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HP E5000 Messaging System for Microsoft
Exchange Administrator Guide
Abstract
This document explains how to install, configure, and maintain all models of the HP E5000 Series Messaging System for
Microsoft Exchange. The intended audience is decision makers, IT support staff, and project managers involved in planning and deploying Microsoft Exchange Server 2010 solutions. For more information on Exchange 2010 terminology and best practices, go to http://www.hp.com/solutions/activeanswers/exchange . For the latest version of this guide, go to www.hp.com/ support/manuals . Select Solution appliances in the solutions group, and then select an E5000 product.
HP Part Number: 5697-1789
Published: June 2012
Edition: 3
© Copyright 2011, 2012 Hewlett-Packard Development Company, L.P.
Confidential computer software. Valid license from HP required for possession, use or copying. Consistent with FAR 12.211 and 12.212, Commercial
Computer Software, Computer Software Documentation, and Technical Data for Commercial Items are licensed to the U.S. Government under vendor's standard commercial license.
The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.
Acknowledgments
Microsoft®, Windows®, and Windows Server® are registered trademarks of Microsoft Corporation in the United States and other countries.
Revision History
Edition Date Description
First
Second
Third
February 2011
September 2011
August 2012
Software
Version
1.0
2.01
2.03
First release
Documented E5000 Configuration Wizard, Exchange Deployment Tool, E5000
System Manager, and System Management Homepage improvements. Added appendices for E5000 error codes and troubleshooting. Updated details for using the EMU CLI and physical interface. Updated information about network connections.
Documented new Recovery LUN Manager and Storage Viewer features.
Documented E5000 Configuration Wizard, Exchange Deployment Tool, and
Alerts and Email improvements. Added requirement for installing Exchange
2010 SP2. Updated information about network connections. Updated details for using the EMU CLI and physical interface.
Contents
1 HP E5000 Messaging Systems for Microsoft Exchange....................................7
2 Preparing to install the messaging system.....................................................10
4 Configuring the messaging system software.................................................23
5 Monitoring and troubleshooting the messaging system..................................34
6 Upgrading the messaging system...............................................................61
7 Removing and replacing hardware components............................................69
Contents 3
8 Messaging system recovery......................................................................128
9 Support and other resources....................................................................131
4 Contents
10 Documentation feedback.......................................................................133
D Regulatory compliance notices.................................................................180
Contents 5
6 Contents
1 HP E5000 Messaging Systems for Microsoft Exchange
The HP E5000 Messaging System for Microsoft Exchange (“messaging system”) is an integrated hardware-software solution that simplifies the initial deployment of Microsoft Exchange Server
2010. Each messaging system features HP server blades and dense disk storage in a single 3U enclosure (
). E5000 expansion disk enclosures are optional or standard depending on the model. The following models are available:
•
HP E5300 G2 Messaging System for Microsoft Exchange
•
HP E5500 G2 Messaging System for Microsoft Exchange
•
HP E5700 G2 Messaging System for Microsoft Exchange
Features
The HP E5000 Messaging System provides the following advantages:
•
Each system ships from the factory with preintegrated hardware and preloaded software, to significantly reduce the time and complexity of deploying Exchange 2010.
•
Built on the HP converged application platform, which combines two server blades and dense storage drawer into a single enclosure
•
Simplified deployment with presized, tested, and optimized configurations
•
Lower overall TCO with reduced footprint and lower energy consumption
•
Presized configurations deliver high availability in hours instead of days
•
Specially developed setup tools (setup wizards) provide guided setup assistance, performing many of the complex and time-consuming tasks needed to configure and deploy a high availability messaging system. The setup tools make it easy to get both Windows and Exchange configured and running quickly.
•
Automatic database-level recovery from failures
•
HP and Microsoft management integration, including Microsoft Server Manager and System
Center and HP Systems Insight Manager and Integrated Lights Out (iLO)
For more information about E5000 Messaging System features, go to: http://www.hp.com/go/E5000
Hardware components
and
show front and rear views of the messaging system.
Features 7
Figure 1 Front view
1. Disk drive drawer
2. Server blade 1, Bay 1
3. Server blade 2, Bay 2
4. Chassis fault LED
Figure 2 Rear view
1. System fan
2. HP 2-port Ethernet I/O module (2) (These modules connect to the NIC located on the server blade motherboard)
3. Drive fan
4. SAS I/O module (2)
5. Power button
6. Power supply (2)
7. HP 2-port Ethernet I/O module. These modules (2) connect to the NIC located on top of the Mezzanine card on the server blade. Standard on the E5500 and E5700 and can be added as option for the E5300.
8. Management port (for iLO and Enclosure Manager Unit)
8
Software components
The E5000 Messaging System includes factory integration of the hardware and preloading of the
E5000 software image, including Windows Server 2008 R2, which has been preinstalled and activated. The E5000 system configuration also includes the HP E5000 Messaging System
HP E5000 Messaging Systems for Microsoft Exchange
Configuration Wizard and HP E5000 Messaging System Exchange Deployment Tool, which are used to deploy the Exchange servers and storage in their optimal configurations.
The E5000 Configuration Wizard assists during the initial out of box setup and configuration of the messaging system. This tool helps to configure each of the customer-specific settings needed to prepare the server.
Exchange 2010 is then installed and configured using the E5000 Exchange Deployment Tool, which has been developed to automate many of the deployment tasks.
To provide ongoing monitoring and facilitate management, the messaging system includes the
System Manager, which provides a snapshot view of the health and status of the messaging system and tools to manage firmware updates.
Software components 9
2 Preparing to install the messaging system
Before you install the messaging system, plan how you will integrate the system into your network and whether you will use Insight Remote Support (see
“HP Insight Remote Support software”
(page 58) ). See the HP E5000 Messaging System for Microsoft Exchange Installation Checklist for
general planning information: http://h20564.www2.hp.com/portal/site/hpsc/public/kb/docDisplay/?
docId=emr_na-c03168643
Exchange Server 2010 network requirements
Exchange Server 2010 includes a high-availability feature called DAG, which requires two networks:
•
Client/MAPI network provides the following functions:
◦ Server-to-server connectivity between the CAS, Hub Transport, and Mailbox server roles
◦ Server-to-server communication with domain controllers, global catalog servers, and name services like DNS.
◦ Management of Exchange client traffic such as Outlook and Outlook Web Access
◦ Exchange client access to mail on CASs.
◦ Replication, if the replication network is unavailable.
•
Replication network provides the cluster heartbeat, Exchange Server 2010 log shipping, and database seeding or reseeding when available.
IMPORTANT: The Replication and MAPI networks should be isolated from each other, preventing
Client/MAPI and Replication network traffic from being routed between networks.
Network connections
To facilitate manageability and diagnostic services on the messaging system, the server blades require network connections to the EMU. The EMU provides connections to two types of management processors:
•
EMU processor
• iLO processor for each server blade
The EMU and iLO NIC port should be connected to the Client/MAPI network or to the dedicated management network if used. For additional information, see
and
and
“Configure the EMU and iLO management processors” (page 17)
. Because many administrators use iLO remote management functions, including virtual console, HP recommends that you configure the EMU so that administrators have remote network access to the unit. The
EMU and iLO management processors support DHCP and static network addressing. To simplify initial setup, the processors are configured for static addressing as follows:
•
EMU: 10.0.0.10
•
Server 1 iLO: 10.0.0.11
•
Server 2 iLO: 10.0.0.12
•
Subnet: 255.255.255.0
NOTE: The EMU must share a LAN with the server blades.
shows the network ports on the rear of the messaging system.
10 Preparing to install the messaging system
Figure 3 Network ports
1. Server 1, NIC port 1
2. Server 2, NIC port 1
3. Server 1, NIC port 2
4. Server 2, NIC port 2
5. E5000 enclosure power button
6. Server 2, Mezzanine NIC, port 2
7. Server 1, Mezzanine NIC, port 2
8. Server 2, Mezzanine NIC, port 1
9. Server 1, Mezzanine NIC, port 1
10. Enclosure Manager NIC (includes iLO connections for both servers)
NOTE: E5300 Mezzanine NICs (6, 7, 8, and 9) are optional on E5300 servers.
For the initial configuration, the EMU port must be connected directly to the administrator's laptop or PC, as described in
“Configure the EMU and iLO management processors” (page 17) .
The E5500 and E5700 enclosures have more NIC ports than the E5300 enclosure, and they provide more network connection options.
shows the recommended management network configuration.
While alternate network ports can be used for network-based backup, they can also be used for
EMU connectivity. As with the E5300, the Client/MAPI or Replication network can also be used to establish EM network connectivity to the servers.
NOTE: NIC teaming is not recommended or supported with these interfaces.
By default, the E5000 Configuration Wizard sets up the following networks:
•
Client/MAPI network
◦ This network is labeled as the MAPI network on each server.
◦ The default setting is dynamic (DHCP), but you can use the E5000 Configuration Wizard to configure static addressing.
•
Replication network
◦ The E5000 Configuration Wizard automatically sets these static addresses by default
(but also allows you to change them):
– Server 1: 10.0.0.1
– Server 2: 10.0.0.2
Use the short Ethernet cable shipped with the messaging system to connect the Replication network ports, as shown in
or
.
Network connections 11
•
Management network
◦ The default setting is dynamic (DHCP) addressing, but you can change this setting as needed.
◦ HP recommends that the management network be on the same network as the EMU and iLO NIC port.
◦ This NIC is not standard on the E5300 model.
•
Alternate network
◦ The default setting is dynamic (DHCP) addressing, but you can change this setting as needed.
◦ This NIC is not standard on the E5300 model.
shows the recommended E5300 network configuration expected by the E5000
Configuration Wizard described in
“Configuring the messaging system software” (page 23) .
Figure 4 Recommended E5300 network configuration
1. Client/MAPI network
2. Replication network cable
3. Domain controller
4. Connection to EMU
shows the typical E5500/5700 network configuration expected by the E5000
Configuration Wizard, as described in
“Configuring the messaging system software” (page 23)
.
12 Preparing to install the messaging system
Figure 5 Typical E5500/5700 network configuration
1. Client/MAPI network
2. Replication network cable
3. Connections to management network
4. Domain controller
5. Connection to EMU
6. Management network
Network connections 13
3 Installing the messaging system
This chapter explains how to install the messaging system hardware.
Verify the kit contents
Remove the contents, ensuring that you have all of the following components. If components are missing, contact HP technical support.
Hardware
•
HP E5000 Messaging System base system configuration
•
Expansion disk enclosures if deploying an E5700 configuration or if purchased as an upgrade option for other configurations
•
Rail kit
•
Power cords
•
Short CAT5 Ethernet cable
•
0.5m mini SAS cable and 2m mini SAS cable per external disk enclosure
Media and documentation
•
HP ProLiant Essentials Integrated Lights-Out Advanced Pack
•
End User License Agreement
•
HP E5000 System Recovery DVD
•
Certificate of Authenticity Card
•
Safety and Disposal Documentation CD
Locate and record the product number, serial number, and SAID number
Before you begin installation, locate and record the product number of the messaging system, serial number, and support contract service agreement ID (SAID) number.
The product number of the messaging system and serial number are located in three places:
•
Top of the messaging system
•
Back of the messaging system on a pull-out tab
•
On the messaging system shipping box
The SAID number is listed on your service contract agreement (see
“Obtaining the Service Agreement
Unpack and rack the messaging system hardware
WARNING!
The messaging system enclosure is heavy. Always use at least two people to move the messaging system into the rack.
14 Installing the messaging system
1.
If your messaging system is delivered in a rack, proceed to Step 2. If you ordered the messaging system without the rack, install the rail kit and enclosure in the rack using the installation instructions that are included with the rail kit.
IMPORTANT: Ensure that cabling in the back of the rack system does not interfere with system operation or maintenance. Bind cables loosely with cable ties and route the excess out of the way, along the side of the rack, to keep system components and indicators visible and accessible.
Figure 6 Messaging system installed in a rack
1. Messaging system enclosure
2-5. Expansion disk enclosures (optional)
6-7. Cable connection, with no bend radius smaller than 5 cm
2.
If you purchased expansion disk enclosures, rack and cable the expansion disk enclosures before moving to the next step. For recommended cabling, see
“Cable expansion disk enclosures” (page 16) .
3.
Cable the messaging system to your network and attach the power cords. See
for connecting the power cables. For information on network configurations, see
“Preparing to install the messaging system” (page 10) .
Unpack and rack the messaging system hardware 15
Cable expansion disk enclosures
The following figures show the correct cabling of expansion disk enclosures to the messaging system chassis. Numbers represent the order of attachment.
shows an E5700 base configuration with two expansion disk enclosures.
Figure 7 E5700 base configuration with two expansion disk enclosures
1. E5700
2-3. Expansion disk enclosures
4. SAS cable connecting expansion disk enclosure 1 (green cable)
5. Green color code for upper SAS I/O module
6. Red color code for lower SAS I/O module
7. SAS cable connecting expansion disk enclosure 2 (red cable)
shows an E5700 maximum configuration with four expansion disk enclosures.
16 Installing the messaging system
Figure 8 E5700 maximum configuration with four expansion disk enclosures
1. E5700
2–5. Expansion disk enclosures
6. SAS cable connecting expansion disk enclosure 1 (green cable)
7. Green color code for upper SAS I/O module
8. Red color code for lower SAS I/O module
9. SAS cable connecting expansion disk enclosure 2 (red cable)
Power on the messaging system
1.
Power on any expansion disk enclosures.
2.
Power on the messaging system by pushing the power button on the back of the chassis.
Once the messaging system power is on, power on the server blades if they do not automatically power on.
Configure the EMU and iLO management processors
Before configuring the management processors, verify the following:
•
You have determined whether the network ports on the server are to use DHCP or static addresses. If the network ports are to use static addresses, you must provide the addresses.
•
The server NIC ports are cabled to the appropriate switches or VLANs (see
“Network connections” (page 10)
).
•
For this step, the EMU port should not be connected to a switch. You can connect the EMU port to a switch after the EMU and iLO NICs are configured.
Configure the EMU and iLO management processors for both servers as follows:
Power on the messaging system 17
1.
Connect a system (the configuration system) in the environment or a laptop to the EMU port
(
). You can use either a crossover or a regular Ethernet cable.
Figure 9 EMU NIC port connection
2.
Configure the networking properties for the local system: a.
Open Control Panel, select Network Sharing Center or Network Connections, and navigate to Local Area Connections.
b.
Select Properties
→Internet Protocol, and then select Properties.
c.
If Use the following IP address: is selected, record values for the following items and restore them after completing the EMU and iLO setup:
•
IP address
•
Subnet mask
•
Default gateway d.
Enter the following values:
•
IP address: 10.0.0.20
•
Subnet mask: 255.255.255.0
e.
Before continuing, ping the following IP addresses to test connectivity to the EMU and the iLO located in each of the servers: 10.0.0.10, 10.0.0.11, and 10.0.0.12. The EMU and iLO interfaces have been assigned IP addresses during factory setup. You must either update the factory values with site-specific static IP addresses or configure the management processors to use DHCP IP addressing.
3.
Configure iLO on the server blades: a.
Open a web browser and log in to iLO using the address: http://10.0.0.11. You are prompted to enter the user name and password. The password for the Administrator
account is located on a tear-away label on the back of the server blade ( Figure 11
).
After you have logged into iLO, HP recommends that you change the administrator password. To do so, select User Administration under Administration in the iLO management interface.
b.
