity:

10-90% non-condensing

Power

Internal power supply:

single-output 5VDC, 25­watt open frame switching power supply with
universal input via a standard IEC320 adapter
mounted within the enclosure. Provides power for
the board and the cooling fan and is not hot
swappable.

Input voltage:

120-240VAC, 50-60 Hz, fused on

the power supply.

Power draw:

Battery-backed event log SRAM:

4 amps at 5.0V DC.

A rechargeable
Lithium ion battery cell holds the memory in a
512KB SRAM for up to 30 days. If the iPBridge
has been disconnected from power, recharging
begins automatically when power is restored to
the system. The battery is fully charged after 36
hours of continuous power application.

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.

SCSI interface

The two independent SCSI ports on the iPBridge
2500R/D connect storage devices into the
Ethernet Storage Area Network (SAN). Each port
is completely independent from the other.

The ports are Ultra 3 LVD/SE SCSI busses with
68-pin “P” interface: 160 MB/sec. maximum
throughput, downward compatible with all forms
of single-ended SCSI.

The iPBridge supports all SCSI devices including
hard disk drives, tape drives, RAID controllers
and DVD, MO and CD libraries.

Ethernet interface

The two independent 10/100/1000 Ethernet RJ45
data ports, labeled Ethernet ports 0 and 1, use the
Intel 8254x family gigabit Ethernet chipset to
support telnet-based data transfer. A separate
10/100/1000 Ethernet standard RJ45 management
port, labeled Ethernet port 2, provides monitoring
and management through a command line
interface or ATTO ExpressNAV, a browser-based
interface. It may be used as a data port in the
iPBridge 2500 iSCSI-configured model.

GbE cables must be at least CAT-5E certified for
1000 Mb/sec. use.

3

ATTO Technology Inc. iPBridge Installation and Operation Manual

Serial interface

The RS-232 serial port provides support for
remote monitoring and management through a
command line interface. It is set at the factory at
115,200 bps.

Pin outs of the RJ11 connector, part number CBL­0911-001 are

Pin Description

2TXD

3Ground

4RXD

5Ground

Exhibit 1.1-1 ATTO iPBridge 2500R/D connector side

LED indicators

The LED indicators can be viewed from the front
of the iPBridge 2500R/D.

Ethernet Link & Activity:

Each Ethernet port has
its own set of LEDs to show link status and speed
as well as busy status.

SCSI 0 Activity, SCSI 1 Activity:

each SCSI bus
has its own LED to show activity on that bus
(numbered 0 and 1).

Fault:

should light yellow when power has been
applied, then immediately go dark. Software
activates the LED if there is a system error.

Installation instructions

The ATTO iPBridge 2500R/D offers a variety of
ways to connect into a SAN.

1 Note the serial number of your iPBridge for later

use:
_____________________________________

2 Install the iPBridge 2500R/D in your desktop or

rackmount environment.

a. Attach “L” brackets so that front side

with the LEDs face front and the
connector side is at the back.

b. Install the iPBridge horizontally within

the rack so it does not reduce the air
flow within the rack.

3 Connect the AC power cord from the iPBridge

to the proper AC source outlet.

a. Properly ground the iPBridge to the

rack equipment. The earth ground
connection must be maintained.

b. The power requirements plus the

power draw of the other equipment in
the rack must not overload the supply
circuit and/or wiring of the rack.

4 Connect SCSI devices to the iPBridge. and

attach CAT 6 or CAT 5E cables to the GbE data
port(s) on the iPBridge. (For details, refer to the

Appendix, Cabling, on page iii).

5 Configure the iPBridge using the instructions in

Configuring the iPBridge

on page 9.

