Dell Computer Drive User Manual

Dell™ PowerVault™ Modular Disk

Storage Manager User’s Guide

w w w. d e l l . c o m | s u p p o r t . d e l l . c o m

Contents

About This Guide

User Interface .

Summary Tab .

Configure Tab

Modify Tab

Tools Tab

iSCSI Tab .

Support Tab

Other Information You May Need .

About Your Storage Array

Access Virtual Disk .

Out-of-Band and In-Band Management

Adding Storage Arrays

Automatic Discovery of Storage Arrays .

Manual Addition of a Storage Array .

Naming Storage Arrays

Removing Storage Arrays .

Setting Up Your Storage Array

Storage Array Support Data .

Contents

Setting a Password

Password Guidelines .

Resetting a Password .

Connecting the Serial Cable

System Setup for Password Reset .

Reset Password .

Changing Expansion Enclosure ID Numbers

Configuring Alert Notifications

Configuring E-mail Alerts .

Configuring SNMP Alerts

Starting or Restarting the Host-Agent Software

in Windows

Starting or Restarting the Host-Agent Software

in Linux .

Using iSCSI

Using the iSCSI Tab

Changing the iSCSI Target Authentication

Entering Mutual Authentication Permissions

Creating CHAP Secrets .

Changing the iSCSI Target Identification .

Changing the iSCSI Target Discovery .

Configuring the MD3000i iSCSI Host Ports

Advanced iSCSI Host Ports Settings .

Viewing or Ending an iSCSI Session

Contents

Viewing iSCSI Statistics and Setting Baseline

Statistics .

Edit, Remove, or Rename Host Topology

Event Monitor

Enabling the Event Monitor .

Disabling the Event Monitor

About Your Host

Configuring Host Access

Automatic Configuration .

Manual Configuration (using SAS HBA) .

Manual Configuration (using iSCSI)

Removing Host Access

Host Groups

Creating a Host Group

Adding a Host to a Host Group .

Removing a Host From a Host Group

Moving a Host to a Different Host Group

Removing a Host Group

Host Topology

Host Context Agent .

I/O Data Path Protection

Failover with Red Hat Enterprise Linux

Contents

Disk Groups and Virtual Disks

Creating Disk Groups and Virtual Disks

Automatic Configuration

Manual Configuration

Hot Spare Drive Protection

Automatically Configuring Hot Spares .

Manually Configuring Hot Spares

Host-to-Virtual Disk Mapping .

Creating Host-to-Virtual Disk Mappings .

Modifying and Removing Host-to-Virtual

Disk Mapping .

Changing Controller Ownership of the

Virtual Disk

Storage Partitioning .

Disk Group and Virtual Disk Expansion .

Disk Group Expansion

Virtual Disk Expansion

Storage Array Media Scan

Changing Media Scan Settings

Suspending the Media Scan .

Microsoft Services

Virtual Disk Service .

Volume Shadow-Copy Service .

Contents

Premium Feature—Snapshot

Virtual Disks 67

Creating a Snapshot Virtual Disk Using the

Simple Path

About the Simple Path

Preparing Host Servers to Create the Snapshot

Using the Simple Path

Creating the Snapshot Using the Simple Path .

Creating a Snapshot Virtual Disk Using the

Advanced Path

About the Advanced Path

Preparing Host Servers to Create the Snapshot

Using the Advanced Path

Creating the Snapshot Using the Advanced

Path .

Specifying Snapshot Virtual Disk Names

Snapshot Repository Capacity

Re-creating Snapshot Virtual Disks

Disabling a Snapshot Virtual Disk

Preparing Host Servers to Re-create a

Snapshot Virtual Disk

Re-creating a Snapshot Virtual Disk .

Premium Feature—Virtual Disk

Copy

Creating a Virtual Disk Copy for an MSCS

Shared Disk

Virtual Disk Read/Write Permissions .

Virtual Disk Copy Restrictions .

Contents

Creating a Virtual Disk Copy

Preparing Host Servers to Create a Virtual

Disk Copy .

Copying the Virtual Disk

Storage Array Performance During Virtual

Disk Copy

Setting Copy Priority

Stopping a Virtual Disk Copy

Recopying a Virtual Disk

Preparing Host Servers to Recopy a

Virtual Disk

Recopying the Virtual Disk .

Removing Copy Pairs

Firmware Downloads

Downloading RAID Controller and NVSRAM

Packages

Downloading Both RAID Controller and

NVSRAM Firmware .

Downloading Only NVSRAM Firmware

Downloading Non-redundant MSCS

NVSRAM Firmware .

Downloading Physical Disk Firmware

Downloading EMM Firmware .

10 Troubleshooting Problems

101

Recovery Guru .

Storage Array Profile

101

Contents

Device Health Conditions .

SMrepassist Utility .

101

102

103

104

Support Information Package .

Unidentified Devices .

Recovering from an Unidentified Storage Array

A Enclosure Hardware Replacement,

Maintenance, and Configuration

Considerations

107

Removing and Inserting Enclosure Management

Modules on Attached Expansion Enclosures

107

Removing an EMM from the Expansion

Enclosure .

107

Inserting an EMM into an Expansion

Enclosure .

107

108

Removing and Inserting Physical Disks

MD3000 Maintenance Considerations

MD3000 Cluster Configuration Guidelines for

Standalone Host Servers

109

Index

111

Contents

About This Guide

Dell™ PowerVault™ Modular Disk (MD) Storage Manager software is used to

create and manage multiple storage arrays. The software can be used on any

host attached to the storage array, as well as on storage management stations

connected to the same sub-network.

MD Storage Manager is a graphical user interface (GUI) with wizard-guided

tools and a task-based structure designed to reduce the complexity of

installation, configuration, management, and diagnostic tasks.

MD Storage Manager software also contains an optional event monitoring

service that is used to send alerts when a critical problem with the storage

array occurs and a command line interface (CLI) to access functions

performed by MD Storage Manager.

This guide is intended for users who are already familiar with the basic

functions of their storage array. Any differences in certain functions between

supported operating systems are explained where applicable.

MD Storage Manager online help contains detailed answers to software-

related questions. You can access online help by clicking Help located at the

top right corner of the MD Storage Manager interface. Refer to your storage

array’s Installation Guide for information on installing the MD Storage

Manager.

User Interface

The Storage Manager screen is divided into three parts:

•

The Title Bar at the top of the screen displays the name of the application

and the Dell logo.

Beneath the Title Bar is the Array Selector, listing the MD Storage Array

that is currently selected. The icon next to the array’s name indicates its

condition. You can choose another array by clicking the down-arrow next to

the array’s name and highlighting a different array in the drop-down list.

Links to the right of the array name let you add or remove arrays from the

list of managed arrays. Links to the far right provide access to online help or

close the Storage Manager.

About This Guide

•

Beneath the Array Selector is the Content Area. Several tabs appear in this

area to group the tasks you can perform on the selected array. When you

click on a tab, the Content Area displays links for the tasks you can

perform. The following sections list some of the tasks you can perform under

each tab.

Summary Tab

•

See the status of a storage array

See the hardware components in a storage array

See storage array capacity

See hosts, mappings, and storage partitions

See virtual disk groups and virtual disks

Access links to online help, FAQs, and a tutorial about storage concepts

Configure Tab

•

Configure host access

Create a host group

Create hot spares

Create virtual disks

Create snapshot virtual disks (if enabled)

Create virtual disk copies (if enabled)

Create host-to-virtual disk mappings

Modify Tab

•

Modify the host topology

Rename and delete virtual disks

Add free capacity to a disk group

Change virtual disk ownership and the preferred path of virtual disks

Modify a snapshot virtual disk (if enabled)

Manage virtual disk copies (if enabled)

Edit host-to-virtual disk mappings

About This Guide

Tools Tab

•

Rename a storage array

Set or change a password

View or enable premium features

Turn on indicator lights

Change enclosure ID numbers

Set or change enclosure tags

Set up e-mail alerts and SNMP alerts

Synchronize controller clocks, change the network configuration, or reset

the battery age

•

Inherit system settings

Change media scan settings

iSCSI Tab

•

Set the authentication method supported by the target

Define permissions for mutual authentication

Set an alias for the target for identification

Modify the discovery method for iSCSI targets

Set the parameters for iSCSI host ports

View or end iSCSI sessions

View iSCSI statistics

NOTE: The iSCSI tab is shown only in the MD Storage Manager when the

controllers contain iSCSI host ports.

Support Tab

•

Recover from a failure

Gather support information

View the storage array profile

Download RAID controller, NVSRAM, and physical disk firmware

Manage RAID controllers

About This Guide

•

View online help

View the event log

Other Information You May Need

CAUTION: For complete regulatory and safety information, see your Product

Information Guide. Warranty information may be included within this document or

as a separate one.

•

Setting Up Your Dell PowerVault MD provides an overview of setting up

and cabling your storage array.

Dell™ PowerVault™ MD Installation Guide provides installation and

configuration instructions for both software and hardware.

Dell™ PowerVault™ MD Hardware Owner's Manual provides information

about the enclosure hardware.

Dell™ PowerVault™ MD Storage Manager CLI Guide provides information

about using the command line interface (CLI).

Dell™ PowerVault™ MD Resource CD contains all system documentation

and management tools.

Dell™ PowerVault™ MD Systems Support Matrix provides information on

supported software and hardware for MD systems. The document is

available at support.dell.com

•

Dell PowerEdge Cluster Documentation is available at support.dell.com

A link to clustering documentation is also included on the Resource CD

under Product Documentation

•

Documentation for any components you purchased separately provides

information to configure and install these options.

Release notes or readme files are included to provide last-minute updates

to the enclosure or documentation or advanced technical reference

material intended for experienced users or technicians.

NOTE: Always check for updates on support.dell.com and read the updates

first because they often supersede information in other documents.

About This Guide

About Your Storage Array

This chapter covers basic information about how to manage storage arrays

from MD Storage Manager, including adding and removing arrays from the

software, performing initial setup tasks, setting passwords on an array, and

configuring alert notifications. For information on planning your storage

array, see the Installation Guide.

Following is a list of terms that are used throughout this chapter:

•

Physical Disk — Non-volatile, randomly-addressable device for storing

data.

Host — System that accesses a storage array and is mapped to virtual

disks.

Host Group — Hosts that are logically associated and share access to the

same virtual disks.