Configure the network as required for your environment. Select Network under
Administration in the iLO management interface. You can either enable DHCP or edit the
IP address details and enter site-specific network settings. Click Apply to save your settings.
c.
Repeat the process on the other server blade. Open a web browser and log in to iLO using the address: http://10.0.0.12.
18 Installing the messaging system
4.
Configure the EMU: a.
Connect to the Enclosure Manager software using an ssh compatible tool like PuTTY. In the PuTTY session basic options, enter the EMU IP address (10.0.0.10) and port (22), and select SSH for the connection type (
NOTE: See
for information on using CLI commands.
Figure 10 Connecting to the Enclosure Manager software b.
After you have connected to the EMU port, set the following attributes:
•
EMU (DNS) name
•
Rack name
•
EMU password (located on the tear-away label on the back of the server blade; see
)
•
IP addressing method
◦ To change the static IP address, type the command set ipconfig static at the command line prompt and follow the instructions.
◦ To change the EMU addressing to DHCP, type set ipconfig dhcp at the command line prompt.
Figure 11 Tear-away label location
Example 1 Setting attributes
CustomerEMU-dnsName> set em name CustomerEMU-dnsName
CSP Enclosure Manager name changed to CustomerEMU-dnsName.
CustomerEMU-dnsName> set rack name CustomerRackName
Changed rack name to "CustomerRackName".
Configure the EMU and iLO management processors 19
CustomerEMU-dnsName> set password
New Password: ********
Confirm : ********
Changed password for the "Administrator" user account.
CustomerEMU-dnsName>
NOTE: You will not be able to connect to iLO or the EMU from the configuration system until you change the network settings on the configuration system.
5.
Complete the configuration: a.
Connect the EMU port to the appropriate switch/VLAN/subnet.
b.
Log in to the EMU using ssh and the newly assigned EMU name and validate connectivity.
It is assumed that the EMU name is in the DNS.
Example 2 Verifying connectivity
CustomerEMU-dnsName> show server list all
Bay iLO Name iLO IP Address Status Power UID
--- ----------------------------- --------------- -------- ------- ---
1 ILOMXQ0110FJ9 16.78.90.51 OK On Off
2 ILOMXQ0110FHU 16.78.90.113 OK On Off
Totals: 2 server blades installed, 2 powered on.
Accessing the messaging system
For initial messaging system configuration you must have console access for each of the server blades. You can use either a local I/O diagnostic (SUV) cable or an iLO connection. The iLO connection is the preferred method because it allows for remote access.
For remote access, open a web browser and enter the iLO name or IP address for the server blade located in Bay 1. For more information about IP addressing and subnets, see
. Log in using the iLO administrator name and newly created password for that blade.
For instructions on using iLO, see the Integrated Lights Out user guide available from http:// www.hp.com/go/ilo . On the iLO web page, select More iLO Documentation.
If you are using the direct connect method, connect the supplied SUV cable to the front of the messaging system server blades in the following sequence: keyboard, mouse, monitor cable, and monitor power cable.
NOTE: The keyboard, mouse, and monitor are not provided with the messaging system.
20 Installing the messaging system
Figure 12 Keyboard, mouse, and monitor
1. Messaging system enclosure
2. Monitor
3. Keyboard
4. Mouse
Adding expansion disk enclosures to an installed messaging system
1.
Rack the expansion disk enclosures.
2.
Use the Exchange Management Console or the Exchange Management Shell to failover the databases from the Bay 1 server to the Bay 2 server.
3.
Power on the expansion disk enclosures.
CAUTION: In some cases, when adding new expansion disk enclosures, disks are seen through a single path. This condition is reported as an error in the diagnostics initially performed by the E5000 Configuration Wizard. To fix this problem, power cycle the expansion disk enclosures by pressing and holding the button on the back of the unit, then pressing and holding the button once again to power them back on. Then run the E5000 Configuration
Wizard from the All Programs shortcut.
For instructions, see
“Configuring server software” (page 23)
.
The messaging system identifies the new storage and creates new LUNs.
4.
Once the E5000 Configuration Wizard has completed, on the Bay 2 server, use the Exchange
Management Console or the Exchange Management Shell to manually failover the databases from the Bay 2 server to the Bay 1 server.
5.
Rebalance the databases using the RedistributeActiveDatabases.ps1 script located
(by default) at \Program Files\Microsoft\Exchange Server\V14\scripts. Run this script within the Exchange Management Console.
6.
Within the Microsoft Exchange Management Console, select New Mailbox Database: a.
Name the new database the next item in the sequence (for example, DB10).
b.
Select a server.
c.
Set the path based on the newly created LUNs.
7.
Use Microsoft Exchange Management Console to add a mailbox copy.
Adding hard drives to an installed E5000 system
If you are running an E5000 system with fewer than the maximum number of hard drives, you can add drives as follows:
1.
Install the new drives as described in
“Replacing the drive drawer hard drive” (page 106)
.
Adding expansion disk enclosures to an installed messaging system 21
2.
Run the E5000 Configuration Wizard on the first server manually from the All Programs shortcut. The wizard recognizes the new storage and creates new LUNs. Exit the wizard at the first opportunity.
3.
Run the wizard on the second server.
4.
Within the Microsoft Exchange Management Console, select New mailbox database and name the new database sequentially. For example, if the previous database name is DB9, name the new database DB10. After naming the new database, complete the following steps: a.
Select a server.
b.
Set the path based on the newly created LUNs.
5.
Use Microsoft Exchange Management Console to add a mailbox copy on the other server.
22 Installing the messaging system
4 Configuring the messaging system software
This chapter explains how to configure system software using the E5000 Configuration Wizard and how to deploy Microsoft Exchange Server 2010 using the E5000 Exchange Deployment Tool.
IMPORTANT: To configure the messaging system, you must run these tools on each server blade.
HP recommends that you fully complete the E5000 Configuration Wizard and E5000 Exchange
Deployment Tool on the Bay 1 server blade before beginning to configure the Bay 2 server blade.
After you have completed the initial configuration, be sure to install any available software updates as described in
“Upgrading E5000 software” (page 61) .
Configuring server software
The E5000 should be powered on and the network ports cabled for your network configuration, including the EMU port. For configurations that use expansion disk enclosures, such as the E5700, all expansion disk enclosures should be cabled to the messaging system and powered on. Complete the following steps, first on server 1, and then on server 2. Do not start on the second server until you have completed the steps on server 1. When the server is powered on for the first time, it completes the initial Windows configuration process and then launches the E5000 Configuration
Wizard.
To configure the software:
1.
Enter your locale information in the Windows setup dialog box and accept the license terms.
The Windows setup completes in approximately 15 minutes and the server reboots. Upon reboot, the server automatically logs on with the default password (HPinvent!) and the E5000
Configuration Wizard starts. After reading the welcome screen, click Next.
NOTE: If the automatic logon does not occur and a message displays that the user name or password is incorrect, re-enter Administrator as the user name and HPinvent! as the password to complete the logon and start the E5000 Configuration Wizard.
2.
Set and confirm the server Administrator password. The Administrator password is required only the first time you run the wizard. Click Next.
NOTE: The Windows Server 2008 R2 default password policy requires a strong password as the server password for each server on the E5000 Messaging System. For more information on strong passwords for Windows Server 2008 R2, see the following Microsoft Technet article: http://technet.microsoft.com/en-us/library/cc736605(WS.10).aspx
3.
Set the network configuration. Review each network port configuration and either accept the default values or click Edit to change them. Click Next when finished.
Configuring server software 23
IMPORTANT:
•
By default, the Replication network is set to a static network (10.0.0.0/30) with IP
10.0.0.1 on the first node and 10.0.0.2 on the second node. A cable directly connects the two ports. If these addresses conflict with addresses on your network, reconfigure them to some other unused static network. If the replication ports will be connected to a switch, you might have to change the network settings. You can either automatically configure with DHCP or manually enter a specific IP address.
•
Be careful not to put the Client/MAPI and Replication networks on the same subnet. If you attempt to do so, the wizard displays a warning.
shows an E5500/5700 configuration that has four networks per server:
Client/MAPI, Replication, Management, and Alternate. The E5300 configuration has two
(standard) networks per server: Client/MAPI and Replication.
Figure 13 Network configuration
4.
Enter the EMU Administrator password and then click Next.
The default password is printed on a label attached to the underside on the EMU module. The default password is also printed on a tear-away label attached to the rear of the enclosure
(
). Remove the tear-away label and store it in a safe place. After you enter the password, an animated icon indicates that the wizard is verifying connection to the enclosure.
24 Configuring the messaging system software
5.
The wizard displays the status of tasks it must complete before continuing. If the wizard finds errors, it reports them and stops. You must exit the wizard, fix the errors and restart the wizard from the All Programs menu on your system.
NOTE: If the wizard reports fan warnings, replace the fan module as soon as possible.
6.
Configure Alerts and Email to send email notification of system events (see
“Configuring Alerts and Email” (page 34) ).
7.
Set the time zone and then click Next. The correct local time zone is set when the server joins a domain.
8.
Configure the Internet Explorer Proxy Server settings (see
) and then click
Next.
Figure 14 Internet Explorer proxy server
9.
Set the computer name and join a domain (see
Figure 15 (page 26) ). Enter the computer
name and the name of the domain that the computer will join. Enter the name and password of a user (typically Administrator) who has permission to add the computer to the domain.
The Administrator password is required only the first time you run the wizard. Click Next when finished.
IMPORTANT: Be sure to record the name of the first server. You will need that name when you configure the second server.
Configuring server software 25
Figure 15 Computer name
10. Review the summary report and complete the configuration. The Summary screen lists the configuration settings you have made.
11. Click Apply Settings to apply the configuration settings or Back to modify them. When you are ready to accept the settings, click Finish to reboot the server. If you do not want to reboot at this time, clear the Reboot after exiting the wizard box. The server must be rebooted to join the domain and is also a required step prior to deploying Microsoft Exchange Server 2010.
NOTE: The server blades contain redundant storage controllers. When a server reboots, one of the controllers shuts down. The partner server sees this event as a redundancy loss and creates a log entry: “drive array controllers are no longer redundant”. You can ignore the message if it coincides with a reboot you initiated.
Continue with the next procedure,
“Deploying Microsoft Exchange Server 2010” (page 26)
, and complete the setup on the Bay 1 server before setting up the Bay 2 server.
Deploying Microsoft Exchange Server 2010
Follow this procedure to deploy Microsoft Exchange Server 2010. Complete the deployment of
Microsoft Exchange Server 2010 on the Bay 1 server blade before beginning the configuration of the Bay 2 server blade.
26 Configuring the messaging system software
IMPORTANT: Before proceeding:
•
Install any available software updates as described in
“Upgrading E5000 software” (page 61)
.
•
Ensure that the Active Directory and domains have been configured. For more information, see http://technet.microsoft.com/en-us/library/bb125224.aspx
. You must also provide a witness server to be used by the DAG. For details on selecting and configuring a server to be a witness server, see http://technet.microsoft.com/en-us/library/dd351107.aspx
.
1.
Log in to the Bay 1 server. If you have completed this procedure for the Bay 1 server, log in to the Bay 2 server now.
When you log in, the Windows Security screen appears. Log in using the domain administrator credentials you used to join the server to the domain. The E5000 Exchange Deployment Tool starts automatically and displays the Introduction window.
NOTE: If you do not log in as the domain administrator, the E5000 Exchange Deployment
Tool will not run. You must log out and log in as the domain administrator.
Figure 16 Deployment introduction
HP recommends that you run the tests in the Prerequisites checklist. For detailed information on Microsoft prerequisites, visit the links displayed on
After you have run the tests, click Next.
NOTE: You need a properly configured Internet Explorer browser, including proxy configuration (if applicable), to access the links.
Deploying Microsoft Exchange Server 2010 27
2.
The End User License Agreement Confirmation screen appears. After reading and accepting the agreements, click Next.
The Jetstress screen appears ( Figure 17 (page 28)
):
Figure 17 Jetstress Tools
3.
If you choose to run a Jetstress test, select the type of Jetstress test. The default is set to skip
Jetstress (click Next to skip the test).
•
A normal run of the Jetstress test provides a baseline benchmark of the system. HP recommends that you run the test now, but only if you have sufficient time before deploying the server into production.
NOTE:
◦ A normal run of the Jetstress test can take 24 hours to complete.
◦ Until the Exchange Deployment Tool is run on the final node, the system configuration is listed as unsupported in the system tray. Ignore the system tray status until Exchange has been deployed on all nodes.
•
A quick run of the Jetstress test does not provide detail performance results but can be used to validate some of the configuration information.
Choose a quick run if you cannot dedicate the time for a normal Jetstress test. For more information about Jetstress, see
“Using Microsoft Exchange Jetstress and Load Generator
.
28 Configuring the messaging system software
Once you make a selection or if you choose to skip the Jetstress test, click Next. The
Prerequisite Checks screen appears (
).
4.
The Prerequisite Checks screen displays the status check results for the configuration settings in your environment.
If a test fails, the Next button is disabled and you are not allowed to proceed. Check the logs for the configuration setting failure details and correct the failed setting. Click Refresh checks to verify the settings.
If all tests pass with either a green checkmark or warning, the Next button is enabled. Click
Next to start deployment of the Exchange Administration Tools.
Figure 18 Prerequisite Checks
5.
After the installation of the Exchange Administration Tools finishes, complete the fields on the
Custom Input window.
When deploying to the Bay 1 server, select First blade. The E5000 Exchange Deployment
Tool automatically detects whether any servers are found in the existing Exchange organization
(when existing is selected). When deploying to the Bay 2 server, select Second blade. The name of the second blade of Bay 1 server is autodetected.
Complete each item on this screen as needed for your deployment:
•
New or existing Availability Group (DAG) name. The E5000 Exchange Deployment Tool automatically detects if any DAGs are found in the existing Exchange organization.
Accept the default name or enter a new name of a DAG that already exists.
•
Availability Group IP address. Using an IP address of 0.0.0.0 configures the DAG to use
DHCP. You can update the configured IP address later using the Exchange Management
Deploying Microsoft Exchange Server 2010 29
Shell, or additional addresses can be added later using the Set-AvailabilityGroup
PowerShell command.
•
Witness server name. See http://technet.microsoft.com/en-us/library/dd351107.aspx
for information about special considerations if placing the suggested default witness server on a domain controller.
•
Witness directory. Specify the local path on the witness server.
•
Name prefix. Use the suggested default name or enter a new name. The E5000 Exchange
Deployment Tool appends numbers to the name and verifies that the name is unique at the organization level (an Exchange 2010 requirement).
•
Client Access Server (CAS) is Internet facing. For more information, see http:// technet.microsoft.com/en-us/library/dd351198.aspx
.
•
New or Existing CAS array. If a new array, enter a name or select from the dropdown list for existing arrays (if detected).
•
Enter the name of your load-balanced CAS array that is set on the database property. If no load-balanced CAS array is available, see:
◦ http://go.microsoft.com/?linkid=9738617
◦ http://go.microsoft.com/?linkid=9738618
•
Enable Error Reporting. For more information, see http://go.microsoft.com/?
linkid=9738619 .