4

Installation: ATTO iPBridge 2500R/D

Exhibit 1.1-2 Overview of iPBridge 2500R/D standard 19-inch rack using a centered 1.25-inch (31.7 mm)
hole pattern

1.72"

10"

Ethernet management port

Fault LED

RS-232 port

Back (connector) side

Ethernet data ports

SCSI ports

SCSI activity LEDs

air vents

Front side with LEDs

16.91"

power receptacle

(see Exhibit 2.2-1)

Centered 1.25" hole pattern

for "L" brakcets

5

ATTO Technology Inc. iPBridge Installation and Operation Manual

1.2 ATTO iPBridge 2500C

The ATTO iPBridge 2500C is a 1-Gigabit Ethernet to SCSI embeddable cPCI bridge for high
performance, cost effective solutions in enterprise environments.

The iPBridge 2500C includes two Ethernet data
ports, an Ethernet management port which may be
used as a data port in the iPBridge 2500 iSCSI­configured model, a serial management port and
two SCSI ports. It includes a battery-backed Real­Time-Clock, and an IP Time client (RFC 1631
compliant).

Dimensions

Width:

Length:

Height of tallest component:

6.193 inches

6.375 inches
.535 inches

Environment

Operating Temperature:

0-70°C external

Ambient air should not exceed 40°C.

User-configurable thermal sensor

for automatic

shutdown default is 70°C

Humidity:

Recommended airflow:

10-90% non-condensing

11 cubic feet per minute

Power

The iP2500C board may be powered from the
cPCI backplane or a 6-pin connector.

Input voltage:

5.0V DC ±5% derived from cPCI
or 6-pin connection. Fused at the backplane and
hot swap protection.

Power draw:

3 amps at 5.0V DC. Battery-backed
event log SRAM: A rechargeable Lithium ion
battery cell or Super Cap holds the memory in a
512KB SRAM based on the following chart.

Recharging begins automatically when power is
restored to the system.

Time to charge
battery or CAP

Battery

(typical)

Super CAP

worst case

Super CAP

typical

WARNING

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

36 hours

continuous power

60 seconds 3 hours

>320 seconds 5-15 hours

Backup power

duration

30 days

SCSI interface

The two independent SCSI ports on the iPBridge
2500C connect storage devices into the Ethernet
Storage Area Network (SAN). Each port is
completely independent.

The ports are Ultra 3 LVD/SE SCSI busses with
68-pin “P” interface: 160 MB/sec. maximum
throughput, downward compatible with all forms
of single-ended SCSI.

The iPBridge supports all SCSI devices including
hard disk drives, tape drives, RAID controllers
and DVD, MO and CD libraries.

Ethernet interface

The two independent 10/100/1000 GbE RJ45 data
ports, labeled Ethernet port 0 and Ethernet port 1,
use the Intel 8254x family gigabit Ethernet
chipset to support telnet-based data transfer. A
separate 10/100/1000 Ethernet standard RJ45
management port, labeled Ethernet port 2 and
which may be used as a data port in the iPBridge
2500 iSCSI-configured model, provides
monitoring and management through ATTO
ExpressNAV, a browser-based interface.

6

Installation: ATTO iPBridge 2500C

GbE cables must be at least CAT-5E certified for
1000 Mb/sec. use.

Pin outs of the RJ11 connector, part number CBL­0911-001 are

Serial interface

The RS-232 serial port provides support for
remote monitoring and management through a
command line interface. It is set at the factory at
115,200 bps.

Installation instructions

1 Install the iPBridge 2500C in the target device.

(See the board layout diagram below)

2 Connect SCSI devices to the iPBridge. and

attach CAT 6 or CAT 5E cables to the GbE data

Exhibit 1.2-1 ATTO iPBridge 2500C faceplate

SCSI LEDs

SCSI ports

SCSI Port 0

Ethernet data ports RS-232 port

Data P ort 0 Data Port 1

Pin Description

2TXD

3 Ground

4RXD

5 Ground

port(s) on the iPBridge. (For details, refer to the

Appendix, Cabling, on page iii).

3 Connect to power.

4 Configure the iPBridge using the instructions in

Configuring the iPBridge

RS-232

on page 9.