Host-Agent Software — Software installed on the host that provides in-

band management and topology discovery.

Logical Unit Number (LUN) — Address that identifies individual virtual

disks within a storage array.

Event Monitor — A feature that, when enabled, monitors activity on

managed storage arrays and notifies a host or remote system when

critical problems occur.

•

SNMP Alert — Alert (SNMP trap) that is sent from the event monitor to

an SNMP-enabled host.

Access Virtual Disk

Each RAID controller in an MD Storage Array maintains an access virtual

disk. The host-agent software uses the access virtual disk to communicate

management requests and event information between the storage

management station and the RAID controller module in an in-band–managed

storage array. The access virtual disk is not available for application data storage.

The default LUN is 31.

Storage Array

NOTICE: Removing or manipulating an access virtual disk can cause a loss of

management access. If you remove an access virtual disk mapping from an

in-band-managed storage array, MD Storage Manager can no longer access the

storage array. Do not modify the access virtual disk either in the operating system or

with MD Storage Manager.

Out-of-Band and In-Band Management

You can manage a storage array in two ways:

•

Out-of-band management

In-band management

For out-of-band management, data is separate from commands and events.

Data travels through the host-to-controller interface, while commands and

events travel through the management port Ethernet cables.

When you use out-of-band management, you must set the network

configuration for each RAID controller module’s management Ethernet port,

including its Internet Protocol (IP) address, subnetwork mask (subnet mask),

and gateway. If you are using a Dynamic Host Configuration Protocol

(DHCP) server, you can enable automatic network configuration, but if you

are not using a DHCP server, you must enter the network configuration

manually.

NOTE: RAID controller module network configurations can be assigned using a

DHCP server (the default setting). However, if a DHCP server is not available and the

10-second selection period times out, the RAID controller modules use the

192.168.128.101 static IP address for controller 0. For controller 1, the RAID

controller modules use the 192.168.128.102 static IP address.

For in-band management, commands, events, and data travel through the

host-to-controller interface. Unlike out-of-band management, commands and

events are mixed with data.

For detailed information on setting up in-band and out-of-band management

see the Installation Guide.

NOTE: In-band management is not supported on systems running the Red Hat

Enterprise Linux 3 operating system.

Storage Array

Adding Storage Arrays

To add a storage array to MD Storage Manager, click New in the Array

Selector area. A window is displayed that allows you to choose the automatic

or manual process to add a new storage array.

NOTE: Verify that your host or management station network configuration—

including station IP address, subnet mask, and default gateway—is correct before

adding a new storage array using the Automatic option.

NOTE: For Linux, set the default gateway so that broadcast packets are sent to

255.255.255.255. For Red Hat Linux , if no gateway exists on the network, set the

default gateway to the IP address of the NIC.

NOTE: MD Storage Manager uses TCP/UDP port 2463 for communication to the

MD Storage Array.

Automatic Discovery of Storage Arrays

The Automatic Discovery process sends out a broadcast message across the

local subnetwork (subnet) and adds any storage array that responds to the

message. The Automatic Discovery process finds both in-band and out-of-

band storage arrays.

Manual Addition of a Storage Array

Use Manual Addition if the storage array resides outside of the local subnet.

This process requires specific identification information to manually add a

storage array:

•

To add a storage array that uses in-band management, specify the host

name or IP address of the host.

When adding a storage array using in-band management with iSCSI, a

session must first be established between the initiator on the host server

and the storage array. For more information, see "Configuring iSCSI" in

the Modular Disk 3000i Systems Installation Guide.

The host agent must be restarted before in-band management

communication can be established. See "Starting or Restarting the Host-

Agent Software in Windows" on page 28 or "Starting or Restarting the

Host-Agent Software in Linux" on page 28.

Storage Array

•

To add a storage array that uses out-of-band management, specify the host

name or IP address of each controller in the storage array.

NOTE: It can take several minutes for MD Storage Manager to connect to the

specified storage array.

Naming Storage Arrays

Each storage array should be assigned a unique name. A storage array name

has a 30-character limit. All leading and trailing spaces are deleted from the

name. A name can consist of letters, numbers, and the special characters

underscore (_), dash (–), and pound sign (#). No other special characters are

allowed.

To physically locate a storage array:

Click the Tools tab.

Click Blink and then click Blink Storage Array or Enclosures

Select the storage array from the displayed list and click Blink

The indicator light on the front of the storage array flashes.

Click Stop after you locate the array.

To rename the selected storage array:

Click the Tools tab.

Click Rename Storage Array

Type a unique, meaningful name that is easy to understand and remember.

Click OK

NOTE: Avoid arbitrary names or names that might lose meaning in the future.

Removing Storage Arrays

You can remove a storage array from the list of managed arrays if you no

longer want to manage it from a specific storage management station.

Removing a storage array does not affect the storage array or its data in any

way. Removing a storage array simply removes it from the list of storage arrays

that appear in the drop-down list in the Array Selector. If a storage array is

accidentally removed, it can be added again (see "Adding Storage Arrays" on

page 17).

Storage Array

To remove a storage array:

Click Remove located to the right of the drop-down menu in the Array

Selector.

Click OK in the Remove dialog box.

You can still manage the storage array from other storage management

stations where it has been added.

Setting Up Your Storage Array

The Perform Initial Setup Tasks link located on the Summary tab provides

links to the basic steps you should follow when initially setting up a storage

array in MD Storage Manager. Following these steps ensures that you

complete all the basic steps to configure your storage array.

Initial setup tasks include:

Blink the Storage Array — Find the physical location of the storage array

on your network. The storage array can then be identified with a label.

Rename the Storage Array — Provide a unique and memorable name to

help you easily identify the storage array.

Set a Storage Array Password — Set a unique password to prevent

unapproved manipulation of the storage array, such as deletion of a virtual

disk.

Set up alert notifications — Enable e-mail and SNMP alerts to notify

administrators about storage array conditions that require attention. See

"Configuring Alert Notifications" on page 25 for more information.

Configure Sender E-mail Settings — Provide the SMTP, e-mail

address, and contact information MD Storage Manager uses to send

e-mail alerts.

Add or Edit E-mail Addresses — Provide information about accounts

that should receive e-mail–based alerts.

Set up SNMP Alerts — Provide information about hosts that should

receive SNMP-based alerts.

Configure iSCSI Host Ports — Configure network parameters for the

iSCSI host ports on the RAID controller module(s).

Storage Array

Configure Host Access — Set up one or more hosts to access the storage

array. See "Configuring Host Access" on page 43 for more information.

Configure storage array (2 options)

Automatic (Simple) configuration

•

Step 1: Automatic Configuration — See "Creating Disk Groups

and Virtual Disks" on page 54 for more information.

•

Step 2: Create Host-to-Virtual Disk Mappings — See "Creating

Host-to-Virtual Disk Mappings" on page 60 for more information.

Manual (Advanced) configuration

•

Step 1: Create Virtual Disks — See "Manual Configuration" on

page 55 for more information.

•

Step 2: Configure Hot Spare Physical Disks — See "Manually

Configuring Hot Spares" on page 59 for more information.

Manage iSCSI Settings — This option will be present only if your

controllers contain iSCSI host ports.

Change Target Authentication — Choose the authentication methods

and permissions (if required) for an initiator to access the target.

Enter Mutual Authentication Permissions — If initiators require

mutual authentication, you can enter permissions for the target to

access the initiator.

Change Target Identification — Define an alias for the target for easy

identification.

Change Target Discovery — Configure parameters for how the target

will be discovered on the network.

View and Enable Premium Features (Optional) — You may have

purchased premium features, including snapshot virtual disks and virtual

disk copies. See which premium features are currently available to you and

enable these features if they are currently turned off.

10 Configure Ethernet Management Ports (Optional) — Configure network

parameters for the Ethernet management ports managing a storage array

for out-of-band Ethernet connections.

Storage Array

Storage Array Support Data

Aggregated support data can be generated for a storage array to aid in remote

troubleshooting and issue analysis. To generate the support data report:

Click the Support tab, then click Gather Support Information.

Click Browse to display the Collect All Support Data dialog box.

In the Save in drop-down box, navigate to the location where you want the

report saved.

Type a meaningful name in the File name text box and click Save

Click Start

A compressed (zip) file containing support data is saved to the location of

your choice.

Setting a Password

You can configure each storage array with a password to protect it from

unauthorized access. MD Storage Manager asks for this password when an

attempt is made to change the storage array configuration, such as when a

virtual disk is created or deleted. View operations do not require a password.

To set, change, or remove a password for a storage array:

Click the Tools tab, then click Set or Change Password.

Text boxes for the current password, the new password, and new password

confirmation are displayed.

To enter a new password:

•

Leave the Current password text box blank.

Enter the new password in the New password and Confirm new

password text boxes.

To change a password:

•

Enter the current password in the Current password text box.

Enter the new password in the New password and Confirm new

password text boxes.

Storage Array

To remove a password:

•

Enter the current password in the Current password text box.

Leave the New password and Confirm new password text boxes

blank.

If you forget your password, contact Dell for technical assistance.

Password Guidelines

Consider these guidelines when you create a password:

•

Use secure passwords for your storage array. A password should be easy for

you to remember but difficult for others to determine. Consider using

numbers or special characters in the place of letters, such as a 1 in the

place of the letter I, or the at sign (@) in the place of the letter

•

For increased protection, use a long password with at least 15

alphanumeric characters. The maximum password length is 30 characters.

Passwords are case sensitive.

•

For security reasons, you can attempt to enter a password only ten times

before the storage array enters a lockout state. Before you can try to enter a

password again, you must wait ten minutes for the storage array to reset.

Resetting a Password

Perform this procedure when you have lost or forgotten your password and

you need to reset it.

Connecting the Serial Cable

Remove the serial cable from the password reset cable package.

Connect the DB9 (oval) end of the cable to the serial port on the

computer to be used to communicate with the RAID Controller module.

Connect the PS2-type (round) end of the cable to the serial port on either

of the MD RAID Controller Modules. The flat side of the connector faces

down when inserting.

Storage Array

System Setup for Password Reset

Microsoft^®Windows^®Operating Systems

Click Start

→

HyperTerminal to run HyperTerminal.

Programs

→

Accessories

→

Communication

→

If HyperTerminal is not installed, click Control Panel

Programs

and click the check-box, then click Apply and OK

→

Add/Remove

→

Add/Remove Windows Components, find HyperTerminal

NOTE: The original Windows installation disk may be needed to install

HyperTerminal.