•
Create Public Folder database. To connect to Exchange 2010 Microsoft Entourage or
Outlook 2003, clients require a public folder database. The E5000 Exchange Deployment
Tool runs Exchange setup to create the public folder database for you. This option is available only on the first Exchange 2010 Mailbox server being deployed. The public folders on this system are designed primarily for Free-Busy usage and not large-scale folder replicas or other applications. The database is created in h:\ExchangeDatabases\PF\Exch2010PublicFolder.edb.
•
Exchange 2003 bridgehead server. Use the parameter to specify an Exchange 2003 bridgehead server that is located in the routing group to which you plan to create the initial routing group connector. A routing group connector is required for mail flow between Exchange 2010 and Exchange 2003 when these Exchange server versions coexist in the same organization.
•
Customer Experience Improvement Program. See http://go.microsoft.com/?
linkid=9738620 .
6.
Click Deploy to start the tools deployment process. This process typically requires about 1 hour and 30 minutes.
The E5000 Exchange Deployment Tool displays the Deployment Status window (
).
30 Configuring the messaging system software
Figure 19 Deployment status
When the process completes, you are prompted to reboot the server. After the reboot, log in again with Exchange administrator credentials (see http://technet.microsoft.com/en-us/library/ ee681663.aspx
) to complete the deployment (the E5000 Exchange Deployment Tool reappears automatically when you log in).
7.
After deployment completes, the E5000 Exchange Deployment Tool displays a success message and prompts you to run the Microsoft Exchange Best Practices Analyzer.
IMPORTANT: HP recommends that you do not run the Analyzer until the E5000 Exchange
Deployment Tool completes on the second server. Complete the E5000 Configuration Wizard and the E5000 Exchange Deployment Tool on the Bay 2 server now before continuing.
Deploying Microsoft Exchange Server 2010 31
8.
After Microsoft Exchange is deployed on the Bay 2 server, accept the prompt to run the
Analyzer. The Microsoft Exchange Best Practices Analyzer window appears.
Figure 20 Microsoft Exchange Best practices analyzer
The Analyzer is located in the Toolbox node in the Exchange Management Console. You can use the Analyzer to connect to Active Directory, start a scan, and perform other Exchange operations.
For more information about Microsoft Exchange Server 2010 and to download the complete help file, see Exchange Server 2010 at http://technet.microsoft.com/en-us/library/ bb124558.aspx
.
Next steps
The messaging system is now installed and configured in a DAG with the number of database copies you have specified.
HP strongly recommends that you also install Insight Remote Support as described in
Remote Support software” (page 58) .
Using Microsoft Exchange Jetstress and Load Generator (optional)
You can use Microsoft Exchange Jetstress and Load Generator (LoadGen) to generate a simulated
Exchange workload on your system and analyze the effect of that workload on the messaging system.
CAUTION: You must run these tools in a nonproduction environment to avoid potential loss of data and performance degradation.
For more information about these tools, see Tools for Performance and Scalability Evaluation at http://technet.microsoft.com/en-us/library/dd335108.aspx
. If you are testing Jetstress, only the
E5000 servers are required. The servers must not have Exchange loaded when running Jetstress.
When running LoadGen, Exchange Server 2010 SP1 is installed on both servers in the E5000 enclosure, and the Client Access Server, Hub Transport Server, and Mailbox Server roles are installed. Because multiple roles are installed on both servers, and because of the participation of
32 Configuring the messaging system software
each server in the DAG, you must use an external load balancing method. Two possible methods are:
•
Use a hardware load balancer.
•
Use the Exchange database configuration to balance the load across the CAS servers manually.
◦ MAPI Traffic: Assuming the users are evenly split between databases, use the
Set-MailboxDatabase cmdlet available from Microsoft at http://technet.microsoft.com/ en-us/library/bb123971.aspx
and specify the rpcclientaccessserver parameter equal to cas1 for half of the databases and cas2 for the other half.
◦ OWA Traffic: OWA requires persistence, so direct all OWA traffic through the first CAS.
◦ Exchange Sync (EAS): Direct all OWA traffic through the second CAS.
◦ Other protocols (POP3, IMAP, and so forth): Use DNS round-robin to get rudimentary load balancing.
Using Microsoft Exchange Jetstress and Load Generator (optional) 33
5 Monitoring and troubleshooting the messaging system
The messaging system provides several monitoring and troubleshooting options. You can access the following troubleshooting alerts and solutions to maintain the system health:
•
Notification alerts
•
System Management Homepage (SMH)
•
System Manager
•
Hardware component LEDs
•
EMU CLI SHOW commands
•
HP and Microsoft support websites
•
HP Insight Remote Support software
•
Microsoft Systems Center Operations Manager (SCOM) and Microsoft websites
•
HP SIM 6.3 or later is required for proper messaging system/HP SIM integration.
NOTE: Integration with HP SIM is only supported using the WBEM/WMI interfaces. Do not attempt to configure HP SIM to use the ProLiant SNMP agents, because the configuration is untested and unsupported. The ProLiant SNMP agents are enabled on the messaging system by default and should not be disabled as they are used for internal management functions. If they are enabled for external client consumption, HP SIM must be configured so it does not attempt to communicate with these agents.
NOTE: WBEM events for storage are logged into Windows Application logs and WBEM events for Server and Enclosure are logged into Windows System logs.
If you are unable to resolve a messaging system operation issue after using the various options, contact HP Support. You must provide your SAID and your warranty and entitlement labels. See
“Obtaining the Service Agreement ID” (page 60)
and
“Locating the messaging system warranty entitlement label” (page 60) .
Using notification alerts
When you receive an alert, open the System Manager (described in
) to view a high-level description of the issue. You may then choose to open the System
Management Homepage or HP SIM to obtain more detailed information.
IMPORTANT: While the notification alerts report issues as they arise, it is still important to monitor the messaging system regularly to ensure optimal operation.
See
and
“E5000 Error Codes” (page 164)
for troubleshooting information.
Configuring Alerts and Email
Configure Alerts and Email in the System Manager to send email notification of system events.
IMPORTANT: HP recommends that you configure Alerts and Email (and also install HP Insight
Remote Support) to ensure that you are proactively alerted to issues. Proactive notification enables you to address issues before they become serious problems.
To create an alert for a recipient:
1.
Open the Server Manager by clicking the icon located to the right of the Start button on the
Windows taskbar.
34 Monitoring and troubleshooting the messaging system
2.
Expand the tree under System Manager.
3.
In the tree, select Alerts and Email.
Figure 21 Configuring Alerts and Email
4.
Do one of the following:
•
Select New to create a profile.
•
Select Copy or Edit to modify an existing profile.
The Alert Settings window appears.
Configuring Alerts and Email 35
Figure 22 Alert and Email settings
5.
Complete the following fields:
•
Name—Enter the name of a recipient (for example, John Doe).
•
Recipient address—Enter the email address of the recipient (for example,
).
•
From address—Enter an email address that will display to the recipient indicating where the message originated. It can be the same as the recipient address, if desired.
•
SMTP address—Enter a valid SMTP address (for example, SMTP.company.com).
•
Alerts Severity—Select the severity for which you want to receive alerts. You will also receive alerts for any severity higher than the one you select. Select All to receive alerts for all severities.
•
Components Alerts—Select the components for which you want to receive alerts, or select
All to receive alerts for all components.
6.
To test the ability for the recipient to receive email alerts, click Send Test Email. If the recipient receives the test email, no further action is required. If the test email is not received, check that the information entered for the recipient is correct.
36 Monitoring and troubleshooting the messaging system
Figure 23 Send test email
7.
Click Save. The name of the recipient is displayed on the main Alerts and Email window.
To configure the SNMP settings:
1.
In the Server Manager navigation pane, select System and Network Settings.
2.
Select SNMP Settings in the lower-right pane.
3.
Provide the contact and location information for the System Administrator, and then click OK.
4.
To make SNMP visible externally: a.
Select Start
→Administrative Tools→Services.
b.
Select SNMP Service.
c.
Right-click and select Properties to display the SNMP Service properties.
d.
Select the Security tab and specify the following items:
•
The external hosts that may use the SNMP protocol.
•
The SNMP Community string. HP recommends that you use something other than the typical ‘Public’ string.
IMPORTANT: Configure HP SIM security to prevent the SIM management server from gaining access to SNMP.
The SNMP trap function in the messaging system is enabled by default. Any SNMP client (on localhost ) listening on default port number 171 can receive traps. You can configure the destination IP address using the snmp.xml configuration file in the directory \Program Files\
HPWBEM\Tools\snmp.xml
.
Configuring Alerts and Email 37
HP System Management Homepage
The HP System Management Homepage (SMH) is a web-based interface that consolidates and simplifies single system management for HP servers. The SMH is the primary tool for identifying and troubleshooting hardware issues in the messaging system. You may choose this option to diagnose a suspected hardware problem. Go to the SMH main page and open the Overall System
Health Status and the Component Status Summary sections to review the status of the messaging system hardware.
By aggregating the data from HP web-based agents and management utilities, the SMH provides a common, easy-to-use interface for displaying the following information:
•
Hardware fault and status monitoring
•
System thresholds
•
Diagnostics
•
Software and firmware version control for an individual server
•
HP Storage 1210m firmware information
The SMH Help menu provides documentation for using, maintaining, and troubleshooting the application. For more information about the SMH software, go to www.hp.com/support/manuals and enter System Management Homepage in the Search box. Select HP System Management
Homepage Software. A list of documents and advisories is displayed. To view SMH user guides, select User Guide.
Starting the System Management Homepage application
To start the application, double-click the HP System Management Homepage desktop shortcut or enter https://hostname:2381/ in Internet Explorer. The hostname can be localhost or the IP address of the server you want to monitor. To log into SMH, enter the same username and password you use to log in to the server. Users who have administrative privileges on the server have the same privileges in the SMH application.
IMPORTANT: You must complete the E5000 Configuration Wizard before using the SMH. During the initial stages of the installation, the Administrator user password is not set. You cannot use the
SMH to manage the messaging system until you log in.
To view the SMH of one server from another server, you must modify the Windows firewall settings as follows:
1.
Open the Control Panel and select System Security
→Windows Firewall→Allowed Programs.
2.
Select Allow another program and click Browse in the Add a Program dialog box.
3.
Navigate to C:\hp\hpsmh\bin and select hpsmhd. Click Open and then click Add. HP
System Management Homepage displays in the Allowed Programs and Features window.
4.
Select Home/work (Private) and Public and click OK.
5.
To access the SMH on another server, enter the following URL: https://<server IP address>:2381
System Management Homepage main page
shows the SMH main page.
38 Monitoring and troubleshooting the messaging system
Figure 24 System Management Homepage main page
The page provides system, subsystem, and status views of the server and displays groupings of systems and their status.
NOTE:
•
NICs will display with a failed status (red icon) if they are unplugged. To remove unused NICs from the system status, you can disable them by selecting Control Panel
→Hardware→Device
Manager, right-click on the specific NIC, and then select Disable.
•
When you remove a disk or disconnect a cable, the SMH interface might not display alerts when you click the Refresh button. You can force a hard refresh by clicking the Home button or by navigating to the problem area. The default refresh interval is two minutes. To change the interval in the Settings menu, select Autorefresh, and then Configure Page refresh settings.
The minimum interval is five seconds and the maximum is 30 minutes.
Overall System Health Status
A webapp sets the value of the Overall System Health Status icon by using a predefined heuristic.
If no webapp can determine the status, the worst possible status is displayed in the Component
Status Summary section.
Component Status summary
The Component Status Summary section displays links to all subsystems that have a critical, major, minor, or warning status. If there are no critical, major, minor or warning items, the Component
Status Summary section displays no items.
Enclosure
This section provides information about the enclosure cooling, IDs, power, Unit Identification LED,
PCIe devices, and I/O modules.
HP System Management Homepage 39
NOTE: A large number of disk errors may indicate that an I/O module has failed. Inspect the
I/O module LEDs on the messaging system and any expansion disk enclosures, and replace any failed component.
•
Because both a system and drive fan are required, the maximum and minimum number of fans required is two. If either fan becomes degraded, the system could shut down quickly.
Because the fans are not mutually redundant, even if the status of a single fan has changed, the new status is reported immediately in the Components Status Summary section on the SMH main page.
•
When the Enclosure Manager IP address is set incorrectly, the enclosure status displayed is
Lost communication. Because the Enclosure Manager has lost communication with the external network, none of the other items in the Enclosure Information section can be displayed.
The enclosure I/O ports are numbered from 1 to 8 in the SMH.
Figure 25 I/O module
These numbers correspond to the I/O modules in the enclosure bays.
Figure 26 I/O module bays
1. LOM module
2. LOM module
3. MEZZ module
4. MEZZ module
40 Monitoring and troubleshooting the messaging system
5. PCIe module
6. PCIe module
7. SAS I/O module
8. SAS I/O module
Network
This section shows the status of the network connections.
Storage
This section displays information about the following components:
•
Storage System—Links to the page that displays information about storage in the drive drawer and any external disk enclosures. This storage is managed by the 1210m controller.
•
Smart array subsystem—Links to the page that displays information about operating system drives and smart array controllers.
NOTE: The SMH will display a total of four power supplies for each External Storage Enclosure.
If there is more than one External Storage Enclosure connected, the SMH may not show the correct number of power supplies for each of these enclosures.
The Storage System page is organized as a left panel and a main page:
Figure 27 Storage system
The left panel provides links to information about the following items:
•
Controller
Select a storage controller to view its type, status, firmware version, and serial number.
•
Logical Volumes
A list of logical volumes associated with the controller appears in the left panel tree view.
Select one of the logical volume entries to display the status of the volume, fault tolerance
(RAID level), and capacity (volume size). A link to the logical volume storage pool is also displayed.
•
Storage Pools
A list of storage pools associated with the controller displays in the left panel tree view. Select one of the pool entries to display its status, capacity, communication status with the controller, primordial state, and cache properties.
HP System Management Homepage 41
NOTE: If read or write cache is enabled the value displayed is 2; otherwise, the value is 3.
The Storage Pools page also displays a list of disk drives and storage volumes present in the pool.
Under the Physical Drives tree, the list of expansion disk enclosures is displayed. Under each enclosure, the list of disk drives present in each expansion disk enclosures is displayed. When there is no drive in the enclosure, the display shows Bay Bay number – Empty. Select one of the expansion disk enclosures or disk drives to see information for that enclosure or drive.
•
Physical Drives
This section provides an overview of all disk drives attached to the controller. Drives are identified and grouped as assigned, unassigned, and spare drives. Each physical drive is listed as a separate entry in the Storage System submenu. Select any of the physical drives to display more information about the drive.
NOTE: Spare drives are only used when a disk drive fails. Until a spare drive is used, it remains offline and its LEDs will remain off.
System
This section displays status for various system components.
Version Control
This section provides information about the Version Control Agent.
Software
This section provides information about system firmware and software.
Using the System Manager
The System Manager provides the status of each server blade that is configured in the messaging system. Be sure to note the server blade that is being assessed when you open the System Manager.
Log in to each server blade to evaluate its status.
To use the System Manager, which has been preinstalled and configured, use Remote Desktop or iLO to access the server blade. Click the Server Manager icon located in the taskbar to the right of the Start button or select Start
→Administrative Tools→Server Manager. When Server
Manager appears, select System Manger in the left navigation pane.
To troubleshoot using the System Manager:
1.
Open the System Manager.
2.
Open the System Summary tab to review the overall health of the messaging system hardware,
Exchange, and firmware.
If the status icon is green, the system is running properly. A yellow icon is a warning that there are conditions that might cause a problem. If the icon is red, a problem exists in the messaging system.