Ethernet

management

port

Management Port

Fault LED

Fault

SCSI Port 1

Ethernet port link and activity LEDs

7

ATTO Technology Inc. iPBridge Installation and Operation Manual

Exhibit 1.2-2 ATTO iPBridge 2500C board layout

Mounting hole

5.756"

Ethernet

management port

RS-232 port

Ethernet

data ports

SCSI ports

Mounting hole

6"

5.974 " -.218"

0"

Mounting hole

0"

-.216 " 6.158"

8

Installation: ATTO iPBridge 2500C

2 Configuring the iPBridge

Set up your iPBridge by first getting an IP address, then use ATTO ExpressNAV to map devices. Default
values are appropriate for most configurations, but may be modified for your needs using ATTO
ExpressNAV.

Configuration of the ATTO iPBridge, also known
as iPBridge Services, is available through the
ATTO ExpressNAV, a browser-based interface, or
the Command Line Interface (CLI).

ATTO iPBridge Services configures and tunes the
iPBridge for many different environments and
applications, updates the firmware, configures the
addresses of the connected devices, monitors
status and reports on hardware.

To use the iPBridge, you must

1 Know the IP address for the iPBridge. (Refer to

Getting an IP address

2 Map devices so that the iPBridge can access

the devices in your network. (Refer to Mapping

devices: NDMP on page 13 and Mapping
devices: iSCSI on page 15).

on page 10).

Additionally, it is best practice to change the
default user name and password and to set the
Real Time Clock. Refer to

configurations

on page 19

Additional

Any changes must be saved and will not take
effect until the iPBridge is restarted.

Note

The recommended management tool for the
iPBridge is ATTO ExpressNAV. For details on
the interface, refer to

interface

on page 21.

ATTO ExpressNAV

Microsoft iSCSI Initiator changes

Installing the file

MSiSCSI_Adj.reg

, found on
the ATTO iPBridge installation CD, makes
several Windows operating system registry
changes to optimize the ATTO iPBridge
performance when using the Microsoft iSCSI
Initiator.

1 Install Microsoft iSCSI Initiator.

2 Double click on the file MSiSCSI_Adj.reg

found on the installation CD.

The resident Windows operating system is
updated to use optimal settings.

9

ATTO Technology Inc. iPBridge Installation and Operation Manual

2.1 Getting an IP address

Set up your iPBridge by first getting an IP address, then use ATTO ExpressNAV to map devices.

The iPBridge is set up by default to request an IP
address from a DHCP server. If you do not have a
DHCP server to assign IP addresses to devices,
get an IP address from your network
administrator.
Use the QuickNAV utility from the CD included
with your iPBridge to find your iPBridge on your
network.

1 Work from the computer attached to the

iPBridge on the same broadcast domain. Find
and download the QuickNAV utility,
QuickNAV-windows.exe, from the CD
included with your iPBridge.

2 Turn on the iPBridge.

Wait for the iPBridge Ready LED to light, up to
three minutes, before proceeding.

3 Run the QuickNAV application.

a. Click Next on the QuickNAV Wizard

page.

b. Select your iPBridge serial number

from the list of choices displayed.

c. Click Next.

• If you are using DHCP, note the IP
Address assigned by the server:

_________________________________

• If you are not using DHCP, configure the
iPBridge with the IP Address and
Subnet Mask given to you by your
network administrator.

_________________________________

_________________________________

d. Click Launch Browser.

Your browser points to the
ExpressNAV splash screen.

4 Enter the user name and password values.

Note

The default values are

password

case insensitive and the password is case
sensitive.

The iPBridge Status page appears.

5 Go on to Mapping devices: NDMP

or Mapping devices: iSCSI
depending on your model of the iPBridge 2500.