NOTE: HyperTerminal is not a component on Windows Server 2008 operating

systems.

When HyperTerminal prompts for a name, type MD and click OK

Select the COM1 port and click OK

Set the following communication settings, click Apply, then click OK

Bits per second: 115200

Data bits:

Parity: none

Stop bits:

Flow control: none

LINUX Operating System

The following instructions use the Linux application, MINICOM, to connect

via the serial port:

Open a terminal/command window.

At the prompt, type minicom (all lowercase) and press <Enter>.

Once MINICOM is open, press <Ctrl><A>, then <Z>, then the letter

<O> to open the configuration screen.

Select Serial Port Setup and press <Enter>.

Press <F> to change Hardware Flow Control setting to no

Press <E> to set the Comm Parameters

Storage Array

Press <I> to set the speed to 115200.

ress <Q> to set the data parity, and stopbits to 8-N-1, then

press <Enter>.

Press <Enter> to exit the Comm Parameters screen.

10 Select Exit and press <Enter> again to exit the setup screen.

Reset Password

NOTICE: Failure to stop data I/O to a non-fault-tolerant array before performing the

following steps may result in loss of data.

Stop all I/O to the array.

From the HyperTerminal (Windows) or MINICOM (Linux) window, press

<Ctrl><B>.

At the SPECIAL OPERATIONS MENU, press <1>, <0>, and

<Enter>.

At the SERIAL INTERFACE MODE MENU, press <1> and <Enter>,

then <Q> and <Enter>.

At the BOOT OPERATIONS MENU, press <R> and <Enter> to

restart the controller. Text scrolls across the screen as the controller

reboots.

Once Controller 0 has fully booted (look for sodMain complete in the

HyperTerminal or MINICOM window), press <Enter>.

At the prompt, type clearSYMbolPassword (must use exact case)

and press <Enter>.

The return value = 0 = 0x0 indicates that the password has been

reset /deleted.

Close HyperTerminal or MINICOM.

Remove password reset cable.

10 To set a new password, go to the Modular Disk Storage Manager software

under the Tools tab and click Set Or Change Password Link

11 Leave the Current Password blank, enter the new password twice, and

click OK

Storage Array

NOTE: If you require help with this procedure, contact Dell for technical

assistance. For more information on contacting Dell, see the "Getting Help" chapter

of the Hardware Owners Manual.

Changing Expansion Enclosure ID Numbers

When an MD1000 expansion enclosure is attached to an MD3000/MD3000i

storage array for the first time, an enclosure ID number is assigned and

maintained by the MD1000. This enclosure ID number is also shown in the

MD Storage Manager, but it is not an indicator of the enclosure’s physical

location. It may appear that MD Storage Manager is reporting the expansion

enclosures in improper order.

You can change the enclosure ID numbers in the MD Storage Manager by

clicking the Tools menu and then clicking Change Enclosures ID Numbers.

Any ID number you assign will not conflict with the enclosure IDs.

Configuring Alert Notifications

MD Storage Manager can send an alert for any condition on the storage array

that requires your attention, such as the failure of a storage array component or

the occurrence of an adverse environmental condition. Alerts can be sent as

e-mail messages or as SNMP messages.

You can verify whether alerts are currently set by looking at the Alert status

line in the Status area of the Summary tab.

Configuring E-mail Alerts

To configure e-mail alerts, click the Tools tab and then click Set up e-mail

alerts. The Content Area displays two links: Configure Sender E-mail

Settings and Add or Edit E-mail Addresses.

NOTE: These settings apply to all storage arrays currently managed by the

management station.

Storage Array

Sender e-mail settings include the SMTP and e-mail address information MD

Storage Manager uses to send e-mail alerts. To configure sender e-mail

settings:

Click the Tools tab, then click Set Up Email Alerts.

Enter the following information:

•

Sender email address — The e-mail address that appears as the sender

on every e-mail alert, such as that of the network administrator.

•

Mail (SMTP) server — The name of the Simple Mail Transfer

Protocol (SMTP) gateway of the mail server from which e-mail alerts

will be sent. For example, smtp.mycompany.com.

•

Edit Sender Contact Information (Optional) — Additional

information about the sender such as the sender’s name, company,

and phone number. This information is optional; e-mail alerts will

work if contact information is not provided.

To specify to whom alerts are sent:

Click the Tools tab, then click Set Up Email Alerts.

Type an e-mail address in the Recipient email addresses text box and click

Add to add it to the list of configured e-mail addresses.

Specify the following for each e-mail address in the list (to choose a

different setting, click the down arrow to the right of the field):

Information To Send — Select one of the following options from the

drop-down list:

•

Event Only — The alert e-mail contains only the event

information. This alert type is the default.

Event + Profile — The alert e-mail contains the event

information and the storage array profile.

Event + Support — The alert e-mail contains the event

information and a compressed file that contains complete support

information for the storage array that has generated the alert.

Frequency — Select one of the following options from the drop-down list:

•

Every event — Sends an e-mail whenever an event occurs. This

option is the default.

Storage Array

•

Every x hours — Sends an e-mail at the specified interval if an

event occurred during that period. You can select this option only

if the Information to send option is set to Event + Profile or

Event + Support

Click Save

Configuring SNMP Alerts

To add a management console to the list of addresses configured to receive

SNMP alerts:

NOTE: The Management Information Base (MIB) for the MD Storage Array is

copied to the client directory as part of a Full or Management Station installation

selection. DellMDStorageArray.mib can be compiled on an SNMP Management

Console using the interface provided by the console.

Click the Tools tab, then click Set up SNMP Alerts

Enter the Community name

NOTE: The community name is an ASCII string that identifies a known set of

management consoles and is set by the network administrator in the

management console. The default community name is public.

Enter the Trap destination.

NOTE: The trap destination is the IP address or the host name of a

management console that runs an SNMP service.

Click Add to add the management console to the Configured SNMP

addresses list.

Repeat steps 2 through 4 until you have added all management consoles

that should receive SNMP alerts.

Click OK

NOTE: You must install an SNMP service on every system included in the list of

addresses configured to receive SNMP alerts.

NOTE: You do not have to install MD Storage Manager on a system in order to

display SNMP alerts. You need only install an appropriate SNMP service and

application (such as the Dell IT Assistant).

Storage Array

Starting or Restarting the Host-Agent Software in

Windows

The SMagent software automatically starts after you reboot the host. If you

add a storage array after the host server has started, or if iSCSI sessions are

created while the SMagent is running, you must restart the SMagent software

manually using the following procedure:

Click Start

→

Settings

→

Control Panel

→

Administrative Tools

→

Services

Click Start

→

Administrative Tools

→

Services.

In the Services dialog, select Modular Disk Storage Manager Agent.

If the Modular Disk Storage Manager Agent is running, click

Action

→

Stop, then wait approximately 5 seconds.

Click Action

→

Start

Starting or Restarting the Host-Agent Software in

Linux

The SMagent software automatically starts after you reboot the host. If you

add a storage array after the host server has started, or if iSCSI sessions are

created while the SMagent is running, you must restart the SMagent software

manually using the following procedure.

To start or restart the host-agent software, enter the following command at

the prompt:

SMagent start

The SMagent software might take a little time to initialize. The cursor is

shown, but the terminal window does not respond. When the program starts,

the following message is displayed:

SMagent started.

Storage Array

After the program completes the startup process, text similar to the following

messages is displayed:

Storage Manager Agent, Version 09.1x.00.00 Built

Wed Aug 15

reserved.

checking device /dev/rdsk/c0t0d0s2 : skipping

checking device

/dev/rdsk/c2t3d18s2 : skipping checking device

/dev/rdsk/c2t3e16s2 : skipping checking device

/dev/rdsk/c2t3d14w2 : skipping

Storage Array

Using iSCSI

This chapter provides information on using iSCSI in MD Storage Manager.

For iSCSI prerequisite requirements and detailed step-by-step instructions on

setting up and configuring iSCSI, see the Installation Guide.

Using the iSCSI Tab

The iSCSI tab is shown in the MD Storage Manager only when the

controllers contain iSCSI host ports. You can define or change settings for the

iSCSI target or enter the CHAP permissions in the iSCSI tab. Here are some

of the iSCSI settings:

•

Change Target Authentication — Select the authentication method to be

supported by the target.

Enter Mutual Authentication Permissions — Define the permissions for

initiators that require mutual authentication.

Change Target Identification — Associate an alias with the target for

simpler identification.

Change Target Discovery — Modify the way to discover iSCSI targets

using the Internet Storage Name Service (iSNS) server settings.

•

Configure iSCSI Host Ports — Set the parameters for iSCSI host ports.

View/End iSCSI Sessions — View iSCSI session details and end iSCSI

sessions.

•

View iSCSI Statistics — View and save iSCSI statistics.

Using iSCSI

Changing the iSCSI Target Authentication

If an initiator requires mutual (bi-directional) authentication see "Entering

Mutual Authentication Permissions" on page 32.

Click the iSCSI tab, and then click Change Target Authentication.

Select None if no authentication is required for any initiator to access the

target.

NOTE: If you select None , any initiator can access this target. Use this option

only if you do not require secure data. However, if you select both None and

CHAP at the same time, the storage array will allow an iSCSI initiator to log on

with or without CHAP authentication.

Select CHAP if you want any initiator that tries to access the target to

provide the target permissions. If CHAP is selected, but no CHAP secret is

defined, an error message appears.

Click CHAP Secret to see the Enter CHAP Secret dialog (see "Creating

CHAP Secrets" on page 32). You can define the permissions in this dialog.

Entering Mutual Authentication Permissions

Mutual authentication or two-way authentication is a way for a client or a

user to verify themselves to a host server, and for the host server to validate

itself to the user. This validation is accomplished in such a way that both

parties are sure of the other’s identity.

Click the iSCSI tab, and then click Enter Mutual Authentication

Permissions

Select an initiator from the list. The initiator details are shown.

Select CHAP Secret to enter the initiator CHAP permissions in the dialog

that appears.

NOTE: To add, modify, or delete an initiator, click the Modify tab, and then

click Edit Host Topology.