3.
Open each tab in the System Manager to assess the status of the messaging system.
4.
Follow the instructions provided on the System Manager tabs for any reported issue.
IMPORTANT: The System Manager identifies the server blade and bay location. You must run the System Manager beginning with server blade 1, although server blade 1 might not be the active server blade. A message appears informing you that the System Manager is evaluating server blade 1.
42 Monitoring and troubleshooting the messaging system
shows the description for the messaging system status tray check mark color.
Table 1 System status tray description
Icon check mark color
Green
Red
Description
The system is running a supported configuration.
The system is running an unsupported configuration. The system tray icon shows a red error symbol until Microsoft Exchange has been fully installed, or if the system is running outside the terms of the service and support agreement (for example, the system is running a server application other than Microsoft Exchange).
System Summary
The System Summary tab displays information such as the enclosure name, IP Address, firmware revision, and serial number. The lower part of the System Summary also shows the status of hardware and Microsoft Exchange, and whether your current firmware revision is up to date. If a green check mark does not appear beside the configuration status, go to the related tab for information about the issue.
Figure 28 System summary
Hardware Status
The Hardware Status tab provides the health status for each of the messaging system components.
The System section displays information for the server blade that you are logged in to. If a problem is reported in the System section, you should check the Hardware Status tab on each server blade.
NOTE: If the System Manager shows that a LUN has an error, open the System Management
Homepage and determine whether the LUN is degraded due to a disk failure. If so, also use the
System Management Homepage to determine which disk needs to be replaced.
Using the System Manager 43
Figure 29 Hardware status
Exchange Status
The Exchange Status tab provides the overall Microsoft Exchange configuration status (by default).
Select any configuration item in the list at the top to see further refined detail.
44 Monitoring and troubleshooting the messaging system
Figure 30 Exchange status
Firmware
The Firmware tab indicates whether the firmware of a component is outdated. If the specific firmware requires that you reboot after installing the update, a message instructing you to reboot the messaging system appears. Since the tool does not connect to the Internet to identify new firmware, you must periodically check the HP support web page and download new firmware when available.
Be sure to check the Firmware tab on each server blade. Some firmware updates must be made on both server blades.
IMPORTANT: If a firmware update requires a reboot, you must reboot your messaging system manually. For more information about firmware updates, see
“Upgrading a component's firmware”
.
Using the System Manager 45
Figure 31 Firmware
Reports
The Reports tab gathers logs for the hardware, software, Microsoft Windows system configuration, and the Microsoft Exchange diagnostics in one place. These logs are used by HP support engineers to help diagnose your system, if needed; you do not need to view and interpret the logs yourself.
To generate reports:
1.
Consult with HP support to determine what type of report is required.
- If complete reports are required, go to step 2.
- If an abbreviated report can be used, select the Run Quick Report Only option. A quick report contains less information but is created in much less time. It may contain all the necessary information HP support needs.
2.
Click Generate Support File. A license agreement window is displayed.
3.
Select Yes to accept the license.
The report generation process begins. It may take up to 45 minutes to create the reports.
When the process is complete, the lower portion of the screen indicates that HP System Reports have been generated.
4.
Click Open Reports Folder to access the .cab file containing the report results.
This file is ready to forward to the HP support engineers.
46 Monitoring and troubleshooting the messaging system
Figure 32 Reports
Component LEDs
LEDs indicate the status of hardware components. This section provides images of the component
LED locations and describes the status of LED behaviors. To obtain additional information on some status indicators, you can use the EMU CLI SHOW commands described in
.
Figure 33 Server blade LEDs
Table 2 Server blade LEDs status
Item
1
Description
UID LED
Status
Blue = Needs service check
Blue flashing = remote management (remote console in use via iLO)
Component LEDs 47
Table 2 Server blade LEDs status (continued)
Item
2
Description
Health LED
Status
OFF = No remote management
Green = Normal
Flashing = Booting
Amber = Degraded condition
Red = Critical condition
5
6
3
4
NIC 1 LED*
Flex-10 NIC 2 LED*
Reserved
System power LED
Green = Network linked
Green flashing = Network activity
OFF = No link or activity
Green = Network linked
Green flashing = Network activity
OFF = No link or activity
—
Green = On
Amber = Standby (auxiliary power available)
OFF = OFF
*Actual NIC numbers depend on several factors, including the operating system installed on the server blade.
Figure 34 Front LED display board
Table 3 Front LED status
Item
1
Description
Hard drive LEDs
Normal mode (UID LED is solid)
Status
Green = The drive is online, but is not currently active.
Flashing irregularly green = The drive is online and it is operating normally.
Flashing green (1 Hz) = Do not remove the drive. Removing the drive may terminate the current operation and cause data loss. The drive is rebuilding, or it is part of an array that is undergoing expansion, logical drive extension, a stripe size migration, or RAID migration.
Flashing amber/green = Drive is configured and indicating a predictive failure. The drive may also be undergoing a rebuild, expansion, extension, or migration.
48 Monitoring and troubleshooting the messaging system
Table 3 Front LED status (continued)
Item
1
2
3
4
Description
Hard drive LEDs
Status
Flashing amber (1 Hz) = A predictive failure alert has been received for this drive. Replace the drive as soon as possible.
Amber = Drive failure, link failure, or mismatched configuration.
OFF = The drive is offline, a spare, or not configured as part of an array.
Green = The drive has been selected by a management application and it is operating normally.
Drive locate mode (UID LED is flashing)
Flashing amber (1 Hz) = The drive is not selected and is indicating a predictive failure.
Flashing amber/green = The drive has been selected by a management application and is indicating a predictive failure.
Amber = The drive might or might not be selected and is indicating drive failure, link failure, or mismatched configuration.
OFF = The drive is not selected.
Chassis fault LED Flashing amber if there is a failed component in the system.
NOTE: The amber chassis fault LED flashes if any component fault is detected by the System Management Homepage. A fault can be as minor as a cable unplugged from a NIC port, and therefore may not be cause for concern.
Chassis health LED
Chassis UID LED
OFF if the system is in good health.
Solid green if the system is in good health.
OFF if there is a failed component in the system.
This is either blue or off. When on it can be steady or blinking. Used only for unit identification. To set the LED, use the following CLI command: SET
ENCLOSURE UID { ON | OFF | SLOW | FAST }
OFF = Enclosure is functioning normally.
NOTE: All these LEDs are off if the enclosure has power but is turned off (see
Then only the equivalent Chassis LEDs (2,3,4) on the rear Power Pod show status.
Figure 35 Hard drive LEDs
1. Fault/UID LED (amber/blue)
2. Online LED (green)
Table 4 SAS hard drive LED combinations
Item
1
Description
Activity/Online LED
Status
OFF = Override drive activity output. Drive is not a member of any RAID volumes <or> Drive is configured but in a replacement or failed state for at least one volume that is a member of a RAID volume <or> Drive is a spare drive that is or has been activated but has not been
Component LEDs 49
Table 4 SAS hard drive LED combinations (continued)
Item Description
2 Fault/Identification LED
– Bicolor amber/blue
Status rebuilt.<and>Drive is not rebuilding<and>Drive is not a member of a volume undergoing capacity expansion or RAID migration.
Solid green = Drive is a member of a RAID volume <and> Drive is not a spare drive <and> Drive is not in a replacement or failed state for any volume that is a member of a RAID volume <and> Drive is not currently performing I/O activity.
Blinking green (@ 4 Hz 50% of duty cycle) = Drive is currently performing
I/O activity <and> Drive is a member of a RAID volume <and> Drive is not in a replacement or failed state for any volumes that is a member of a RAID volume (drive is online) <and> Drive is not rebuilding <and>
Drive is not a member of a volume undergoing capacity expansion or
RAID migration.
Blinking green (@1 Hz 50% duty cycle — override drive activity output)
= Drive rebuilding <or> member of volume undergoing Capacity
Expansion/RAID Migration.
OFF = Drive is not failed <and> Drive is not selected (unit identification).
Solid blue = Drive is not failed <and> Drive is selected (unit identification).
Solid amber = Drive is failed <and> Drive is not selected.
Blinking amber (@ 1Hz 50% duty cycle) = Drive is in a predictive failure state <and> Drive is not failed <and> Drive is not selected.
Blinking alternate amber/blue (@ 1Hz 50% duty cycle) = Drive Failed
<or> Drive is in a predictive failure state<and>Drive is selected.
NOTE: Spare drives are only used when a disk drive fails. Until a spare drive is used, it remains offline and its LEDs will remain off.
Figure 36 1210m Cache module controller LEDs
Table 5 1210m Cache module controller LED status
Item Description
Green LED upper left;
Amber LED lower right
Controller LEDs
Status
Green off, amber on = A backup is in progress.
Green flashing (1 Hz), amber on = A restore is in progress.
Green flashing (1 Hz), amber off = The capacitor pack is charging.
Green on, amber off = The capacitor pack has completed charging.
50 Monitoring and troubleshooting the messaging system
Table 5 1210m Cache module controller LED status (continued)
Item Description Status
Green flashing (2 Hz) alternating with amber; amber flashing
(2 Hz) alternating with green LED = One of the following condition exists:
– The charging process has timed out.
– The capacitor pack is not connected.
Green on, amber on = The flash code image failed to load.
Green off, amber off = The flash code is corrupt.
Figure 37 Enclosure Manager unit LEDs
Table 6 Enclosure manager unit LEDs status
Item
1
2
3
Description
EM display
EM fault LED
EM health LED
LEDs are off when the enclosure is powered off.
Status
The LED blinks during power-up, but then the display changes only in response to commands from the Enclosure Manager Display.
Amber flashing/green LED off = issue. Use the CLI commands SHOW
ENCLOSURE STATUS and SHOW SYSLOG EM to determine possible fault causes.
The health LED is only green and is either on (Healthy) or off (Power off or Faulted).
Figure 38 HP 2-port 1 GB Ethernet I/O modules LEDs
Component LEDs 51
Table 7 HP 2-port 1 GB Ethernet I/O modules LEDs status
Item
1
2
Description
Module health LED
Module fault LED
Status
Solid green when module health is good
OFF* when module has failed
Solid amber when module has failed
OFF* when module health is good
*LEDs are off when enclosure is powered off.
Figure 39 HP 2-port 1 GB Ethernet, Mezz A and B I/O modules LEDs
Table 8 HP 2-port 1 GB Ethernet, Mezz A and B I/O modules LEDs status
Item
1
2
Description
Module health LED
Module fault LED
Status
Solid green when module health is good
OFF* when module has failed
Solid amber when module has failed
OFF* when module health is good
*LEDs are off when enclosure is powered off.
Figure 40 Power supply LEDs
52 Monitoring and troubleshooting the messaging system
Table 9 Power supply LED status
Item
1
Description
Power supply
Figure 41 Chassis switches and indicator LEDs
Status
Green = Power on and power supply functioning properly.
OFF = One or more of the following conditions exists:
System powered off, AC power unavailable, Power supply failed, Power supply exceeded current limit. Use the CLI command SHOW ENCLOSURE POWERSUPLY STATUS
ALL for more details.
Table 10 Chassis switches and indicator LEDs status
Item
1
2
Description
UID
Chassis health
3
4
Chassis fault
Power button/LED
Status
Solid blue = Requires service check.
Solid green when system health is good.
OFF if a module or component in the system has failed
Flashing amber if a module or component in the system has failed.
NOTE: The amber chassis fault LED flashes if any component fault is detected by the System Management
Homepage. A fault can be as minor as a cable unplugged from a NIC port, and therefore may not be cause for concern.
OFF if system health is good.
Green when enclosure power is ON.
Amber when enclosure has AC power but is turned off.
Figure 42 SAS I/O modules LEDs
Component LEDs 53
Table 11 SAS I/O module LEDs status
Item
1, 2
3, 4
5, 6
Description
SAS Port 1
SAS Port 2
Overall I/O module status
Status
Green* = Healthy
Amber = Issue
Green* = Healthy
Amber = Issue
Green = Healthy
Amber = Issue
7, 8
9, 10
SAS Port 3
SAS Port 4
Green* = Healthy
Amber = Issue
Green* = Healthy
Amber = Issue
*If there is anything connected to a connector, the corresponding green LED is on and blinks off with activity. If there is nothing connected to a connector, both LEDs are off.
Figure 43 Fan LEDs
The two fan modules are physically identical, but their control is not. The Fault/health LED on FAN
1 is a single bi-color LED controlled by the EMU via the Health Monitor – it is either off, steady green, or flashing amber. The lens of the fan LED is colorless and looks grayish-white when off.
System Fan — Fan 1
Fan 1 LED is driven by the EMU firmware. The fan microprocessor inside the Fan module cannot sense or control this LED. If the EMU fails, or if the connection between the EMU and the fan fails, the LED cannot be controlled and thus may not reflect actual state. Also, because Fan 1 LED has no power unless enclosure power is on, the EMU cannot indicate Fan status in standby mode.
There is no autonomic hardware circuit controlling the FAN Fault LED. Assuming the LED is working, it flashes Amber by the EMU if one or two of the 3 fan rotors is not functioning, or if the microprocessor on the fan module is unresponsive, or if code on the module is unreadable.
Drive Fan — Fan 2
The Fault/health LED on FAN 2 is not controlled at all by the EMU – but is controlled by one of the management processors inside the SAS I/O Module. This LED cannot be lit unless enclosure power is on, and its state depends upon signals from one of the SAS I/O modules.
To troubleshoot a degraded fan, you can use the EMU CLI commands SHOW ENCLOSURE STATUS and SHOW ENCLOSURE FAN ALL described in
.
54 Monitoring and troubleshooting the messaging system
EMU CLI SHOW commands
Use the EMU CLI SHOW commands described in
to obtain additional information about component status as indicated by the hardware LEDs described in
LEDs” (page 47) . To access the CLI, log in to the EMU as Administrator.
The system is shipped with a single enabled user account: Administrator. The password of the
Administrator account is unique, programmed at the factory, and printed on the tear-away label on the back of the unit and the label on top of the EMU. Logging in to the system requires the
Secure Shell protocol (SSH). Windows systems can use ssh clients such as PuTTy, which can be freely downloaded.
To log in to the EMU:
1.
Note the IP address of the EMU.
2.
ssh to the EMU.
3.
Log in as Administrator.
The following is a sample login session: login as: Administrator
-----------------------------------------------------------------------------
WARNING: This is a private system. Do not attempt to login unless you are an authorized user. Any authorized or unauthorized access and use may be monitored and can result in criminal or civil prosecution under applicable law.
-----------------------------------------------------------------------------
User: /src/bin/build@msaonyx
Script: ./parbuild Directory: /src/quire/QUIRE-CSP-1-20/daily/2011102701/bld/QUIRE-CSP-1-20
FileTag: 102720111904
Date: 2011-10-27T19:04:57
Firmware Output: jsbach
Firmware Version: 0x0120
SVN Version: 3414
[email protected]'s password:
HP CSP System Enclosure Manager
(C) Copyright 2006-2010 Hewlett-Packard Development Company, L.P.
Type 'HELP' to display a list of valid commands.
Type 'HELP ' to display detailed information about a specific command.
Type 'HELP HELP' to display more detailed information about the help system.
EM-78E7D1C140F2>
After logging in, you can set the Administrator password using the Enclosure Manager Settings window. Go to the C:\Program Files\HP\HP Configuration Wizard directory and double-click HPEMConfig.exe.