: “Password”. The user name is

username

on page 13

on page 15

: “root” and

10

Configuration: Ethernet

2.2 NDMP configuration provides backup

NDMP (Network Data Management Protocol) provides backup for network-attached storage (NAS)
devices. NAS devices are dedicated file servers and cannot host applications such as backup software.
NDMP defines a common agent to interface between any NAS device and any backup software program,
minimizing demand on network resources, and enabling local backups and disaster recovery.

Note

For NDMP-configured iPBridge 2500 models
only

The ATTO iPBridge 2500, using the NDMP
Version 4 Protocol Specification, 10/2001, (­skardal-ndmp4.03.doc), allows you to back up
critical data locally using any combination of
network-attached servers, backup devices and
management applications from a central control,
without taxing network traffic, by separating the
data path and the control path.

How NDMP works

The NDMP protocol allows data backup and
restoration over telnet networks using file-level
commands, rather than block-level IO
instructions.

The typical NDMP setup includes

• a Data Service (usually disks)

• a Tape Service

• a client in control of the backup process called a
Data Management Application (DMA).

The DMA controls the NDMP session. There is a
master-slave relationship between the DMA and
the data/tape servers. The iPBridge 2500
implements the Tape Service, along with a SCSI
Service, to provide access to media changer
devices.

The iPBridge 2500 platform provides several
different types of management capability,
including telnet/FTP through the two GigE data
ports and an Ethernet 10/100/1000 management
port which may be used as a data port in the
iPBridge 2500 iSCSI-configured model, serial
CLI management, and standard bridge hardware
health checking.

A typical NDMP application involves a drive
array, a host computer and a tape library. the host

computer may be attached to the disk and tape
drives by any of several methods/technologies.
The iPBridge uses Ethernet and Internet
protocols.

The following example describes a host, Ethernet,
tape library configuration.

1 The DMA sends messages to the tape library’s

SCSI Server to pick the appropriate cartridge
and load it in the tape drive.

2 The DMA sends commands to the tape drive to

position the tape and configure the tape for
writing (block size, etc.).

3 The DMA opens a connection to the Data

Server to exchange backup information.

4 The DMA commands the Tape Server to

prepare to receive data.

5 The Tape Server responds with addressing

information.

6 The DMA passes the address to the Data

server.

7 The Data Server and Tape Server send data

directly to each other.

8 Metadata generated by the DMA is written to

tape to indicate the end of files, directories, path
names, etc., passed through to the tape server
between backup data transfers.

• NDMP uses a windowing mechanism in
which the Tape Server writes a portion of the
data, then pauses and waits for the DMA to
take charge. The DMA may start a new
window or write some Metadata.

• The DMA may also move the tape while the
transfer is paused. Once the DMA has
finished with the Metadata, a new window is
established and the transfer from the Data
Server to the Tape Server continues.

• The Data Server has no notification of the
Tape Server being paused, so it must rely on
the TCP stack to queue up data transferred
during the pause time, and to implement flow
control when queues are full.

11

ATTO Technology Inc. iPBridge Installation and Operation Manual

Setting up NDMP

The ATTO iPBridge should first be configured for
the network using the RS-232 port to establish the
correct IP address, subnet mask, gateway and
iPBridge names. Authentication can require the
use of a client name-password pair, along with
configuration of the security level (MD5, Text, or
None) used for authentication. The iPBridge 2500
does not validate the client-name, and a single
password is used for all password fields within the
iPBridge 2500.

The NDMP port number is user-configurable,
with the industry standard (10000) as the default.

NDMP device mapping links a SCSI btl (bus,
target, LUN) to an ASCII device name. If you do
not use the default mapping, you must map
devices before using NDMP.

Procedure

1 Configure IP addresses, subnet masks, IP

gateways and iPBridge names if necessary
(refer to Getting an IP address
each port. Defaults are IP address 10.0.0.1;
subnet mask 255.255.0.0

2 Configure mapping for SCSI devices (refer to

Mapping devices: NDMP

on page 10) for

on page 13).

3 Set NDMP version number and NDMP port

numbers for each data port you wish to use and
the NDMP authorization type for all ports. The
default NDMP port number is 10000.