Creating CHAP Secrets

When you set up an authentication method, you can choose to create a

Challenge Handshake Authentication Protocol (CHAP) secret. The CHAP

secret is a password that is recognized by the initiator and the target. If you

are using mutual authentication to configure the MD3000i storage array, you

Using iSCSI

must enter the same CHAP secret that is defined in the iSCSI initiator, and

you must define a CHAP secret on the target (the storage array) that must be

configured in every iSCSI initiator that will connect to the target. For more

information on CHAP, see "Understanding CHAP Authentication" in the

Installation Guide.

Initiator CHAP Secret

The initiator CHAP secret is set on the host using the iSCSI initiator. If you

are using the mutual authentication method, you must define the initiator

CHAP secret when you set up the host. This must be the same CHAP secret

that is defined for the target when defining mutual authentication settings.

Target CHAP Secret

If you are using CHAP secrets, you must define the CHAP secret for the

target.

Valid Characters for CHAP Secrets

The CHAP secret must be between 12 and 57 characters. The CHAP secret

supports characters with ASCII values of 32 to 126 decimal. See Table 3-1 for

a list of valid ASCII characters.

Table 3-1. Valid ASCII Characters for CHAP Secrets

Space !

’

(

)

]

;

[

}

{

Using iSCSI

Changing the iSCSI Target Identification

You cannot change the iSCSI target name, but you can associate an alias with

the target for simpler identification. Aliases are useful because the iSCSI

target names are not intuitive. You should provide an iSCSI target alias that is

meaningful and easy to remember.

Click the iSCSI tab, and then click Change Target Identification

Type the alias in the iSCSI target alias field and click OK

NOTE: Aliases can contain a maximum of 30 characters. Aliases can include

letters, numbers, and the special characters underscore (_), minus (-), and

pound sign (#). No other special characters are permitted.

NOTE: Open iSCSI (which is used by Red Hat Enterprise Linux 5 and SUSE

Linux Enterprise Server 10 with SP 1) does not support using target alias.

Changing the iSCSI Target Discovery

Click the iSCSI tab, and then click Change Target Discovery

Select the Use iSNS server check box to activate iSCSI target discovery.

You can use one of these methods:

Use the DHCP option (IPv4 only) to automatically activate target

discovery. You also can refresh the DHCP.

Type the IPv4 or IPv6 address to activate the target discovery. After

you manually enter an IP address, you also can click Advanced to set

the customized TCP listening ports.

If you do not want to allow discovery sessions that are not named, select

Disallow un-named discovery sessions

Un-named discovery sessions are discovery sessions that are permitted to run

without a target name. With an un-named discovery session, the target name

or the target portal group tag is not available to enforce the iSCSI session

identifier (ISID) rule. For more information on un-named discovery sessions,

click the Support tab, then click View Online Help.

Using iSCSI

Configuring the MD3000i iSCSI Host Ports

Use the configuration dialog for the iSCSI host ports to set up the MD3000i

iSCSI host ports to use with storage arrays in a storage area network (SAN).

Click the iSCSI tab, and then click Configure iSCSI Host Ports.

Select the controller in the iSCSI host port field, and then use one of

these methods to configure the port:

Automatically obtain the configuration using one of the following

methods:

•

IPv4 — Obtain the configuration from the DHCP server, or

refresh DHCP.

•

IPv6 — Obtain the configuration automatically from a router.

Manually specify the configuration using one of the following

methods:

•

IPv4 — Enter the IP address, subnet mask, and gateway for the

host port.

•

IPv6 — Enter the IP address, routable IP addresses, and router IP

address.

After you manually enter an IP address, you also can click Advanced to

set the advanced parameters for the iSCSI target discovery.

Advanced iSCSI Host Ports Settings

NOTE: Configuring the advanced iSCSI host ports settings is optional.

Use the advanced settings for the individual iSCSI host ports to specify the

TCP frame size, the virtual LAN, and the network priority.

Table 3-2. Advanced iSCSI Host Port Settings

Setting

Description

Virtual LAN (VLAN)

A method of creating independent logical networks within

a physical network. Several VLANs can exist within a

network. VLAN 1 is the default VLAN.

NOTE: For more information on creating and configuring a

VLAN with MD Support Manager, click the Support tab, then

click View Online Help.

Using iSCSI

Table 3-2. Advanced iSCSI Host Port Settings (continued)

Setting

Description

Ethernet Priority

The network priority can be set from lowest to highest.

Although network managers must determine these

mappings, the IEEE has made broad recommendations:

•

— lowest priority (default)

1-4 — ranges from "loss eligible" traffic to controlled-load

applications, such as streaming multimedia and business-

critical traffic

•

5-6 — delay-sensitive applications such as interactive

video and voice

— highest priority reserved for network-critical traffic

(do not use with the MD3000i)

TCP Listening Port

Jumbo Frames

The default Transmission Control Protocol (TCP)

listening port is 3260.

The maximum transmission units (MTUs). It can be set

between 1500 and 9000 bytes per frame. If the Jumbo

Frames are disabled, the default MTU is 1500 bytes per

frame.

NOTE: Changing any of these settings resets the iSCSI port. I/O is interrupted to

any host accessing that port. You can access the I/O automatically after the port

restarts and the host logs in again.

Viewing or Ending an iSCSI Session

Click the iSCSI tab, and then click View/End iSCSI Sessions.

Select the session you want to view in the Current sessions box. The

details are shown below in the Details box.

If you want to end the session, perform the following steps:

Select the session that you want to end, and then click End Session to

show the End Session confirmation window.

Using iSCSI

In the confirmation window, type yes to confirm that you want to end

the iSCSI session, and then click OK

NOTE: If you end a session, any corresponding connections terminate the link

between the host and the storage array, and the data on the storage array is

no longer available.

NOTE: When a session is manually terminated using the MD Storage

Manager, the iSCSI initiator software will automatically attempt to re-

establish the terminated connection to the storage array. This may cause an

error message.

Click Save As to save the entire iSCSI sessions topology as a text file.

Viewing iSCSI Statistics and Setting Baseline

Statistics

If the configured storage array has iSCSI technology, the View iSCSI

Statistics option is available only on the iSCSI tab.

Click the iSCSI tab, and then click View iSCSI Statistics

Select the iSCSI statistic type you want to view. Select one of these types:

•

Ethernet MAC statistics

Ethernet TCP/IP statistics

Target (protocol) statistics

Choose either Raw statistics or the Baseline statistics.

Raw statistics are all the statistics that have been gathered since the

controllers were started. Baseline statistics are point-in-time statistics that

have been gathered since you set the baseline time.

After you select the statistics type and either raw or baseline statistics, the

details of the statistics appear in the statistics tables.

To set the baseline for the statistics, complete the following steps:

Select Baseline Statistics

Click Set Baseline

Using iSCSI

Confirm that you want to set the baseline statistics in the dialog that

appears.

The baseline time shows the latest time you set the baseline. The

sampling interval is the difference in time from when you set the

baseline until you launch the dialog or click Refresh

NOTE: You must first set a baseline before you can compare baseline

statistics.

Edit, Remove, or Rename Host Topology

If you give access to the wrong host or the wrong host group, you can remove

or edit the host topology. Use one of the following actions to correct the host

topology:

Table 3-3. Host Topology Actions

Desired Action

Steps to Complete Action

Move the host, the host

Click the Modify tab, and then click Edit Host

Topology

Select the item that you want to move, and then click

Move

group, or the iSCSI initiator.

Select a host group to move the host to and click OK.

Manually change the host

type.

Click the Modify tab, and then click Edit Host

Topology

Select the host that you want to change and click

Change

Select a new host type (or operating system) and

click OK

Manually delete the host, the

host group, or the iSCSI

initiator.

Click the Modify tab, and then click Edit Host

Topology

Select the item that you want to remove and click

Remove

Rename the host, the host

group, or the iSCSI initiator.

Click the Modify tab, and then click Edit Host

Topology

Select the item that you want to rename and click

Rename

Type a new label for the host and click OK

Using iSCSI

Table 3-3. Host Topology Actions (continued)

Desired Action

Steps to Complete Action

Add an iSCSI Initiator.

Click the Modify tab, and then click Edit Host

Topology

Select the host you want to add an iSCSI initiator to

and click Add

Type or select an iSCSI initiator name and label for

the iSCSI initiator and click OK

Using iSCSI

Event Monitor

An event monitor is provided with MD Storage Manager. When enabled, the

event monitor runs continuously in the background and monitors activity on

the managed storage arrays. If the event monitor detects any critical

problems, it can notify a host or remote system using e-mail, Simple Network

Management Protocol (SNMP) trap messages, or both.

For the most timely and continuous notification of events, enable the event

monitor on a management station that runs 24 hours a day. Enabling the

event monitor on multiple systems or having a combination of an event

monitor and MD Storage Manager active can result in duplicate events, but

this does not indicate multiple failures on the array.

Enabling the Event Monitor

You can enable the event monitor at any time.

NOTE: It is a good idea to configure the event monitor to start by default on a

management station that runs 24 hours a day.

Microsoft^®Windows^®

Select Start

→

Settings

→

Control Panel

→

Administrative Tools

→

Services

Select Start

Administrative Tools

→

Services.

From the list of services, select Modular Disk Storage Manager Event

Monitor.

Select Action

→

Properties.

In the Service Status area, click Start

Linux

At the command prompt, type SMmonitor start and press <Enter>.

When the program startup begins, the system displays the following message:

SMmonitor started.

Event Monitor

Disabling the Event Monitor

Disable the event monitor if you do not want the system to send alert

notifications. If you are running the event monitor on multiple systems,

disabling the event monitor on all but one system prevents the sending of

duplicate messages.

Windows

Select Start

→

Settings

→

Control Panel

→

Administrative Tools

→

Services

Select Start

Administrative Tools

→

Services.

From the list of services, select Modular Disk Storage Manager Event

Monitor

Select Action

→

Properties.

In the Service Status area, click Stop

Linux

At the command prompt, type SMmonitor stop and press <Enter>.

When the program shutdown is complete, the system displays the following

message:

Stopping Monitor process.

Event Monitor

About Your Host

This chapter covers basic information about configuring host groups and host

access, host topology, and I/O data path protection.

A host is a system that accesses a storage array and is mapped to the virtual

disks through one or more host connections. Hosts have the following

attributes:

•

Host name — A name that uniquely identifies the host.

Host type — The operating system running on the host.

Host connection — A physical connection to the host server. Host

connections can be automatically detected by MD Storage Manager and

can be identified by an alias assigned by the user.