Using Recovery LUN Manager
The Recovery LUN is dedicated disk space that can be used for recovery operations such as extracting mailbox data from a database copy. In E5000 software versions 2.02.0a or earlier, there were two recovery LUNs – one drive per server that was configured as a RAID0 LUN. However, the RAID0 configuration meant there was no redundant data from which to recover a LUN. With the release of version 2.03.0a, there are still two drives but they share one RAID1 LUN. The RAID1
LUN remains offline until it is needed; you use Recovery LUN Manager to commission or decommission the recovery LUN as needed. The recovery LUN displays as the R:\ drive (previously, the recovery LUNs were available at C:\ExchangeDatabases\Recovery).
When you upgrade to E5000 software version 2.03.0a or later, Recovery LUN Manager detects the previous recovery LUN configuration and displays a message to run the E5000 Configuration
Wizard. You must run the wizard to configure the new recovery LUNs and allow for Recovery LUN
Manager to be used as needed. The wizard delete the RAID0 LUNs and then configure the two drives as one RAID1 LUN.
You can access Recovery LUN Manager from Manage Storage under System Manager or from the Start menu on the system desktop. When needed, click Commission to create a recovery LUN.
When you have finished the recovery operation, click Decommission.
EMU CLI SHOW commands 55
Figure 44 Recovery LUN Manager
Using Storage Viewer
You can access Storage Viewer from Manage Storage under System Manager or from the Start menu on the system desktop. The Storage Viewer enables you to view details about each LUN – name, size RAID level, pool assignment, spare drive indication, and cluster disk name (if applicable).
In the lower part of the tool, select one of the following tabs to view additional information:
•
Volumes: Displays any Windows volumes on the LUN, the volume label, and mount paths.
•
Drives: Displays details about the physical drives that comprise the LUN (drive bay, size, RPM, disk name, and serial number).
•
Spares: Displays details about any spares that are assigned to the LUN (drive bay, size, RPM, disk name, and serial number). If more information is available, when you hover over any part of the row, a tool tip opens with details.
•
Jobs: Displays the status of any jobs running on the LUN (checking volume data integrity and rebuilding).
56 Monitoring and troubleshooting the messaging system
Figure 45 Storage Viewer (LUNs view)
You can also view details about each drive – bay location, ID, serial number, size, health, and model number. In the lower part of the tool, you can view volume information related to the drive.
Figure 46 Storage Viewer (Drives view)
Using Storage Viewer 57
HP Support websites
Use the “Support and troubleshooting” task at the HP Support & Drivers website ( http:// www.hp.com/go/support ) to troubleshoot problems with the messaging system. After entering the messaging system name and designation (for example, E5300 Messaging System) or component information (for example, SAS I/O module), use the following links for troubleshooting information:
•
Download drivers and software—Provides drivers and software for your operating system.
•
Troubleshoot a problem—Provides a listing of customer notices, advisories, and bulletins applicable for the product or component.
•
Manuals—Provides the latest user documentation applicable to the product or component.
User guides can be a useful source for troubleshooting information. For most messaging system hardware platforms, the following ProLiant server manuals may be useful for troubleshooting assistance:
◦ HP ProLiant Server User Guide or HP ProLiant Server Maintenance and Service Guide
These guides contain specific troubleshooting information for the server.
◦ HP ProLiant Servers Troubleshooting Guide
The guide provides common procedures and solutions for many levels of troubleshooting with a ProLiant server. For E5000 guides, go to www.hp.com/support/manuals , select
Solutions Appliances under solutions, and select an E5000 product.
IMPORTANT: Some troubleshooting procedures found in ProLiant server guides may not apply to the messaging system. If necessary, check with your HP Support representative for further assistance.
For software-related components and issues, online help or user guide documentation may offer troubleshooting assistance. Known issues, workarounds and service releases are addressed in this guide or the release notes.
•
Customer notices—Address informational topics about the E5000 Messaging System.
•
Customer advisories—Address know issues and solutions or workarounds.
NOTE: You must register for Subscriber's Choice to receive customer advisories and notices. See
“Subscription service” (page 131)
for more information.
HP Insight Remote Support software
HP strongly recommends that you install HP Insight Remote Support software to complete the installation or upgrade of your product and to enable enhanced delivery of your HP Warranty,
HP Care Pack Service, or HP contractual support agreement. HP Insight Remote Support supplements your monitoring, 24x7 to ensure maximum system availability by providing intelligent event diagnosis, and automatic, secure submission of hardware event notifications to HP, which initiates a fast and accurate resolution, based on the service level of your product. Notifications may be sent to your authorized HP Channel Partner for onsite service, if configured and available in your country. The software is available in two variants:
•
HP Insight Remote Support Standard: This software supports server and storage devices and is optimized for environments with 1 to 50 servers. Ideal for customers who can benefit from pronotification, but do not need proservice delivery and integration with a management platform.
•
HP Insight Remote Support Advanced: This software provides comprehensive remote monitoring and proservice support for HP servers, storage, network and SAN environments, plus selected non-HP servers than have a support obligation with HP. It is integrated with HP Systems Insight
58 Monitoring and troubleshooting the messaging system
Manager. A dedicated server is recommended to host both HP Systems Insight Manager and
HP Insight Remote Support Advanced.
To implement Insight Remote Support for E5000 systems, follow the instructions in release A.05.50
or later of the following guides:
•
HP Insight Remote Support Quick Installation Guide (for standard and advanced support)
•
HP Insight Remote Support Standard Hosting Device Configuration Guide (for standard support)
•
HP Insight Remote Support Advanced CMS Configuration and Usage Guide (for advanced support)
•
HP Insight Remote Support Standard Managed Systems Configuration Guide (for standard support).
For Insight Remote Support Standard documentation, go to: http://www.hp.com/go/insightremotestandard-docs
For Insight Remote Support Advanced documentation, go to: http://www.hp.com/go/insightremoteadvanced-docs
Be aware of the following specifics for E5000 systems:
•
The messaging system is a "managed system" as described in Insight Remote Support guides.
•
The E5460sb is equivalent to a ProLiant server and meets all the requirements for a managed system.
Follow guidelines and procedures for Windows ProLiant servers in the Insight Remote Support documentation.
•
The messaging system hardware is preconfigured for Insight Remote Support and uses the
WMI (WBEM) provider.
•
Register the system using the E5000 product number and serial number, instead of the blade serial number and part number.
Confirm and overwrite any prepopulated values with the serial number of the messaging system. The product number and serial number are located on the tear-away label at the EMU on the back of the messaging system, see
.
•
You must to register WBEM access credentials in HP SIM for Insight Remote Support Advanced.
Microsoft Systems Center Operations Manager
Microsoft Systems Center Operations Manager (SCOM) provides comprehensive monitoring, performance management, and analysis tools to maintain Windows OS and application platforms.
This solution allows you to monitor Microsoft Windows environments and HP storage products through a common OpsMgr console. To download HP management packs for Microsoft System
Center Operations Manager, including installation, configuration, and usage documentation, visit the HP Management Packs for Microsoft Systems Center site at: www.hp.com/go/storageworks/scom2007
HP 1210m Volume Online Tool
Use the HP 1210m Volume Tool to manually set all volumes online. Manually setting volumes online may be necessary if a disk enclosure is powered down before the server blades are powered down and the enclosure contains disks with LUNs on them.
IMPORTANT: You should only use this tool under the guidance of HP Support to avoid potential data loss.
The tool is included (but not installed) with HP E5000 software version 2.01.1b or later.
Microsoft Systems Center Operations Manager 59
To install the tool:
1.
Navigte to the C:\hpnas\support directory on the server blade.
2.
Double click Volume_Manager_Install.msi.
To use the tool:
1.
Navigate to C:\Program Files (x86)\Hewlett-Packard\HP 1210m Volume
Online Tool .
2.
Double-click HPVolumeOnlineTool.exe to start the tool.
NOTE: Before the tool opens, a disclaimer about potential data loss is displayed. Read the disclaimer and accept the terms to continue. If you decline, the tool closes.
3.
When the HP 1210m Volume Online Tool opens, the LUNs that are in an Enabled but Offline state are displayed.
4.
Click Force Online.
When the operation is complete, the tool indicates that the LUNs are now in the Enabled state.
Obtaining the Service Agreement ID
Obtain the SAID from your service contract agreement and keep it in a secure location. You must provide it when you contact HP Support.
Locating the messaging system warranty entitlement label
You must locate and identify the serial number and product number for the messaging system components to obtain service under the warranty. The numbers are listed on the warranty entitlement label located on the pull-out tab below the Enclosure Management module on the back of the enclosure (
).
Figure 47 Warranty entitlement label location
60 Monitoring and troubleshooting the messaging system
6 Upgrading the messaging system
The E5000 Messaging System is comprised of a common hardware platform containing two server blades. Each server runs Window Server 2008 R2 or later. Several value-add software components bundled with the operating system make the E5000 Messaging System a fully integrated Microsoft
Exchange solution.
When HP determines that it is desirable to upgrade one or more of these components, a notification is posted to the HP support website for the E5000 Messaging System with the release notes and the updated code. HP recommends that you upgrade the messaging system software as part of normal system maintenance for increased reliability and a better customer experience. Upgrades might also be necessary when replacing a server blade or other component.
Determining the current messaging system software version
You can find the version using the Server Manager or the registry.
From the Server Manager:
1.
Expand the tree under System Manager.
2.
Select System and Network Settings and locate the value for HP Quick Restore.
3.
Read the value for HP Quick Restore in the System and Network Settings right pane.
Figure 48 System and network settings
From the registry:
1.
Log in to the server blade.
2.
Open a command window.
3.
Enter the reg query command as shown in the following example:
C:\> reg query HKLM\Software\Wow6432Node\Hewlett-Packard\StorageWorks /s
The following information appears:
HKEY_LOCAL_MACHINE\Software\Wow6432Node\Hewlett-Packard\StorageWorks\QuickRestore
BASE REG_SZ 2.0.1.21
QRVersion REG_SZ 2.01.1a.93
The QRVersion field lists the version.
Upgrading E5000 software
You must perform the same upgrade on each server in the messaging system.
IMPORTANT: Do not start the upgrade until you are certain you want to apply it. The upgrade cannot be reversed.
To perform the upgrade:
Determining the current messaging system software version 61
1.
Log in to Server 1 as Domain Administrator.
2.
Go to www.hp.com/go/support .
3.
Select Drivers and software.
4.
Enter E5000 in the Enter a product name/number box and click Search.
5.
Navigate to your product and select the latest HP E5000 zip file, which contains the service release installer and the Release Notes. Follow the instructions included with the service release for installation.
Upgrading a component's firmware
To determine if a component requires a firmware upgrade:
IMPORTANT: Remember the following:
•
You must complete these steps on each server.
•
HP recommends that you complete any upgrade during a scheduled maintenance period and/or during periods of low user activity.
•
If you are upgrading the disk drives that contain the Exchange databases, shut down Server
Blade 2, Bay 2 before proceeding with the upgrade on Server Blade 1, Bay 1. When the upgrade has completed, you must power off both servers and then power on both servers to complete the upgrade.
1.
Download the latest firmware: a.
Go to http://www.hp.com/go/support .
b.
Select Drivers and Software.
c.
Enter the applicable product name or number and click Search.
d.
Navigate to your product and download the available firmware upgrades to your typical server download location.
2.
Execute the downloaded file and it will extract the required files to the required directory for the Firmware update tool to use them.
Once the latest firmware is loaded on the server in the correct directory, the System Summary and Firmware tabs in the System Manager will indicate when a firmware upgrade is available for a component.
3.
Select the System Manager in Server Manager. Click the System Summary tab, and inspect
the Firmware update recommended icon status ( Figure 49 (page 63) ). If the icon is green
, no firmware update is needed. If the icon is yellow , a firmware update is required. You can also check the Software component on the System Management Homepage to verify what
62 Upgrading the messaging system
firmware versions are currently installed. See
“HP System Management Homepage” (page 38)
for more information.
Figure 49 System summary tab
4.
If a firmware update is needed, select the Firmware tab to view a list of the components that can be upgraded (
The list of components can include:
•
Integrated Lights-Out (iLO)
•
HP 1210m controller
•
System ROM (I24 or I27) for the server blade
•
Power Management controller firmware (c-Class blades)
•
Smart Array HP P410i Blade HDD controller
•
Enclosure Manager Unit (EMU)
•
External half of the SAS I/O module
•
Internal half of the SAS I/O module
•
I/O module on an HP E5000 expansion disk enclosure
•
Hard disk drives (various models)
Upgrading a component's firmware 63
Figure 50 Firmware tab
5.
On the Firmware tab, select the box next to each component to be upgraded.
6.
Click Apply Updates. The status reports that an upgrade is in progress ( Figure 51 (page 65)
).
64 Upgrading the messaging system
Figure 51 Component selected for update
CAUTION: When upgrading the 1210m controller firmware, HP recommends that you perform the upgrade in the following order:
1.
Upgrade the 1210m controller firmware on node 1.
2.
Upgrade the 1210m controller firmware on node 2.
3.
Power cycle node 1 and wait for it to come online.
4.
Power cycle node 2.
Otherwise, the firmware may synchronize with the controller running the previous version of code.
If, after upgrading the firmware on the controllers, the messaging system does not see any storage or the controllers do not start, see
“Resolving errors after the HP 1210m controller upgrade” (page 66)
.
NOTE: Each firmware upgrade takes a few minutes to complete. If you are upgrading multiple components, such as hard drives, the upgrade takes more time.
7.
Reboot the server blade from the Start menu, if needed.
A message appears on the Firmware tab to alert you if a reboot is required after each component firmware upgrade (
Figure 52 (page 66) ). After the upgrade completes, the Firmware
Status changes from “Firmware updates recommended” to “A reboot is required.”
NOTE: If a reboot is not required after the component firmware upgrade completes, a green checkmark displays next to the component name.
Upgrading a component's firmware 65
Figure 52 Firmware status
8.
Open the Firmware tab in the System Manager and verify that the upgrade was successful.
You can also check the upgrade status on the System Summary tab.
If the firmware upgrade failed, the component is listed as an available upgrade in the Firmware tab after the firmware upgrade and reboot. To determine the next steps for a successful firmware upgrade, go to the Reports tab (see
) and run a report.
Resolving errors after the HP 1210m controller upgrade
If the firmware upgrade for the HP 1210m controller does not complete successfully, the controllers could stop responding. As a result, the Controller Properties dialog box in Windows Device
Manager displays “This device cannot start” and the messaging system Configuration Wizard fails to detect storage.
To resolve this issue, first try the Simple method. If the issue persists, try the Advanced method.
Simple method:
1.
Upgrade the HP 1210m controller firmware on one server blade.
2.
Upgrade the HP 1210m controller firmware on the other server blade.
3.
Shut down both server blades.
4.
Power on both server blades.
Advanced method:
1.
Shut down both server blades and power off the entire HP E5000 enclosure.
2.
Power off and disconnect all expansion disk enclosures.
3.
Pull one of the server blades a quarter of the way out of the enclosure.
4.
Power on the HP E5000 enclosure.
5.
If not already powered on, power on the server blade that remained in the enclosure.
6.
Open System Manager.
7.
Select the Firmware tab.
8.
Select the 1210m controller and click Apply Updates.
9.
Shut down the server blade that was powered on in Step 5.