4 Enter the NDMP Max Version and Port

Number in the Ethernet Port Configuration
Page

5 Click submit

6 Enter the NDMP Authorization Type in the

Bridge Configuration page

7 Click Submit

8 Click Restart on the Restart Firmware page.

9 Configure third party software.

Assign NDMP names to devices

1 From the ExpressNAV main menu, click on the

Mapping menu item on the left side of the
screen.

2 Type the NDMP names you want in the boxes

at the right.

3 Drag the boxes to the ports you want.

4 Click Submit

5 Go to the Restart Firmware page and click

Restart.

12

Configuration: NDMP

2.3 Mapping devices: NDMP

Access to SCSI devices is via SCSI bus, target and LUNs. CLI commands are used to modify the
mapping. The easiest way to map devices is to use the Automap command through the ATTO
ExpressNAV interface.

Note

For NDMP-configured iPBridge 2500 models
only.

The ATTO Technology ExpressNAV, a browser­based configuration tool, allows you to map
devices to the SCSI ports using a web-based GUI.
Refer to

ATTO ExpressNAV interface

on page

21.

Map devices automatically

1 From the ExpressNAV main menu, click on the

Mapping menu item on the left side of the
screen.

2 Click AutoMap

3 Click Submit

Map devices manually

1 From the ExpressNAV main menu, click on the

Mapping menu item on the left side of the
screen.

2 Select the devices from the box on the right

hand side of the screen and drag to the
appropriate LUN on the left.

3 Click Submit.

Assign NDMP names to devices

1 From the ExpressNAV main menu, click on the

Mapping

screen.

2 Type the NDMP names you want in the boxes

at the right.

3 Drag the boxes to the ports you want.

4 Click Submit.

menu item on the left side of the

13

ATTO Technology Inc. iPBridge Installation and Operation Manual

Exhibit 2.3-1 Moving NDMP Names to SCSI ports under NDMP using the ATTO ExpressNAV interface.

14

Configuration: mapping NDMP

2.4 Mapping devices: iSCSI

SCSI devices are mapped using the designations for the SCSI bus, target and LUN. CLI commands are
used to modify the mapping. The easiest way to map devices is to use the Automap command, either
through the CLI or the browser-based interface, ATTO ExpressNAV.

Note

For iSCSI-configured iPBridge models only.

To map devices, you must have a host
computer connected to the iPBridge serial port
or an Ethernet port. Refer to

address

The recommended management tool for the
iPBridge is ATTO ExpressNAV.

on page 10.

Getting an IP

By default, a host or initiator views the iPBridge
as a single iSCSI node with all available SCSI
devices shown as LUNs on a single iSCSI target.
Refer to

Exhibit 2.4-1

You may use Multiple Target mode to break the
single iSCSI node into multiple nodes. Multiple
Target mode allows you to grant or deny access

Single Target mode

Single Target mode is the default. Use ATTO
ExpressNAV interface to map devices
automatically or manually. Refer to

ExpressNAV interface

on page 21.

ATTO

between initiators and devices as needed. Refer to

Exhibit 2.4-1

Node names

iSCSI nodes are accessed through the Ethernet
ports on an iPBridge, each identified by its own IP
address.

The iPBridge uses the

iqn

name format,
referencing the device serial number, to guarantee
that the target name is world-wide unique:

iqn.1995-12.com.attotech:ipbridge:
serialnumber

CAUTIONCAUTION

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

screen and drag to the appropriate LUN on the
left.

3 Click Submit.

Map devices automatically

1 From the ExpressNAV main

menu, click on the Mapping
menu item on the left side of the
screen.

2 Click AutoMap

3 Click Submit

Map devices manually

1 From the ExpressNAV main

menu, click on the Mapping
menu item on the left side of the
screen.

2 Select the devices from the box

on the right hand side of the

15

ATTO Technology Inc. iPBridge Installation and Operation Manual