•

Host group — A host may be associated with other hosts to share access to

the same virtual disks.

Configuring Host Access

Configuring host access allows you to either permit or deny access to a storage

array for specific hosts. When you permit host access, that host can then be

mapped to a virtual disk on the storage array. On the Summary tab, the Hosts

& Mappings area indicates how many hosts are configured to access the array.

Click Configured Hosts in this area to see the names of these hosts.

Host access configuration is the first step in setting up your storage array. You

must complete this task during initial setup and anytime you connect a new

host.

After you configure host access, the host does not yet have the ability to write

data to the storage array. You must map hosts to the virtual disks and register

virtual disks with the host’s operating system before a host can write to the

storage array. See “Disk Groups and Virtual Disks” on page 53 for information

on these tasks.

About Your Host

To begin configuring host access, click the Configure tab and then click

either Configure Host Access (Automatic) or Configure Host Access

(Manual). See the appropriate section for manual configuration, depending

on whether you are using SAS HBA or iSCSI.

Automatic Configuration

To automatically configure a host for access to the storage array:

Click the Configure tab and then click Configure Host Access

(Automatic)

To see hosts that already have access to the storage array, click View

configured hosts

Select the hosts you want to give access to the storage array in the

Available hosts window.

To see the ports and the host type for the selected hosts, click View Details

at the right of the list.

Click Add to move specific hosts to the Selected hosts window.

Click OK to configure access for the hosts you selected.

Manual Configuration (using SAS HBA)

NOTE: Host access that is manually configured requires special attention to

ensure that the correct SAS host port World Wide IDs are selected for each host. If

any incorrect IDs are configured, an inaccurate topology will result. You can use

the SAS/5/E HBA BIOS Setup program to identify the World Wide IDs for the SAS

host ports.

Configure the host to make it available to the storage array for volume

mapping by following these steps.

Click the Configure tab and then click Configure Host Access (Manual).

Type a name of your choice in the Enter host name text box.

This can be an informal name, not necessarily a name used to identify the

host to the network.

Select the operating system of your host in the Select host type box and

then click Next

About Your Host

Specify the HBA host ports by choosing known host ports or by manually

defining host ports.

To select a host port that is already recognized by MD Storage Manager,

click a host port in the Known HBA host ports list, then click Add

To manually define a host port, click New, enter the HBA host port and

Alias in the Enter New HBA Host Port dialog box, and then click Add

Click Next

Indicate whether the host is part of a host group (cluster):

If the host is not part of a host group, select No

If the host is part of a host group, select Yes

–

To create a new host group, enter a name in the Enter new host group

name text box.

To add the host to an existing host group, select the host group from

the Select existing host group box.

Click Next

Click Finish to configure the host

Manual Configuration (using iSCSI)

Configure the host to make it available to the storage array for volume

mapping by following these steps.

Click the Configure tab and then click Configure Host Access (Manual).

Type a name of your choice in the Enter host name text box.

This can be an informal name, not necessarily a name used to identify the

host to the network.

Select the operating system of your host in the Select host type drop-down

box and then click Next

Specify the iSCSI initiators by choosing known initiators or by manually

defining initiators.

To select an initiator that is already recognized by MD Storage Manager,

click an initiator in the Known iSCSI Initiators list, and then click Add

About Your Host

To manually define an initiator, click New, enter the iSCSI initiator name

and iSCSI initiator label in the Enter new iSCSI initiator dialog box, and

then click Add

NOTE: The initiator name entered must match the name on a host server that

will connect to the storage array.

Click Next

Indicate whether the host is part of a host group (cluster):

If the host is not part of a host group, select No

If the host is part of a host group, select Yes

–

To create a new host group, enter a name in the Enter new host group

name text box.

To add the host to an existing host group, select the host group from

the Select existing host group box.

Click Next

Click Finish to configure the host

Removing Host Access

Use the following procedure to remove a host’s access to a storage array:

Click the Modify tab, then click Edit topology

In the host topology list, click the plus sign (+) to the left of the host

group name.

The host group expands to show the hosts in the group.

In the list, click the name of the host whose access you want to remove,

and then click Remove located to the right of the list. Click Yes to remove

access.

Repeat step 3 for each host whose access you want to remove.

When the list contains only those hosts you want to access the storage

array, click Close beneath the list.

About Your Host

Host Groups

A host group is a logical entity of two or more hosts that share access to

specific virtual disks on the storage array. You create host groups with MD

Storage Manager.

All hosts in a host group must have the same host type (operating system). In

addition, all hosts in the host group must have special software, such as

clustering software, to manage virtual disk sharing and accessibility.

If a host is part of a cluster, every host in the cluster must be connected to the

storage array, and every host in the cluster must be added to the host group.

Use the following procedures to create a host group, to add or remove hosts

from a host group, or to delete a host group.

Creating a Host Group

Click the Configure tab and then click Create Host Group.

Type a name for the new host group in the Enter new host group name

text box.

In the Select hosts to add list, click the name of a host you want to add to

the host group, then click Add

The host moves to the Hosts in group list.

Repeat step 3 until all the hosts you want to add to the host group are

moved into the Hosts in group list.

Click OK

Adding a Host to a Host Group

Click the Modify tab, then click Edit Host Topology

A list of hosts and host groups appears.

In the host topology list, click the plus sign (+) to the left of the host

group name.

The host group expands to show the hosts in the group.

Click the host you want to move and click Move.

About Your Host

Select the host group to which you want to move the host.

Click OK

The host is moved into the host group.

The host retains the virtual disk mappings assigned to it, and inherits the

virtual disk mappings assigned to the group. Other hosts in the group do not

inherit the mappings of the added host.

Removing a Host From a Host Group

Click the Modify tab, then click Edit Host Topology

A list of hosts and host groups appears.

In the host topology list, click the plus sign (+) to the left of the host

group name.

The host group expands to show the hosts in the group.

Click the name of the host you want to remove from the group.

Click Remove located to the right of the list.

Click Yes to remove the host.

The host is moved out of the host group. The host retains the virtual disk

mappings assigned to it, and loses the virtual disk mappings assigned to the

group.

Moving a Host to a Different Host Group

Click the Modify tab, then click Edit Host Topology

A list of hosts and host groups appears.

In the host topology list, click the plus sign (+) to the left of the host

group name.

The host group expands to show the hosts in the group.

Click the name of the host you want to move to another group and click

Move

Select the host group to which you want to move the host.

Click OK

The host is moved to the indicated host group.

About Your Host

The host retains the virtual disk mappings assigned to it, and inherits the

virtual disk mappings assigned to the group to which it is moved. The host

loses the virtual disk mappings assigned to the group from which it was

moved.

Removing a Host Group

This section covers removing an entire host group. To remove a single host

from a host group, see "Removing a Host From a Host Group" on page 48.

Click the Modify tab, then click Edit Host Topology

In the host topology list, click the name of the host group you want to

remove.

Click Remove

Click Yes

The host group and its assigned virtual disk mappings are removed.

NOTE: If the host group contains hosts, those hosts are removed as well, including

their access to the storage array.

Host Topology

Host topology is the organization of hosts, host groups, and host interfaces

configured for a storage array. The Edit Host Topology screen accessed from

the Modify tab shows the hierarchy of the host groups, the hosts that are part

of each host group, and the host connections of each host.

You can use these tasks to change the host topology:

•

Move a host or a host connection

Rename a host group, a host, or a host connection

Add a host connection

Replace a host connection

Change a host type

MD Storage Manager automatically detects these changes for any host

running the host agent software.

About Your Host

Host Context Agent

The host context agent discovers the host topology. The host context agent

starts when the host is started and stops when the host is turned off. The

topology discovered by the host context agent can be viewed by clicking

Configure Host Access (Automatic) in the Configure tab in the MD Storage

Manager.

You must stop and restart the host context agent to see the changes to the

host topology if any of the following situations occur:

•

A new storage array is attached to the host server.

A host is added while turning on power to the RAID controller modules.

Linux

In Linux, you can stop and start the host context agent from the command

line. Use the following syntax: SMagent start or SMagent stop.

You will stop and then restart SMagent after performing either of the two

following maintenance tasks.

•

Moving a controller offline or replacing a controller.

Removing host-to-array connections from or attaching host-to-array

connections to a Linux host server.

Windows

In Windows, you can stop and start the host context agent from the Services

option of the Administrative Tools. To access the host context agent:

Select Start

→

Settings

→

Control Panel

→

Administrative Tools

→

Services

Select Start

→

Administrative Tools

→

Services.

From the list of services, select Modular Disk Storage Manager Agent

About Your Host

I/O Data Path Protection

You can have multiple host-to-array connections for a host. Make sure to

select all of the connections to the array when configuring host access to the

storage array.

NOTICE: Refer to the Installation Guide for more information on cabling

configurations.

NOTE: For maximum redundancy, you must select all host connections to the array

when manually defining host topology. For example, a host might have two host

connections. For this host, you would select two host connections.

If a component such as a RAID controller module or a cable fails, or an error

occurs on the data path to the preferred RAID controller module, virtual disk

ownership is moved to the alternate nonpreferred RAID controller module for

processing. This failure or error is called failover.

Multi-path drivers such as MPIO and MPP are installed on host systems that

access the storage array and provide I/O path failover. The multi-path driver

(MPIO in Windows and MPP in Linux) is used for failover. Automatic Virtual

Disk Transfer (AVT) is used specifically for single-port cluster failover. The

AVT feature mode is automatically selected by host type.

NOTE: You should have the multi-path driver installed on the hosts at all times,

even in a configuration where there is only one path to the storage system, such as

a single port cluster configuration.

During a failover, the virtual disk transfer is logged as a critical event, and an

alert notification is sent automatically if you have configured alert

destinations for the storage array.

Failover with Red Hat Enterprise Linux

For users running Red Hat Enterprise Linux Version 3.0 (x86), the mpp_vhba

failover driver component does not load unless a storage array is connected

and a LUN is mapped to the host server. Follow these steps to ensure proper

MPP driver loading and LUN mapping:

Ensure that the storage array is connected to the host server and that out-

of-band (Ethernet) connections to each RAID controller module exist.

Create a virtual disk and map it to LUN 0.

Reboot the host.

About Your Host

After the host is rebooted, the LUN is properly mapped and the MPP driver is

loaded. All other sequential LUNs can be created and registered to the

operating system by running hot_add.