66 Upgrading the messaging system
10. Power off the HP E5000 enclosure.
11. Push the other server blade back into the enclosure.
12. Reconnect the expansion disk enclosures.
13. Power on the HP E5000 enclosure and both server blades.
14. Verify that the 1210m controller firmware in both server blades is current.
Resolving an EMU upgrade issue
When upgrading the EMU firmware when running a version of E5000 software earlier than
2.02.1b, if the EMU and the server blade initiating the upgrade are not on the same subnet, the upgrade fails. The following message (an example) displays on the System Manager Firmware tab:
Flash failed for Enclosure Management Unit (EMU) using cpXXXXXX.exe.
Check log files (C:\ProgramData\Hewlett-Packard\CMP\logs\firmware.log
and C:\CPQSYSTEM\log\cpqsetup.log) for further information.
The C:\CPQSYSTEM\log\EmuFlash.log displays the following information (an example only):
Enclosure Manager information:Product Name : HP CSP EMUPart Number :
620022-001Serial Number : PBCYU0G9V0C01XUUID :
99PBCYU0G9V0C01XManufacturer
: HPFirmware Ver. : EM: 1.10 Jul 12 2011; HM: 1.3EMU Type : 1Hw Version
: Rev. BAux Info : SVN: 3221 branches/QUIRE-CSP-1-10
1.10 Jul 12 2011
Starting Flash Routine
Launching Http Server
Host IP Address:
Host IP not found
If this issue occurs, configure the EMU and server blade networking to be on the same subnet and retry the firmware upgrade.
Upgrading hardware components
To replace a hardware component with an upgrade, follow the component removal and replacement instructions in
“Removing and replacing hardware components” (page 69)
. For example, to replace the HP 1 GB Ethernet I/O module with a 10 GB module, follow the instructions in
“Removing and replacing the HP Ethernet I/O module” (page 86)
. If you need to shut down a server blade or the messaging system to replace a component, follow the instructions in
“Powering the system off and on” (page 67) .
Powering the system off and on
Follow these steps to shut down a single server blade or to perform a system shutdown:
1.
From the Windows desktop, select Start
→Shut Down as follows: a.
While you are connected to blade 2, shut down blade 2 by clicking Start, and then Shut
Down.
b.
While you are connected to blade 1, shut down blade 1 by clicking Start, and then Shut
Down.
NOTE: Let the Windows shutdown run to completion, which will power the blade off.
2.
Power off any disks in expansion disk enclosures by pressing and holding down the power button located on the back of each expansion disk enclosure.
Resolving an EMU upgrade issue 67
3.
Power off the messaging system enclosure by pressing and holding down the power button located on the back of the enclosure.
4.
Disconnect the power cables (optional).
5.
To power on the server blades and system, reconnect the power cables and power on the components in the following order:
•
Expansion disk enclosures
•
System enclosure
•
Server blades, if necessary (typically they start up when the enclosure is powered on)
68 Upgrading the messaging system
7 Removing and replacing hardware components
This chapter describes procedures for removing and replacing hardware components.
Customer self repair
HP customer self repair (CSR) programs allow you to repair your HP product. If a CSR part needs replacing, HP ships the part directly to you so that you can install it at your convenience. Some parts do not qualify for CSR. Your HP-authorized service provider determines whether a repair can be accomplished by CSR.
For more information about CSR, contact your local service provider, or see the CSR website: http://www.hp.com/go/selfrepair
Best practices for replacing components
The following sections provide information to help you successfully replace the hardware components on your system.
WARNING!
To reduce the risk of personal injury or damage to the equipment:
•
Be sure that only one component is extended from a rack at a time. A rack may become unstable if more than one component is extended at the same time.
•
Do not extend the hard drive drawers beyond the supporting surface when the unit is not installed in a rack.
CAUTION: Removing a component significantly changes the air flow within the enclosure. All components must be installed for the enclosure to cool properly. If a component fails, leave it in place in the enclosure until a new component is available for installation.
IMPORTANT: Be sure to unpack the replacement part before you remove the existing component.
During replacement of the failed component
•
HP recommends waiting until periods of low system activity to replace a component.
•
For all hot/warm swappable components (SAS I/O module, fan module, Ethernet I/O module,
PCIe module, server airflow baffle, server blades, and hard drives), be sure to unpack the replacement part before removing the existing part.
•
When replacing components at the rear of the rack, cabling may obstruct access to the component. Carefully move any cables out of the way to avoid loosening any connections.
In particular, avoid cable damage that may be caused by:
◦ Kinking or bending
◦ Disconnecting cables without capping. If uncapped, cable performance may be impaired by contact with dust, metal, or other surfaces.
◦ Placing removed cables on the floor or other surfaces where they may be walked on or otherwise compressed.
Accessing component replacement videos
HP produced videos of the procedures to assist you in replacing components. To view the videos, go to the HP Customer Self Repair Services Media Library website and navigate to your product: http://www.hp.com/go/sml
Customer self repair 69
Identifying the spare part
Parts have a nine-character spare part number on their label. For some spare parts, the part number is available in the system. Alternatively, the HP call center can assist in identifying the correct spare part number.
Replaceable parts
This product contains replaceable parts. To identify the replaceable parts, see the individual component guides listed in
Parts that are available for CSR are indicated as follows:
•
Mandatory CSR — You order the part directly from HP and repair the product yourself. On-site or return-to-depot repair is not provided under warranty.
•
Optional CSR — You can order the part directly from HP and repair the product yourself, or you can request that HP repair the product. If you request repair from HP, you may be charged for the repair depending on the product warranty.
•
No CSR — The replaceable part is not available for self repair. For assistance, contact an
HP-authorized service provider.
For more information about CSR — contact your local service provider. For North America, see the CSR website: http://www.hp.com/go/selfrepair
To determine the warranty service provided for this product, see the warranty information website: http://www.hp.com/go/storagewarranty
To order a replacement part, contact an HP-authorized service provider or see the HP Parts Store online: http://www.hp.com/buy/parts
shows an exploded view of the system.
70 Removing and replacing hardware components
Figure 53 Exploded view of the system
lists the CSR replaceable parts for the system.
Replaceable parts 71
Table 12 Messaging system replaceable parts
19
20
21
11
12
13
14
15
16
(Not shown)
(Not shown)
(Not shown)
17
18
(Not shown)
(Not shown)
Item
1
2
(Not shown)
3
4
(Not shown)
(Not shown)
5
6
7
(Not shown)
8 (E5300 only)
(Not shown)
9
10
(Not shown)
(Not shown)
Replaceable unit (RU)
Server interposer
Midplane board
.5 M mini SAS cable
Mini SAS cable 2 M
Mini SAS cable 4 M
LFF SAS I/O module
Fan modules
Part number
631117-001
631115-001
408765-001
408767-001
408768-001
631941-001
631109-001
Power UID button assembly
Power supplies
399054-001
631942-001
2-port 1 GB Ethernet module 631110-001
2-port 10 Gb Ethernet module 631111-001
Mezzanine blank
1 Gb intraconnect module
PCIe module
Enclosure Manager module
631134-001
631114-001
631942-001
631112-001
Server blade backplane
Server airflow baffle
Coil power assembly
Drive drawer bezel LFF
LFF LED display board
LFF drive drawer assembly
Hard drive drawer blanks
1 TB Hard drive
631116-001
631129-001
631130-001
631118-001
631126-001
631128-001
389015-001
508011-001
2 TB Hard drive
Drawer rails bottom
Drawer rails left
Mezzanine NIC
508010-001
631131-001
631132-001
462748-001
Right ear bezel on chassis (3, one for each model)
629960-001,
629960-002,
629960-003
1210m controller
Cache module for 1210m
Supercapacitor for 1210m
Cache
Rail kit assembly
HP 82B HBA (Brocade) PCI fibre HBA
615360-001
598414-001
587225-001
631133-001
AP770A
No
No
No
Optional
Optional
Optional
Mandatory
Mandatory
Mandatory
No
No
Optional
Optional
CSR availability
Optional
No
Mandatory
Mandatory
Mandatory
Mandatory
Mandatory
Optional
Mandatory
Mandatory
Mandatory
Mandatory
Mandatory
Optional
Mandatory
Cold
Cold
Hot
Hot
Cold
Cold
Cold
Cold
Hot
Cold
Cold
Warm
Hot
Cold
Hot
Hot
Hot
Hot
Hot
Warm
Hot
Hot
Hot
Hot
Hot
Hot
Replacement type (Cold,
Warm, Hot)
Cold
Cold
Optional
Optional
Mandatory
Optional
Optional
1
Warm
Warm
Warm
Cold
Cold
72 Removing and replacing hardware components
Table 12 Messaging system replaceable parts (continued)
Item
(Not shown)
Replaceable unit (RU)
HP 82E HBA (Emulex)
Part number
AJ763A
CSR availability
Optional
1
Replacement type (Cold,
Warm, Hot)
Warm
(Not shown) HP 82Q HBA (Q-Logic) AJ764A Optional
1
Warm
1
Used only for backup. See www.hp.com/go/ebs for information about tested backup applications.
For more information on removing and replacing components, see
for a list of individual component documents.
Table 13 Related component documents
Component
Server blade
Component name
E5460sb blades
Guide
HP ProLiant BL460c G7 Server Blade Maintenance and Service Guide
Disks in expansion disk enclosures
HP E5000 Messaging System 12 TB expansion disk enclosure and HP E5000 Messaging System
24 TB expansion disk enclosure
HP D2600/D2700 Disk Enclosure User Guide
Hot, warm, and cold swap components
Hot or warm swapping a component means removing and replacing it while the main power is still on. Cold swapping means removing and replacing the component while the main power is off. Port (purple) colored handles on components like the fan module indicate the component is hot-swappable.
IMPORTANT: Remove and replace components quickly without interrupting the process.
Preventing electrostatic discharge
CAUTION: Components can be damaged by electrostatic discharge (ESD). Use proper antistatic protection.
•
Always transport and store CSR replaceable parts in an ESD-protective enclosure.
•
Do not remove CSR replaceable parts from the ESD-protective enclosure until you are ready to install it.
•
Always use ESD precautions, such as a wrist strap, heel straps on conductive flooring, and an ESD-protective smock when handling ESD-sensitive equipment.
•
Avoid touching all connector pins, leads, or circuitry.
•
Do not place ESD-generating material such as paper or non-antistatic (pink) plastic in an
ESD-protective with ESD-sensitive equipment.
Verifying component failure
Use the following methods to verify component failure:
•
Analyze any failure messages received. Fault monitoring software from HP provides a recommended action.
•
From the System Manager, select the System Summary tab to check the enclosure health status or select the Hardware Status tab to identify a failed component. See
for more information.
•
You can also use the System Management Homepage to identify hardware problems. For example, to identify the affected enclosure, select Unit Identification Device in the Enclosure pane and then on the Unit Identification Device window, click On. The blue UID indicator on
Hot, warm, and cold swap components 73
the controller enclosure blinks. See
“HP System Management Homepage” (page 38)
for more information.
•
Look for a blinking amber LED on the component. See
for LED information.
Verifying proper operation
After replacing a system component, check the following to verify that the component is operating properly:
•
If applicable, verify that the green LED is lit continuously or blinking. If not, try reseating the component.
•
From the System Manager, navigate to the Hardware Status and System Summary tabs to confirm the component failure alert no longer appears. The status should be (Good).
Wait times for hard disks
If the hard drive is part of a volume, the following wait times apply:
Removal: Less than three seconds for the LED to turn off
Insert:
•
Less than one second for first disk activity
•
Less than 15 seconds for the disk to be ready for REBUILD. The LED blinks at 1 Hz.
NOTE: The transition to solid green depends on how long the REBUILD takes (the LEDs indicate REBUILD).
If the hard drive is not part of a volume, the following wait times apply:
Removal: No indication appears because the LED is already off
Insert:
•
Less than one second for the first disk activity to appear
•
Less than 15 seconds for the disk to be ready to use
74 Removing and replacing hardware components
Removing the system enclosure from the rack
1.
Extend the hard drive drawer (
): a.
Press upward on the release button on the hard drive drawer (1).
b.
Pull the drawer handle down 90 degrees (2).
c.
Extend the hard drive drawer (3).
Figure 54 Extending the hard drive drawer
2.
Label the hard drives (
IMPORTANT: Use the drive labels provided with the replacement part when removing the drives to ensure you replace the drives in the correct order.
Figure 55 Hard drive labeling
3.
Remove all hard drives.
WARNING!
Carefully check the drive labels provided with the replacement board, and then install the hard drives in the same slots from which you removed them. If the drives are not installed in the correct slots, the system might fail.
4.
Push the hard drive drawer back into the system enclosure.
5.
Label each server blade and then remove both server blades.
6.
Label the cables and then unplug all cables from the back of the system enclosure.
Removing the system enclosure from the rack 75
7.
Unscrew the retaining screws from the bezel ears, and then remove the enclosure from the rack.
WARNING!
The system enclosure is heavy, even after removing the hard drives. Always use at least two people to remove the system from the rack.
Inserting the system enclosure into the rack
1.
Place the enclosure into the rack, and secure the enclosure by tightening the two retaining screws.
WARNING!
The system enclosure is heavy, even after removing the hard drives. Always use at least two people to replace the system in the rack.
2.
Replace both server blades in their original bays.
3.
Extend the hard drive drawer (
a.
Press upward on the release button on the hard drive drawer (1).
b.
Pull the drawer handle down 90 degrees (2).
c.
Extend the hard drive drawer (3).
Figure 56 Extending the hard drive drawer
4.
Replace all hard drives.
IMPORTANT: Install the hard drives in the same slots from which you removed them or the system might fail. Use the drive labels to ensure that you replace the drives in the correct order.
5.
Push the hard drive drawer back into the system enclosure.
6.
Plug in all cables at the back of the system enclosure, and ensure that all cables are returned to their original locations.
7.
Power on the system by pressing the power button ON.
8.
Confirm that the system has resumed normal operations.
Removing and replacing the server interposer board
Removing the server interposer board
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Power off the system as described in
“Powering the system off and on” (page 67) .
3.
Remove the enclosure from the rack as described in
“Removing the system enclosure from the rack” (page 75)
.
76 Removing and replacing hardware components
4.
Remove the top back panel by pressing the panel release button and lifting the latch to slide the top back panel off.
5.
Open the release handle (1,
), and pull up to remove the server interposer board (2,
).
NOTE: You may need to use significant force to accomplish this task.
Figure 57 Removing the server interposer board
Replacing the server interposer board
1.
With the release handle open, align the server interposer board with the alignment pins (1,
Figure 58 (page 77) ), and then close the server interposer release mechanism (2, Figure 58
).
NOTE: Remember to move the server backplane power cable out of the way of the alignment pins.
Figure 58 Replacing the server interposer board
2.
Reinstall the top back panel.
3.
Replace the enclosure in the rack as described in
“Inserting the system enclosure into the rack”
.
Removing and replacing the server interposer board 77
Removing and replacing the midplane board
Removing the midplane board
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Power off the system as described in
“Powering the system off and on” (page 67) .
3.
Remove the enclosure from the rack as described in
“Removing the system enclosure from the rack” (page 75)
.
4.
Remove the top back panel by pressing the panel release button and lifting the latch to slide the top back panel off.
5.
Remove all modules from the back of the enclosure.
NOTE: Make a note of all module locations so they can be placed back into their original locations.
6.