About Your Host

Disk Groups and Virtual Disks

Following is a list of terms used throughout this chapter:

•

Disk Group — A set of physical disks that are logically grouped and

assigned a RAID level. Every disk group provides the overall capacity

required to create one or more virtual disks.

•

Virtual Disk — A logical component created to enable hosts to access

storage on the storage array. A virtual disk is created from the capacity

available on a disk group and appears as one logical component even

though it is created from more than one physical disk.

•

Storage Partitioning — Logical division of a storage array into entities

consisting of one or more virtual disks that can be accessed by a single host

or shared among hosts that are part of a host group.

•

Unconfigured Capacity — Physical disks that are not already assigned to

a disk group.

Free Capacity — Space in a disk group that has not been assigned to a

virtual disk.

Standby Hot Spare Drive — Physical disk that has been assigned as a hot

spare drive and is available to take over for any failed physical disk.

In-use Hot Spare Drive — Physical disk that has been assigned as a hot

spare drive and is currently taking over for a failed physical disk.

Snapshot Virtual Disk — Point-in-time image of a virtual disk in a

storage array.

Snapshot Repository Virtual Disk — Virtual disk containing metadata and

copy-on-write data for a particular snapshot virtual disk; automatically

created when the snapshot virtual disk is created.

•

Consistency Check — Background operation that checks the parity of

virtual disks.

Disk Groups and Virtual Disks

Creating Disk Groups and Virtual Disks

Disk groups are created in the unconfigured capacity of a storage array, and

virtual disks are created in the free capacity of a disk group. The maximum

number of physical disks supported in a disk group is 30. The hosts attached

to the storage array read and write data to the virtual disks.

NOTE: Before you can create virtual disks, you must first organize the physical

disks into disk groups and configure host access. Then you can create virtual disks

within a disk group.

NOTE: The disk group must contain physical disks of the same type. Mixing SAS

and SATA II disks in a disk group is not supported.

To create a virtual disk, use one of the following methods:

•

Create a new disk group from unconfigured capacity. You first define the

RAID level and free capacity (available storage space) for the disk group,

and then you define the parameters for the first virtual disk in the new disk

group.

•

Create a new virtual disk in the free capacity of an existing disk group. You

only need to specify the parameters for the new virtual disk.

A disk group has a set amount of free capacity that was configured when the

disk group was created. You can use that free capacity to subdivide the disk

group into one or more virtual disks.

You can create disk groups and virtual disks using an automatic configuration

procedure or using a manual configuration procedure. Automatic configuration

provides the fastest method, but with limited configuration options. Manual

configuration is a more involved process, but provides more configuration

options.

When creating a virtual disk, consider all of the possible uses for that virtual

disk, and select an appropriate capacity for those uses. For example, if a disk

group has a virtual disk that stores multimedia files (which tend to be large)

and another virtual disk that stores text files (which tend to be small), the

multimedia file virtual disk requires more capacity than the text file virtual

disk.

A disk group should be organized according to its related tasks and subtasks.

For example, if you create a disk group for the Accounting Department, you

can create virtual disks that match the different types of accounting

Disk Groups and Virtual Disks

performed in the department: Accounts Receivable (AR), Accounts Payable

(AP), internal billing, and so forth. In this scenario, the AR and AP virtual

disks probably need more capacity than the internal billing virtual disk.

NOTE: In Linux, the host must be rebooted after deleting virtual disks to reset the

/dev entries.

NOTE: Before you can use a virtual disk, you must register the disk with the host

systems. This process is described in “Host-to-Virtual Disk Mapping” on page 60.

Automatic Configuration

If you want to set up virtual disks quickly, click the Configure tab and then

click Automatic Configuration. With this option, you do not need to

configure individual options for each virtual disk. When you use automatic

configuration:

•

All available unconfigured capacity on the array is used.

All disk groups have the same RAID level.

All virtual disks have equal capacity.

The number of virtual disks created is based on the selected RAID level

and available unconfigured capacity.

•

For a RAID level 1 or 5 disk group, hot spare drives are selected

automatically based on the number of drives and types of drives available

in the storage array.

Manual Configuration

To create individual virtual disks or disk groups, click the Configure tab and

then click Create Virtual Disks. You create one disk group and virtual disk at

a time, but have control over the RAID level and capacity for each virtual disk

and disk group. Use this method if you have unique capacity requirements for

a disk group or virtual disk.

Creating a Disk Group and Virtual Disk From Unconfigured Capacity

Use the following procedure to manually create a disk group:

Click the Configure tab, then click Create Virtual Disks.

Select Unconfigured capacity on the Create Virtual Disks – Select

Capacity Type page, then click Next

Disk Groups and Virtual Disks

Select Manual on the Create Virtual Disks – Physical Disk Selection

Choices page, then click Next

Select the RAID level for the new disk group.

To select one physical disk to add to the disk group, click the disk of your

choice in the Unselected physical disks list.

To select more than one physical disk to add to the disk group, press

<Ctrl> while clicking the disks of your choice in the Unselected physical

disks list.

NOTE: When adding more than one physical disk to a disk group, it is

recommended to use disks with the same capacity. You can choose to use

disks of differing capacities; however, the overall capacity of the disk group

will be based on the smallest capacity physical disk. This means that

additional capacity on larger physical disks will not be available for use.

Click Add to add the disk(s) you selected in step 5 to the Selected physical

disks list.

Click Calculate Capacity beneath the list of selected disks to see the

capacity of the disk group you are creating.

To add or remove capacity for the proposed disk group, highlight disks in

either list and click Add or Remove

When you are satisfied with the size of the disk group, click Next at the

bottom of the page.

10 Specify the size of the first virtual disk to be created in the new disk group

in the New virtual disk capacity box.

11 Enter a name for the virtual disk in the Name text box.

12 Specify the type of files that will be stored on the virtual disk. MD Storage

Manager will optimize the virtual disk based on your selection. Your

choices include:

–

File system (typical)

Database

Multimedia

13 When you are satisfied with the parameters of the virtual disk, click Next.

Disk Groups and Virtual Disks

14 To map the new virtual disk to a host now, select Map now and assign a

logical unit number (LUN) to the virtual disk in the drop-down box.

To map the new virtual disk to a host later, select Map later

15 Click Finish to create the new disk group and the first virtual disk in the

group.

Creating a Virtual Disk From Free Capacity

To manually create a virtual disk within an existing disk group, first decide in

which disk group you want to create the new virtual disk. Then use the

following procedure to create the new virtual disk:

Click the Configure tab, then click Create Virtual Disks.

Select Free capacity on the Create Virtual Disks – Select Capacity Type

page.

Click the plus sign (+) at the left of the disk group to display the virtual

disks and free capacity in the disk group.

Click the free capacity for the disk group you want to modify, and then

click Next at the bottom of the page.

Specify the size of the virtual disk to be created in the New virtual disk

capacity box.

Enter a name for the virtual disk in the Name text box.

Specify the type of files that will be stored on the virtual disk. MD Storage

Manager will optimize the virtual disk based on your selection. Your

choices include:

–

File system (typical)

Database

Multimedia

When you are satisfied with the parameters of the virtual disk, click Next

To map the new virtual disk to a host now, select Map now and assign a

logical unit number (LUN) to the virtual disk in the drop-down box.

To map the new virtual disk to a host later, select Map later

After you create virtual disks and map them to hosts, you must register the

virtual disks with each host. Registration ensures the host recognizes the

virtual disks.

Disk Groups and Virtual Disks

If you plan to create multiple virtual disks, wait until you have created all the

virtual disks to register them. Waiting prevents you from having to register

virtual disks more than once.

Linux

NOTE: You need super-user (Linux) privileges to run the hot_addutility.

The hot_addutility is installed with the host-agent package and is run from

the Linux command line. You cannot run the hot_addutility using the MD

Storage Manager.

Windows

Windows automatically registers virtual disks.

NOTE: Virtual disks mapped to Windows Server 2008 hosts are marked offline by

default. To bring the virtual disks online, use the Disk Management MMC (if you are

using a GUI version of Windows Server 2008) or use the DiskPart utility (if you are

using a Core version of Windows Server 2008).

Hot Spare Drive Protection

Hot spare drives in a storage array provide an additional level of protection in

case a physical disk fails. Hot spare drives only take over for failed drives in a

RAID level 1, 5, or 10 disk group. Using a hot spare drive can be an advantage

because it automatically replaces a failed physical disk that is part of a disk

group.

You can see whether hot spare protection is currently set by viewing the Hot

Spare Physical Disks line in the Hardware Components area of the Summary

tab. You can also see the number of standby and in-use hot spares. A standby

hot spare drive is a physical disk that has been assigned as a hot spare drive and

is available to take over for any failed physical disk. An in-use hot spare drive is

a physical disk that has been assigned as a hot spare drive and is currently

taking over for a failed physical disk.

Automatically Configuring Hot Spares

You can choose to allow MD Storage Manager to automatically configure hot

spare drives. With automatic configuration, the controller automatically

configures the number and type of hot spare drives that will provide optimal

Disk Groups and Virtual Disks

coverage for the storage array. The number and type of hot spare drives is

determined based on the number, type, and capacity of physical disks in the

storage array.

To add hot spare drive protection using automatic configuration:

Click the Configure tab, then click Configure Hot Spares.

To automatically assign hot spare drives, click Configure Hot Spares

(Automatic)

Click Assign.

To remove hot spare drive protection using automatic configuration:

Click the Configure tab, then click Configure Hot Spares

Click Configure Hot Spares (Automatic)

Click Unassign

Click OK in the dialog box.

Manually Configuring Hot Spares

You can choose to manually configure hot spare drives for the drive sets in

your storage array. With manual configuration, you assign the type and

capacity of hot spare protection for individual drives.

Click the Configure tab, then click Configure Hot Spares.

To manually assign hot spare drives, click Configure Hot Spares

(Manual)

In the Drive sets list, click the drive you wish to protect, then click Assign.

The Assign Hot Spares dialog box appears.

In the Assign Hot Spares dialog box, click the unassigned drive you want

to configure into a hot spare physical disk, then click OK

NOTE: When manually configuring a hot spare physical disk, you must use a

physical disk type that matches the other physical disks in the disk group.

Using a SAS physical disk to replace a SATA II physical disk (or a SATA II

physical disk to replace a SAS physical disk) is not supported. Also, the hot

spare physical disk must be as large as or larger than the largest physical disk

in the disk group.

Disk Groups and Virtual Disks

Host-to-Virtual Disk Mapping

After you create virtual disks, you must map them to the host(s) connected to

the array. When you configure host-to-virtual disk mapping, consider these

guidelines:

•

Each virtual disk in the storage array can be mapped to only one host or

host group.

Host-to-virtual disk mappings are shared between controllers in the storage

array.

A unique LUN must be used by a host group or host to access a virtual

disk.

Not every operating system has the same number of LUNs available.

Creating Host-to-Virtual Disk Mappings

Create host-to-virtual disk mappings by clicking the Configure tab, then

clicking Create Host-to-Virtual Disk Mappings. When you click this link,

the Storage Manager displays a series of pages in which you select the hosts

and virtual disks to be mapped.

After you complete this configuration, verify the mapping by clicking Host-to-

Virtual Disk Mappings on the Summary tab to ensure the configuration was

created correctly.

Modifying and Removing Host-to-Virtual Disk Mapping

You might choose to modify or remove a host-to-virtual disk mapping for

several reasons, such as an incorrect mapping or reconfiguration of the storage

array. Modifying or removing a host-to-virtual disk mapping applies to both

hosts and host groups.

NOTICE: Before you modify or remove a host-to-virtual disk mapping, you must

stop any data access (I/O) to the virtual disks to prevent data loss.

Stop any data access (I/O) to the virtual disks.

Click the Modify tab and then click Edit Host-to-Virtual Disk Mappings

MD Storage Manager displays a list of virtual disks and the hosts to which

they are mapped.

Select the virtual disk you wish to modify by clicking its name.

Disk Groups and Virtual Disks

To map the disk to a different host or host group, click Change located to

the right of the list.

To remove the disk mapping to a host or host group, click Remove located

to the right of the list.

Changing Controller Ownership of the Virtual Disk

If the host has a single data-path to the MD storage array, the virtual disk

must be owned by the controller to which the host is connected. You must

configure this storage array before you start I/O operations and after the

virtual disk is created.

To assign ownership of the virtual disk to the connected controller:

Click the Modify tab and then select Change Virtual Disk

Ownership/Preferred Path.

Select the appropriate virtual disk and click Change

Storage Partitioning

A storage partition is a logical entity consisting of one or more virtual disks

that can be accessed by a single host or shared among hosts that are part of a

host group. The first time you map a virtual disk to a specific host or host

group, a storage partition is created. Subsequent virtual disk mappings to that

host or host group do not create another storage partition.

One storage partition is sufficient if:

•

Only one attached host accesses all of the virtual disks in the storage array.

All attached hosts share access to all of the virtual disks in the storage array.

When you choose this type of configuration, all of the hosts must have the

same operating system and special software (such as clustering software) to

manage virtual disk sharing and accessibility.

More than one storage partition is required if:

•

Specific hosts must access specific virtual disks in the storage array.

Hosts with different operating systems are attached to the same storage

array. In this case, a storage partition will be created for each host type.

NOTE: If Microsoft Windows is the host server, you must partition and format

the virtual disk using the Microsoft Management Console (MMC). Go to

Settings

→

Control Panel

→

Administrative Tools, or Control Panel

→

Disk Groups and Virtual Disks

Administrative Tools and select the Disk Management MMC option to format

and partition the disk. If the host server is running Windows Server 2008 Core

version, partition and format the virtual disk using the Microsoft DiskPart

utility.

Disk Group and Virtual Disk Expansion

Adding free capacity to a disk group is achieved by adding unconfigured

capacity on the array to the disk group. Data is accessible on disk groups,

virtual disks, and physical disks throughout the entire modification operation.

The additional free capacity can then be used to perform a virtual disk

expansion on a standard or snapshot repository virtual disk.

Disk Group Expansion

To add free capacity to a disk group, use the following procedure:

Click the Modify tab, then click Add Free Capacity (Physical Disks).

On the Add Free Capacity page, click the disk group you want to expand.

Click Next beneath the list of disk groups.

The Storage Manager displays information on the disk group you selected.

In the Add capacity to volume group drop-down menu, choose the

amount of unconfigured capacity to add to the disk group.

Click Finish to start the process of adding capacity to the disk group.

You can also use the Command Line Interface (CLI) on both Windows and

Linux hosts to add free capacity to a disk group. See the CLI Guide for more

information.

Once the capacity expansion is completed, additional free capacity is

available in the disk group for creation of new virtual disks or expansion of

existing virtual disks.

Virtual Disk Expansion

Virtual disk expansion is a dynamic modification operation that increases the

capacity of standard virtual disks.

NOTE: Snapshot repository virtual disks can be expanded from the CLI or from MD

Storage Manager. All other virtual disk types are expandable only from the CLI.

Disk Groups and Virtual Disks

If you receive a warning that the snapshot repository virtual disk is becoming

full, you may expand the snapshot repository virtual disk from MD Storage

Manager. See "Snapshot Repository Capacity" on page 79 for step-by-step

instructions.

Storage Array Media Scan

The media scan is a long-running operation that examines virtual disks to

verify that data is accessible. The process finds media errors before normal

read and write activity is disrupted and reports errors to the event log.

Errors discovered by the media scan include:

•

Unrecovered media error — Data could not be read on the first attempt or

on any subsequent attempts. For virtual disks with redundancy protection,

data is reconstructed, rewritten to the physical disk, and verified and the

error is reported to the event log. For virtual disks without redundancy

protection (RAID 0 virtual disks and degraded RAID 1 and RAID 5 virtual

disks), the error is not corrected but is reported to the event log.

•

Recovered media error — Data could not be read by the physical disk on

the first attempt but was successfully read on a subsequent attempt. Data

is rewritten to the physical disk and verified and the error is reported to the

event log.

•

Redundancy mismatches error — The first 10 redundancy mismatches

that are found on the virtual disk are reported to the event log.

Unfixable error — Data could not be read and parity or redundancy

information could not be used to regenerate the data. For example,

redundancy information cannot be used to reconstruct the data on a

degraded virtual disk. The error is reported to the event log.

Changing Media Scan Settings

Click the Tools tab, then click Change Media Scan Settings.

Select the number of days allowed for the media scan to complete in the

Scan duration (days) box.

NOTE: Performing the media scan frequently may negatively impact the

performance of other operations. Adjust scan duration based on the

performance needs of your storage array.

Disk Groups and Virtual Disks

In the Select virtual disks to scan box, click the virtual disk you want to

include in the media scan.

NOTE: Press <Ctrl> and click to add more than one virtual disk to the media

scan. Click Select All to include all virtual disks in the media scan.

Check the Scan selected virtual disks checkbox to enable scanning, then

choose either With consistency check or Without consistency check

Consistency check enables parity data to be checked during the media

scan.

Click OK to accept the updated media scan settings.

Suspending the Media Scan

You cannot perform a media scan while performing another long-running

operation on the disk drive such as reconstruction, copy-back,

reconfiguration, volume initialization, or immediate availability formatting. If

you want to perform another long-running operation, you should suspend the

media scan.

NOTE: A background media scan is the lowest priority of the long-running

operations.

Click the Tools tab, then click Change Media Scan Settings

Check the Suspend media scan checkbox.

Click OK to suspend media scanning.

Microsoft Services

Virtual Disk Service

The Microsoft Virtual Disk Service (VDS) is supported on your RAID storage

array. Microsoft VDS is a set of application programming interfaces (APIs)

that provides a single interface for managing disks and other storage

hardware, including creating volumes on those disks.

Disk Groups and Virtual Disks

Volume Shadow-Copy Service

The Microsoft Volume Shadow-copy Service (VSS) is a storage management

interface for Microsoft Windows operating systems. VSS enables your storage

array to interact with third-party applications that use the VSS Application

Programming Interface.

Virtual disks that will be used as source virtual disks for VSS snapshots should

have names no longer than 16 characters. The VSS hardware provider uses the

source virtual disk name as a prefix for the snapshot and repository virtual

disk names. The resulting snapshot and repository names will be too long if

the source virtual disk name exceeds 16 characters.

For more information on VDS and VSS, see www.microsoft.com.

Disk Groups and Virtual Disks

Premium Feature—Snapshot Virtual

Disks

NOTE: If you ordered this feature, you received a Premium Feature Activation card

shipped in the same box as your Dell PowerVault MD storage array. Follow the

directions on the card to obtain a key file and to enable the feature.

A snapshot virtual disk is a point-in-time image of a virtual disk in a storage

array. It is not an actual virtual disk containing data; rather, it is a reference to

the data that was contained on a virtual disk at a specific time. A snapshot

virtual disk is the logical equivalent of a complete physical copy. However, you

can create a snapshot virtual disk much faster than a physical copy, using less

disk space.

The virtual disk on which the snapshot is based, called the source virtual disk,

must be a standard virtual disk in your storage array. Typically, you create a

snapshot so that an application, such as a backup application, can access the

snapshot and read the data while the source virtual disk remains online and

accessible.

NOTE: No I/O requests are permitted on the source virtual disk while the virtual

disk snapshot is being created.

A snapshot repository virtual disk containing metadata and copy-on-write

data is automatically created when a snapshot virtual disk is created. The only

data stored in the snapshot repository virtual disk is that which has changed

since the time of the snapshot.

After the snapshot repository virtual disk is created, I/O write requests to the

source virtual disk resume. Before a data block on the source virtual disk is

modified, however, the contents of the block to be modified are copied to the

snapshot repository virtual disk for safekeeping. Because the snapshot

repository virtual disk stores copies of the original data in those data blocks,

further changes to those data blocks write only to the source virtual disk. The

snapshot repository uses less disk space than a full physical copy, because the

only data blocks that are stored in the snapshot repository virtual disk are

those that have changed since the time of the snapshot.

Snapshot Virtual Disks

When you create a snapshot virtual disk, you specify where to create the

snapshot repository virtual disk, its capacity, and other parameters. You can

disable or delete the snapshot virtual disk when you no longer need it, such as

when the backup is complete. If you disable a snapshot virtual disk, you can

re-create and reuse it the next time you perform a backup (see "Re-creating

Snapshot Virtual Disks" on page 80 for more information). If you delete a

snapshot virtual disk, you also delete the associated snapshot repository

virtual disk.

NOTE: Deleting a snapshot does not affect data on the source virtual disk.