Open the release handle (1,
), and pull up to remove the server interposer board (2,
).
NOTE: This step may require significant force to accomplish.
Figure 59 Removing the server interposer board
7.
Remove the plug bracket (2,
Figure 60 (page 78) ) from the coil power plug by removing the
thumbscrew (1).
Figure 60 Removing the plug bracket from the coil power plug
78 Removing and replacing hardware components
8.
Unplug the coil power assembly from the midplane board ( Figure 61 (page 79)
).
Figure 61 Unplugging the coil power assembly
9.
Extend the server blades.
10. Remove the server blade airflow baffle from inside the enclosure ( Figure 62 (page 79) ).
Figure 62 Removing the server blade airflow baffle
11. Unplug the power cable from the server blade midplane (1,
Figure 63 (page 79) ), and then
unplug the rear UID PCA from the midplane board (2).
Figure 63 Unplugging the power cable and the UID PCA
Removing and replacing the midplane board 79
12. Complete the following (
): a.
Loosen the two thumbscrews holding midplane board in place (1).
b.
Pull the captive locking pin out of the midplane board (2).
c.
Lift the midplane board out of the enclosure (3).
Figure 64 Removing the midplane board
Replacing the midplane board
1.
On the replacement midplane board, pull out the captive locking pin as you lower the board into the enclosure (1,
).
2.
To complete the installation of the replacement midplane board: a.
Push the captive locking pin into the midplane board (2).
b.
Tighten the two thumbscrews holding the midplane board in place (3).
Figure 65 Installing the midplane board
3.
Plug the rear UID PCA into the midplane board.
4.
Plug the power cable into the server blade midplane.
5.
Partially insert the drive drawer.
6.
Plug the coil power plug into the midplane board.
7.
Reattach the coil power plug bracket.
8.
Reinsert the server blade airflow baffles.
9.
Reinstall the server interposer board, see
“Replacing the server interposer board” (page 77) .
10. Push the hard drive drawer back into the enclosure.
80 Removing and replacing hardware components
11. Replace the top back panel.
12. Reinsert all rear components in the enclosure.
13. Replace the enclosure in the rack as described in
“Inserting the system enclosure into the rack”
.
Removing and replacing a SAS cable
CAUTION: Remove only one cable at a time to prevent downtime.
IMPORTANT: Check the QuickSpecs for the device before you purchase and connect SAS cables to ensure that the cables do not exceed the maximum supported length. Only specific cable lengths were tested and approved for use with external expansion disk enclosures.
Ensure that cabling in the back of the rack system does not interfere with system operation or maintenance. Bind cables loosely with cable ties and route the excess out of the way, along the side of the rack. When cables are tied together and routed down the side of the rack, system components and indicators are easily visible and accessible.
Removing a SAS cable
Remove the SAS cable that connects the system SAS I/O module to the expansion disk enclosure.
Replacing a SAS cable
1.
Connect the SAS cable between the system SAS I/O module and the expansion disk enclosure.
2.
Verify that the replacement SAS cable is working properly by checking the associated LED status on the SAS I/O module.
3.
Confirm that the system has resumed normal operations.
Removing and replacing the SAS I/O module
Removing the SAS I/O module
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Label the cables so they can be returned to their original locations.
3.
Unplug all cables from the SAS I/O module.
IMPORTANT: The SAS I/O cables must be installed in the same slots from which they are removed or the system might fail.
4.
Pull up on the SAS I/O module release button (1,
Removing and replacing a SAS cable 81
5.
Push down on the SAS I/O module lever (2,
), and then remove the failed
SAS I/O module (3,
NOTE: You may need to use significant force to accomplish this task.
Figure 66 Removing the SAS I/O module
Replacing the SAS I/O module
1.
To install the replacement SAS I/O module ( Figure 67 (page 82)
): a.
Insert the SAS I/O module into the enclosure (1).
b.
Push up on the SAS I/O module lever (2) until it locks into place.
NOTE: You may need to use significant force to accomplish this task.
Figure 67 Replacing the SAS I/O module
2.
Plug in all cables to the SAS I/O module.
IMPORTANT: You must install the SAS I/O cables in the same slots from which they were removed or the system might fail.
3.
Verify that the replacement SAS I/O module is working properly by checking the overall
module status LED ( “SAS I/O module LEDs status” (page 54) ).
NOTE: The green overall module status LED should turn on within five seconds after the new module is inserted in the system, which reflects the necessary time to boot the firmware.
82 Removing and replacing hardware components
4.
Confirm the firmware version.
5.
Confirm that the system has resumed normal operations.
Removing and replacing the fan module
There are two fan modules: one server fan module, which cools the server half of the enclosure, and one hard drive fan module, which cools the drive half of the enclosure. The two fan modules are not redundant for each other.
CAUTION: You must replace the server fan module within three minutes or a thermal shutdown of the system may occur. The total time allowance is three minutes for replacing the fan module, which includes the removal of the original server fan module and installation of the replacement fan.
Removing a fan module significantly changes the air flow within the enclosure. Both fan modules must be installed for the enclosure to cool properly. The fan modules are not redundant to each other, and each module cools a different half of the enclosure. If a single fan module fails, leave it in place in the enclosure until a new fan is available to install. The fan modules have some built-in redundancy to keep operating until a replacement can be made. The remaining fan module speeds up and allows operation for a limited time, based on operating and environmental conditions. If a temperature threshold is exceeded, the enclosure automatically shuts down.
Removing the fan module
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Press up on the drive fan module release lever (1,
) and remove the fan module (2).
Figure 68 Removing the fan module
Removing and replacing the fan module 83
Replacing the fan module
1.
Insert the replacement fan module (
).
Figure 69 Replacing the fan module
2.
Verify that the replacement component is working properly by checking the associated LED status.
NOTE: It should take approximately 15 seconds for the LED status to appear.
3.
Confirm that the system has resumed normal operations.
Removing and replacing the power UID button assembly
Removing the power UID button assembly
1.
Power off the system as described in
“Powering the system off and on” (page 67) .
2.
Remove the enclosure from the rack as described in
“Removing the system enclosure from the rack” (page 75)
.
3.
Remove the top back panel by pressing the panel release button and lifting the latch to slide the top back panel off.
4.
Remove the hard drive fan module (
).
Figure 70 Removing the fan module
84 Removing and replacing hardware components
5.
Complete the following (
): a.
Unplug the cable from the power UID button assembly (1).
b.
Remove the screw from the power UID button assembly (2).
c.
Remove the faulty power UID button assembly (3).
Figure 71 Removing the power UID button assembly
Replacing the power UID button assembly
1.
Complete the following (
): a.
Insert the replacement power UID button assembly (1).
b.
Replace the screw in the power UID button assembly (2).
c.
Plug the cable into the power UID button assembly (3).
Figure 72 Replacing the power UID button assembly
2.
Push the hard drive drawer back in the system enclosure.
3.
Replace the hard drive fan module.
4.
Replace the top back panel.
5.
Replace the enclosure as described in
“Inserting the system enclosure into the rack” (page 76)
.
Removing and replacing the power supply
Removing the power supply
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Remove the power cord from the power supply.
3.
Press the power supply release lever to the left.
4.
Remove the failed power supply.
Removing and replacing the power supply 85
Replacing the power supply
1.
Insert the replacement power supply.
2.
Plug the power cord into the power supply.
3.
Verify that the replacement component is working properly by checking the associated LED status.
4.
Confirm that the system has resumed normal operations.
Removing and replacing the HP Ethernet I/O module
Removing the HP Ethernet I/O module
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Label the cables, and then unplug all cables from the HP Ethernet I/O module.
3.
Press the module release mechanism to the right (1,
), and then remove the failed module (2).
Figure 73 Removing the HP Ethernet I/O module
Replacing the HP Ethernet I/O module
1.
Insert the replacement HP Ethernet I/O module ( Figure 74 (page 86) ).
Figure 74 Replacing the HP Ethernet I/O module
2.
Plug in all cables to the replacement module to their original locations.
86 Removing and replacing hardware components
3.
Verify that the replacement component is working properly by checking the associated LED status.
NOTE: It should take approximately 15 seconds for the LED status to display.
4.
Confirm the firmware version.
5.
Confirm that the system has resumed normal operations.
Removing and replacing the PCIe module (with card)
Removing the PCIe module
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Use the System Manager to identify which server needs to have the PCIe module removed. If it is for both servers, then perform this operation for one server, then the other server, so that both servers are not turned off at the same time.
3.
Power off the appropriate server blade associated with the PCIe module that is being removed.
Server 1 is the top server, and the PCIe module is on the left when looking from the back.
Server 2 is the bottom server, and the PCIe module is on the right when looking from the back.
CAUTION: Be sure to power off the server before removing the PCIe module.
4.
Label the cables so they can be returned to their original locations.
5.
Unplug all cables from the PCIe module.
6.
Press the PCIe module release mechanism to release the handle (1,
), and then pull the handle to remove the PCIe module from the system (2).
Figure 75 Removing the PCIe module
Removing and replacing the PCIe module (with card) 87
7.
Complete the following (
a.
Remove the two screws from the bracket of the failed PCIe module (1).
b.
Remove the bracket (2).
c.
Remove the PCIe card from the failed module (3).
Figure 76 Removing the PCIe card
Replacing the PCIe module
1.
Install the PCIe card in the replacement module (1,
Figure 77 (page 88) ), replace the bracket
(2), and then reinsert the two screws into the bracket of the replacement module (3).
Figure 77 Installing the PCIe card
2.
Insert the replacement PCIe module into the system (1,
Figure 78 (page 89) ), and lock the
release lever (2).
NOTE: The PCIe module should be inserted with the lever in the open position.
88 Removing and replacing hardware components
Figure 78 Installing the PCIe module
3.
Plug in all cables to the PCIe module in their original locations.
4.
Power on the server blade by pressing the power button ON.
5.
Verify that the replacement component is working properly by checking the associated LED status.
6.
Confirm that the system has resumed normal operations.
Removing and replacing the EMU module
Removing the EMU module
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Unplug any cables from the EMU module.
3.
Press the EMU module release lever to the right (1,
), and then remove the EMU module (2).
Figure 79 Removing the EMU
Removing and replacing the EMU module 89
Replacing the EMU module
1.
Insert the replacement EMU module and ensure the release lever locks in place ( Figure 80
).
Figure 80 Installing the EMU
2.
Plug the cables back into the EMU module.
3.
Verify that the new component is working properly by checking the associated LED status.
4.
Confirm the firmware version.
5.
Obtain an IP address.
IMPORTANT: Some of the configuration information is automatically repopulated, but you must reconfigure the network settings and password.
6.
Confirm that the system has resumed normal operations.
NOTE: This may take approximately one minute, or the time it takes for the Enclosure Manager to boot.
Removing and replacing the server blade backplane
Removing the server blade backplane
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Power off the system as described in
“Powering the system off and on” (page 67) .
3.
Remove the enclosure from the rack as described in
“Removing the system enclosure from the rack” (page 75)
.
4.
Remove the top back panel by pressing the panel release button and lifting the latch to slide the top back panel off.
5.
Remove the midplane board as described in
“Removing the midplane board” (page 78) .
6.
Remove the small baffle from beside the server blade backplane by pinching the tabs and lifting the small baffle out of the enclosure.
7.
Remove the large baffle from the bottom of the enclosure.
90 Removing and replacing hardware components
8.
Complete the following (
): a.
Unplug the power cable from the server blade backplane by pinching the plug release mechanism (1).
b.
Remove the screw (2).
c.
Remove the server blade backplane from the enclosure (3).
Figure 81 Removing the server blade backplane
Replacing the server blade backplane
1.
Complete the following (
a.
Install the replacement server blade backplane (1).
b.
Replace the screw (2).
c.
Plug in the power cable (3).
Figure 82 Installing the server blade backplane
2.
Replace the large baffle on the bottom of the enclosure.
3.
Replace the small baffle beside the server blade backplane.
Removing and replacing the server blade backplane 91
4.
Replace the midplane board (
a.
Pull out the captive locking pin as you lower the board into the enclosure (1).
b.
Push the captive locking pin into the midplane board (2).
c.
Tighten the two thumbscrews holding the midplane board in place (3).
Figure 83 Installing the midplane board
5.
Plug the rear UID PCA into the midplane board.
6.
Replace the midplane board as described in
“Replacing the midplane board” (page 80)
.
Removing and replacing the server airflow baffle
Removing the server airflow baffle
1.
Power off the system as described in
“Powering the system off and on” (page 67) .
2.
Remove the enclosure from the rack as described in
“Removing the system enclosure from the rack” (page 75)
.
3.
Remove the top back panel by pressing the release button and lifting the latch to slide the top back panel off.
4.
Remove the server blade airflow baffle from inside the enclosure ( Figure 84 (page 92)
).
Figure 84 Removing the server blade airflow baffle
92 Removing and replacing hardware components
Replacing the server airflow baffle
1.
Install the replacement server blade airflow baffle (
Figure 85 Installing the server blade airflow baffle
2.
Reinstall the top back panel.
3.
Replace the enclosure as described in
“Inserting the system enclosure into the rack” (page 76)
.
Removing and replacing the front bezel (standard)
NOTE: Use
“Removing and replacing the front bezel (full)” (page 95)
if you are not able to reach all of the screws due to the position of the system in the rack.
Removing the front bezel
1.
Power off the system as described in
“Powering the system off and on” (page 67) .
2.
Extend the hard drive drawer (
a.
Press upward on the release button on the hard drive drawer (1).
b.
Pull the drawer handle down 90 degrees (2).
c.
Extend the hard drive drawer (3).
Figure 86 Extending the hard drive drawer
Removing and replacing the front bezel (standard) 93
3.
Remove all eight screws from the front bezel (1,
), and then lift the front bezel up and out to remove the front bezel (2).
NOTE: There are two screws on the bottom, four screws on the sides (two on each side), and two screws hidden behind the handle.
Figure 87 Removing the front bezel
Replacing the front bezel
1.
Install the replacement front bezel with the handle at a 90 degree angle making sure the bottom pins are aligned with the bottom holes (1,
), and replace the screws into the front bezel (2).
NOTE: There are two screws on the bottom, four screws on the sides (two on each side), and two screws hidden behind the handle.
Figure 88 Replacing the front bezel
2.
Push the drive drawer back into the system enclosure.
3.
Power on the system by pressing the power button ON.
4.
Verify that the replacement component is working properly by checking the associated LED status.
5.
Confirm that the system has resumed normal operations.
94 Removing and replacing hardware components
Removing and replacing the front bezel (full)
NOTE: This full procedure is only required if all screws are not accessible due to the position of the system in the rack.
Removing the front bezel (full)
1.
Power off the system as described in
“Powering the system off and on” (page 67) .
2.
Remove the enclosure from the rack as described in
“Removing the system enclosure from the rack” (page 75)
.
3.
Pull the hard drive handle down 90 degrees, and slide out the hard drive drawer.
4.
Remove all eight screws from the front bezel and pull the handle down 90 degrees (1,
). Then lift the front bezel up and out to remove the front bezel (2).
NOTE: There are two screws on the bottom, four screws on the sides (two on each side), and two screws hidden behind the handle.
Figure 89 Removing the front bezel
Removing and replacing the front bezel (full) 95
Replacing the front bezel (full)
1.
Install the replacement front bezel with the handle at a 90 degree angle, making sure the bottom pins are aligned with the bottom holes (1,
), and replace the screws in the front bezel (2).