The information that follows will better prepare users for using the snapshot

virtual disk premium feature of the Dell PowerVault systems.

NOTE: The following host preparation sections also apply when using the snapshot

feature through the CLI interface.

Creating a Snapshot Virtual Disk Using the

Simple Path

You can choose the simple path to create a snapshot virtual disk if the disk

group of the source virtual disk has the required amount of free space. A

snapshot repository virtual disk requires a minimum 8 MB of free capacity.

The destination of a snapshot repository virtual disk is determined based on

the free capacity available in the disk group.

If 8 MB of free capacity is not available in the disk group of the source virtual

disk, the Create Snapshot Virtual Disks feature defaults to the advanced

path (see "Creating a Snapshot Virtual Disk Using the Advanced Path" on

page 73). In the advanced path option, you can choose to place the snapshot

repository virtual disk in another disk group or you can use unconfigured

capacity on the storage array to create a new disk group.

About the Simple Path

Using the simple path, you can specify the following parameters for your

snapshot virtual disk:

•

Snapshot Virtual Disk Name — A user-specified name that helps you

associate the snapshot virtual disk to its corresponding snapshot repository

virtual disk and source virtual disk.

Snapshot Virtual Disks

•

Snapshot Repository Virtual Disk Name — A user-specified name that

helps you associate the snapshot repository virtual disk to its corresponding

snapshot virtual disk and source virtual disk.

Using the simple path, the following defaults are used for the other

parameters of a snapshot virtual disk:

•

Capacity Allocation — The snapshot repository virtual disk is created

using free capacity on the same disk group where the source virtual disk

resides.

•

Host-to-Virtual Disk Mapping — The default setting is Map now

Percent Full — When the snapshot repository virtual disk reaches the

specified repository full percentage level, the event is logged in the Main

Event Log (MEL). The default snapshot repository full percentage level is

50 percent of the source virtual disk.

•

Snapshot Repository Virtual Disk Full Conditions — When the snapshot

repository virtual disk becomes full, you are given a choice of failing write

activity to the source virtual disk or failing the snapshot virtual disk.

Preparing Host Servers to Create the Snapshot Using the Simple Path

NOTICE: Before using the Snapshot Virtual Disks Premium Feature in a Microsoft

Windows clustered configuration, you must first map the snapshot virtual disk to

the cluster node that owns the source virtual disk. This ensures that the cluster

nodes correctly recognize the snapshot virtual disk.

Mapping the snapshot virtual disk to the node that does not own the source virtual

disk before the Snapshot enabling process is completed can result in the operating

system mis-identifying the snapshot virtual disk. This, in turn, can result in data loss

on the source virtual disk or an inaccessible snapshot.

For details on mapping the snapshot virtual disk to the secondary node, refer to the

Dell PowerEdge™ Cluster SE600W Systems Installation and Troubleshooting Guide

on support.dell.com

NOTE: You can create concurrent snapshots of a source virtual disk on both the

source disk group and on another disk group.

Snapshot Virtual Disks

Before creating a Snapshot Virtual Disk, note the following:

•

The following types of virtual disks are not valid source virtual disks:

snapshot repository virtual disks, snapshot virtual disks, target virtual disks

that are participating in a virtual disk copy.

NOTE: Virtual Disk Copy is an Advanced (Premium) feature.

•

You cannot create a snapshot of a virtual disk that contains unreadable

sectors.

You must satisfy the requirements of your host operating system for

creating snapshot virtual disks. Failure to meet the requirements of your

host operating system results in an inaccurate point-in-time image of the

source virtual disk or the target virtual disk in a virtual disk copy.

NOTICE: Before you create a new point-in-time image of a source virtual disk, stop

any data access (I/O) activity or suspend data transfer to the source virtual disk to

ensure that you capture an accurate point-in-time image of the source virtual disk.

Close all applications, including Windows Internet Explorer , to make sure all I/O

activity has stopped.

NOTE: Removing the drive letter of the associated virtual disk(s) in Windows or

unmounting the virtual drive in Linux will help to guarantee a stable copy of the

drive for the Snapshot.

Before creating a snapshot virtual disk, the host server has to be in the proper

state. To ensure that the host server is properly prepared to create a snapshot

virtual disk, you can either use an application to carry out this task, or you can

perform the following steps:

Stop all I/O activity to the source.

Using your Windows system, flush the cache to the source. At the host

prompt, type

SMrepassist -f <filename-identifier>

and press <Enter>. See "SMrepassist Utility" on page 102 for more

information.

Snapshot Virtual Disks

Remove the drive letter(s) of the source in Windows or unmount the

virtual drive(s) in Linux to help guarantee a stable copy of the drive for the

Snapshot. If this is not done, the snapshot operation will report that it has

completed successfully, but the snapshot data will not be updated properly.

NOTE: Verify that the virtual disk has a status of Optimal or Disabled by

clicking the Summary tab and then clicking Disk Groups & Virtual Disks.

Follow any additional instructions for your operating system. Failure to

follow these additional instructions can create unusable snapshot virtual

disks.

NOTE: If your operating system requires additional instructions, you can find those

instructions in your operating system documentation.

After your host server has been prepared, see "Creating the Snapshot Using

the Simple Path" on page 71 to create the snapshot using the simple path.

If you want to use a snapshot regularly, such as for backups, use the Disable

Snapshot and Re-create Snapshot options to reuse the snapshot. Disabling

and re-creating snapshots preserves the existing virtual disk-to-host mappings

to the snapshot virtual disk.

Creating the Snapshot Using the Simple Path

NOTE: Removing the drive letter of the associated virtual disk in Windows or

unmounting the virtual drive in Linux will help to guarantee a stable copy of the

drive for the Snapshot.

After first preparing the host server(s) as specified in the preceding procedure,

complete the following steps to create a virtual disk snapshot using the simple

path:

In MD Storage Manager, click the Configure tab, and then click Create

Snapshot Virtual Disks

The Additional Instructions dialog appears; click Close in this dialog to

continue.

Click the plus sign (+) to the left of the disk group to expand it, then click

the virtual disk from which you want to create a snapshot.

Click Next

No Capacity Exists warning appears if there is not enough space in the

disk group of the source virtual disk to create the snapshot.

Snapshot Virtual Disks

On the Create Snapshot Virtual Disks – Select Path screen, select the

Simple path.

NOTE: A snapshot repository virtual disk requires 8 MB of free space. If the

required free space is not available in the disk group of the source virtual disk,

the Create Snapshot Virtual Disks feature defaults to the advanced path.

Click Next.

Type a name for the snapshot in the Snapshot virtual disk name text box.

Type a name for the snapshot repository virtual disk in the Snapshot

repository virtual disk name text box.

Click Next.

10 Choose whether to map the virtual disk to a host or host group now or

later:

To map now, select Map now, select a host or host group by clicking it, and

then assign a LUN.

To map later, select Map later

11 Click Finish to create the snapshot virtual disk and the associated

snapshot repository virtual disk.

12 After you have created one or more snapshot virtual disks, mount or

reassign a drive letter of the source virtual disk.

13 If needed, assign host-to-virtual disk mapping between the snapshot

virtual disk and the host operating system that accesses it.

NOTE: In some cases, depending on the host type and any virtual disk

manager software in use, the software prevents you from mapping the same

host to both a source virtual disk and its associated snapshot virtual disk.

14 If you are using a Linux-based system, run the hot_addutility to register

the snapshot virtual disk with the host operating system.

NOTE: The hot_add utility is not needed for Windows.

Snapshot Virtual Disks

Creating a Snapshot Virtual Disk Using the

Advanced Path

About the Advanced Path

Use the advanced path to choose whether to place the snapshot repository

virtual disk on free capacity or unconfigured capacity and to change the

snapshot repository virtual disk parameters. You can select the advanced path

regardless of whether you use free capacity or unconfigured capacity for the

snapshot virtual disk.

Using the advanced path, you can specify the following parameters for your

snapshot virtual disk:

•

Snapshot Virtual Disk Name — A user-specified name that helps you

associate the snapshot virtual disk to its corresponding snapshot repository

virtual disk and source virtual disk.

Snapshot Repository Virtual Disk Name — A user-specified name that

helps you associate the snapshot repository virtual disk to its corresponding

snapshot virtual disk and source virtual disk.

Capacity Allocation — This parameter allows you to choose where to

create the snapshot repository virtual disk. You can allocate capacity by

using one of the following methods:

–

Use free capacity on the same disk group where the source virtual disk

resides.

–

Use free capacity on another disk group.

Use unconfigured capacity and create a new disk group for the

snapshot repository virtual disk.

Dell recommends placing the snapshot repository virtual disk within the

disk group of the source virtual disk. This ensures that if drives associated

with the disk group are moved to another storage array, all the virtual disks

associated with the snapshot virtual disk remain in the same group.

•

Percent Full — When the snapshot repository virtual disk reaches the

user-specified repository full percentage level, the event is logged in the

Major Event Log (MEL). The default snapshot repository full percentage

level is 50% of the source virtual disk.

Snapshot Virtual Disks

•

Snapshot Repository Virtual Disk Full Conditions — You can choose

whether to fail writes to the source virtual disk or fail the snapshot virtual

disk when the snapshot repository virtual disk becomes full.

Host-to-Virtual Disk Mapping — Choose whether to map the snapshot

virtual disk to a host or host group now or to map the snapshot virtual disk

later. The default setting is Map later.

Preparing Host Servers to Create the Snapshot Using the Advanced Path

NOTICE: Before using the Snapshot Virtual Disks Premium Feature in a Microsoft

Windows clustered configuration, you must first map the snapshot virtual disk to

the cluster node that owns the source virtual disk. This ensures that the cluster

nodes correctly recognize the snapshot virtual disk.

Mapping the snapshot virtual disk to the node that does not own the source virtual

disk before the Snapshot enabling process is completed can result in the operating

system mis-identifying the snapshot virtual disk. This, in turn, can result in data loss

on the source virtual disk or an inaccessible snapshot.

For details on mapping the snapshot virtual disk to the secondary node, refer to the

Dell PowerEdge™ Cluster SE600W Systems Installation and Troubleshooting Guide

on support.dell.com

The destination of a snapshot repository virtual disk is determined based on

the free capacity available in the disk group. A snapshot repository virtual disk

requires a minimum 8 MB of free capacity. You can choose your preferred

creation path—simple or advanced—if the disk group of the source virtual

disk has the required amount of free space.