NOTE: There are two screws on the bottom, four screws on the sides (two on each side), and two screws hidden behind the handle.
Figure 90 Replacing the front bezel
2.
Close the drive handle.
3.
Push the drive drawer back into the system enclosure.
4.
Replace the enclosure as described in
“Inserting the system enclosure into the rack” (page 76)
.
Removing and replacing the front LED display board in the rack (standard)
NOTE: If you are not able to access all of the screws due to the enclosure position in the rack, use the full procedure instructions.
Removing the front LED display board in the rack
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Power off the system as described in
“Powering the system off and on” (page 67) .
3.
Remove the front bezel as described in
“Replacing the front bezel” (page 94)
.
96 Removing and replacing hardware components
4.
Complete the following (
): a.
Disconnect the LED display board from the drive backplane by pinching the ends of the
LED display board cable together (1).
b.
Remove the four screws from the LED display board (2).
c.
Remove the LED display board from the drive drawer (3).
Figure 91 Removing the front LED display board
Replacing the front LED display board in the rack
1.
Complete the following (
a.
Install the replacement LED display board (1).
b.
Replace the four LED display board screws (2).
c.
Reconnect the LED display board to the drive drawer (3).
Figure 92 Installing the front LED display board
2.
Replace the front bezel as described in
“Replacing the front bezel” (page 94)
.
Removing and replacing the front LED display board (full)
Removing the front LED display board (full)
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Power off the system as described in
“Powering the system off and on” (page 67) .
3.
Remove the enclosure as described in
“Removing the system enclosure from the rack” (page 75)
.
Removing and replacing the front LED display board (full) 97
4.
Pull the hard drive drawer handle down 90 degrees, and slide out the hard drive drawer.
5.
Remove all eight screws from front bezel (1,
Figure 93 (page 98) ). Then, lift the front bezel
up and out to remove the front bezel (2).
NOTE: There are two screws on the bottom, four screws on the sides (two on each side), and two screws hidden behind the handle.
Figure 93 Removing the front bezel
6.
Complete the following (
): a.
Disconnect the LED display board from the drive backplane by pinching the ends of the
LED display board cable together (1).
b.
Remove the four screws from the LED display board (2).
c.
Remove the LED display board from the drive drawer (3).
Figure 94 Removing the front LED display board
98 Removing and replacing hardware components
Replacing the front LED display board (full)
1.
Complete the following (
a.
Install the replacement LED display board (1).
b.
Replace the four LED display board screws (2).
c.
Reconnect the LED display board to the drive drawer (3).
Figure 95 Installing the front LED display board
2.
Replace the front bezel as described in
“Replacing the front bezel (full)” (page 96) .
Removing and replacing a drive drawer
Removing the drive drawer
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Power off the system as described in
“Powering the system off and on” (page 67) .
3.
Remove the enclosure as described in
“Removing the system enclosure from the rack” (page 75)
.
4.
Remove the top back panel by pressing the panel release button and lifting the latch to slide the top back panel off.
5.
Remove the hard drive fan module (
).
Figure 96 Removing the fan module
6.
Push up on the SAS I/O module release button (1,
7.
Push down on the SAS I/O module lever (2,
Figure 97 (page 100) ), and then remove the SAS
I/O module (3).
NOTE: This step may require significant force to accomplish.
Removing and replacing a drive drawer 99
Figure 97 Removing the SAS I/O module
8.
Extend the drive drawer ( Figure 54 (page 75)
): a.
Press upward on the release button on the hard drive drawer (1).
b.
Pull the drawer handle down 90 degrees (2).
c.
Extend the hard drive drawer (3).
Figure 98 Extending the hard drive drawer
NOTE: You must repeat Step 8 for the remaining SAS I/O module.
9.
Remove the plug bracket (2,
) from the coil power plug by removing the thumbscrew (1).
100 Removing and replacing hardware components
Figure 99 Removing the plug bracket from the coil power plug
10. Unplug the coil power assembly from the midplane board ( Figure 100 (page 101)
).
Figure 100 Unplugging the coil power assembly
11. Press the release mechanism on the side rail (1,
Figure 101 (page 101) ), and then pull the hard
drive drawer fully out of the enclosure (2).
WARNING!
The hard drive drawer is heavy, even after removing the hard drives. Make sure the drawer is fully supported as you remove it from the enclosure.
Figure 101 Removing the drive drawer
Removing and replacing a drive drawer 101
Replacing the drive drawer
1.
Unlock the side enclosure rail and push it into the back enclosure (
).
2.
Align the bottom replacement drive drawer rails with the bottom enclosure rails.
Figure 102 Unlocking the enclosure rails
3.
Align the side rails and then push the replacement drive drawer partially back into the system enclosure until approximately two inches of the drawer is still out of the enclosure (
).
CAUTION: Do not push the drive drawer completely into the enclosure. You must first connect the power coil assembly to prevent damaging the power coil assembly.
Figure 103 Partially installing the drive drawer
4.
Pull the cable slightly out of the coil power plug and connect it to the midplane board
(
102 Removing and replacing hardware components
Figure 104 Connecting the coil power assembly to the midplane board
5.
Reattach the plug bracket (1,
Figure 105 (page 103) ) to the coil power plug and tighten the
thumbscrew (2).
Figure 105 Reattaching the plug bracket to the coil power plug
6.
Push the drive drawer fully back into the system enclosure (1,
) and the handle back into place (2).
Removing and replacing a drive drawer 103
Figure 106 Pushing the drive drawer into the system enclosure
7.
Replace the top back panel.
8.
Replace the drive fan module.
9.
Replace both SAS I/O modules.
10. Replace the enclosure as described in
“Inserting the system enclosure into the rack” (page 76)
.
Removing and replacing the drive drawer hard drive
CAUTION:
•
Do not replace the hard drive with a SATA drive. Be sure to replace the hard drive only with an approved SAS drive.
•
Do not replace the drive drawer hard drive during peak data transfer times. Make sure the hard drive LED is off before you remove the hard drive.
•
Ensure that the capacity of the replacement drive is at least equal to the capacity of the original drive. The capacity of the replacement drive should not be smaller.
NOTE: After replacing the hard drives, the approximate wait times for viewable disk LED activity vary.
Removing the drive drawer hard drive
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
104 Removing and replacing hardware components
2.
Extend the hard drive drawer (
a.
Press upward on the release button on the hard drive drawer (1).
b.
Pull the drawer handle down 90 degrees (2).
c.
Extend the hard drive drawer (3).
Figure 107 Extending the hard drive drawer
3.
Locate the failed hard drive.
NOTE: Use the hard drive bay labels and the drive LED status (an amber LED or no LEDs) to help identify the failed drive.
4.
To remove the failed hard drive ( Figure 108 (page 105)
): a.
Press the release button (1).
b.
Pull the release lever (2).
c.
Remove the hard drive (3).
Figure 108 Remove the failed hard drive
Removing and replacing the drive drawer hard drive 105
Replacing the drive drawer hard drive
1.
Install the hard drive ( Figure 109 (page 106)
): a.
Insert the replacement hard drive with the lever in the open position (1).
b.
Push the release lever into place (2).
Figure 109 Installing the hard drive
2.
Push the drive drawer back into the system enclosure.
3.
Verify that the replacement component is working properly by checking the associated LED status.
NOTE: This may require a wait time of less than 15 seconds for the LED status to appear.
4.
Confirm that the system has resumed normal operations.
5.
Confirm the hard drive firmware version.
IMPORTANT: You must reboot the storage solution after updating the drive drawer hard drive firmware.
Removing and replacing the drive drawer rails (side or bottom)
NOTE: Spare rail kits consist of rail pairs, one side rail, and two bottom drive drawer rails. See
“Removing and replacing the enclosure rails” (page 111)
for enclosure rail instructions.
Removing the drive drawer rails
1.
Power off the system as described in
“Powering the system off and on” (page 67) .
2.
Remove the enclosure as described in
“Removing the system enclosure from the rack” (page 75)
.
3.
Remove the top back panel by pressing the panel release button and lifting the latch to slide the top back off.
106 Removing and replacing hardware components
4.
Extend the hard drive drawer (
a.
Press upward on the release button on the hard drive drawer (1).
b.
Pull the drawer handle down 90 degrees (2).
c.
Extend the hard drive drawer (3).
Figure 110 Extending the hard drive drawer
5.
Remove the plug bracket (2,
) from the coil power plug by removing the thumbscrew (1).
Figure 111 Removing the plug bracket from the coil power plug
6.
Unplug the coil power assembly from the midplane board ( Figure 112 (page 108) ).
Removing and replacing the drive drawer rails (side or bottom) 107
Figure 112 Unplugging the coil power assembly
7.
Press the release mechanism on the side rail (1,
Figure 113 (page 108) ), and then pull the hard
drive drawer fully out of the enclosure (2).
WARNING!
The hard drive drawer is heavy, even after removing the hard drives. Make sure the drawer is fully supported as you remove it from the enclosure.
Figure 113 Removing the drive drawer
108 Removing and replacing hardware components
8.
Lift the release tab on the side or bottom rail (1,
), and then slide the rail toward the front of the drive drawer to remove the rail (2).
NOTE: Repeat this step for all rails.
Figure 114 Removing the drive drawer rails
Replacing the drive drawer rails
1.
Align the replacement rail with the tabs, and slide it toward the back of the drive drawer until
the rail locks into place ( Figure 115 (page 109)
).
Figure 115 Installing the drive drawer rails
2.
Align the replacement drive drawer rail with the three enclosure rails and then push the drive drawer partially back into the system enclosure so that approximately two inches of the drawer is still out of the enclosure (
).
CAUTION: Do not push the drive drawer completely into the enclosure. You must first connect the power coil assembly to prevent damaging the power coil assembly.
Removing and replacing the drive drawer rails (side or bottom) 109
Figure 116 Partially installing the drive drawer
3.
Pull the cable slightly out of the coil power plug and connect it to the midplane board
(
).
Figure 117 Connecting the coil power assembly to the midplane board
4.
Reattach the plug bracket (1,
Figure 118 (page 111) ) to the coil power plug and tighten the
thumbscrew (2).
110 Removing and replacing hardware components
Figure 118 Reattaching the plug bracket to the coil power plug
5.
Push the drive drawer fully back into the system enclosure (1,
Figure 119 (page 111) ) and the
handle back into place (2).
Figure 119 Pushing the drive drawer into the system enclosure
6.
Replace the top back panel.
7.
Replace the enclosure as described in
“Inserting the system enclosure into the rack” (page 76)
.
Removing and replacing the enclosure rails
Removing the enclosure rails
1.
Power off the system as described in
“Powering the system off and on” (page 67) .
2.
Remove the enclosure as described in
“Removing the system enclosure from the rack” (page 75)
.
Removing and replacing the enclosure rails 111
3.
Extend the hard drive drawer (
): a.
Press upward on the release button on the hard drive drawer (1).
b.
Pull the drawer handle down 90 degrees (2).
c.
Extend the hard drive drawer (3).
Figure 120 Extending the hard drive drawer
4.
Remove the plug bracket (2,
Figure 121 (page 112) ) from the coil power plug by removing the
thumbscrew (1).
Figure 121 Removing the plug bracket from the coil power plug
5.
Unplug the coil power assembly from the midplane board ( Figure 122 (page 113) ).
112 Removing and replacing hardware components
Figure 122 Unplugging the coil power assembly
6.
Press the release mechanism on the side rail (1,
Figure 123 (page 113) ), and then pull the hard
drive drawer fully out of the enclosure (2).
Figure 123 Removing the drive drawer
7.
Lift the release mechanism on the rail (side or bottom) (1,
), and then push the rail back and up to release and remove the rail (2).
Figure 124 Removing the enclosure rails
Removing and replacing the enclosure rails 113
Replacing the enclosure rails
1.
Align the replacement rail, and then attach it by sliding the rail toward the front of the enclosure
(
).
Figure 125 Installing the enclosure rails
2.
Align the replacement drive drawer rail with the three enclosure rails and then push the drive drawer partially back into the system enclosure so that approximately two inches of the drawer is still out of the enclosure (
).
CAUTION: Do not push the drive drawer completely into the enclosure. You must first connect the power coil assembly to prevent damaging the power coil assembly.
Figure 126 Partially installing the drive drawer
3.
Pull the cable slightly out of the coil power plug and connect it to the midplane board
(
).
114 Removing and replacing hardware components
Figure 127 Connecting the coil power assembly to the midplane board
4.
Reattach the plug bracket (1,
Figure 128 (page 115) ) to the coil power plug and tighten the
thumbscrew (2).
Figure 128 Reattaching the plug bracket to the coil power plug
5.
Push the drive drawer fully back into the system enclosure (1,
Figure 129 (page 116) ) and the
handle back into place (2).
Removing and replacing the enclosure rails 115
Figure 129 Pushing the drive drawer into the system enclosure
6.
Replace the enclosure as described in
“Inserting the system enclosure into the rack” (page 76)
.
Removing and replacing the rack rails
For detailed instructions on installing the rack rails, see the HP 3U Storage System Rail Kit Installation
Instructions.
Removing and replacing server blades
Removing the server blade
CAUTION: Do not use the server blade release lever to lift or carry the server blade. Always support the weight of the server blade by handling the chassis directly. Improper use can damage the release lever and the server blade.
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Power off the appropriate server blade by clicking Start and then select Shut Down.
3.
Remove the server blade ( Figure 130 (page 116)
): a.
Push the button to release the handle (1).
b.
Pull the handle toward you (2).
c.
Remove the server blade (3).
Figure 130 Removing the server blade
116 Removing and replacing hardware components
4.
Place the server blade on a flat, level work surface.
WARNING!
To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them.
CAUTION: To prevent damage to electrical components, properly ground the server blade before beginning any installation procedure. Improper grounding can cause ESD damage.
Replacing the server blade
1.
Install the server blade (1,
), and then push the handle into place with the handle open (2).
Figure 131 Replacing the server blade
2.
Power on the server blade.
3.
Confirm that the system has resumed normal operations.
Removing and replacing the server blade hard drive
Removing the server blade hard drive
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Back up all data on the hard drive.
Removing and replacing the server blade hard drive 117
3.
Remove the server blade hard drive (
): a.
Press the release button (1).
b.
Pull the release lever (2).
c.
Remove the hard drive (3).
CAUTION: To prevent improper cooling and thermal damage, replace the drive quickly. Do not operate the server unless all bays are populated.
Figure 132 Removing the server blade hard drive
Replacing the server blade hard drive
1.
Install the hard drive ( Figure 133 (page 118) ):
a.
Insert the replacement hard drive with the lever in the open position (1).
b.
Push the release lever into place (2).
Figure 133 Installing the hard drive
2.
Verify that the server blade hard drive is working properly by checking the associated LED status.
NOTE: This may require a wait time of less than 15 seconds for the LED status to appear.
3.
Confirm that the system has resumed normal operations.
4.
Confirm the firmware version.
NOTE: You must reboot the system after updating a server blade hard drive.
118 Removing and replacing hardware components
Removing and replacing the 1210m controller board components
Removing the 1210m controller card
WARNING!
Wear gloves or use care when removing the capacitor pack to avoid physical injury.
1.
Verify the failed component as described in
“Verifying component failure” (page 73) .
2.
Back up all data.
3.
Close all applications.
4.
To power off the server blade, click Start, and then select Shut down.
5.
Remove the server blade ( Figure 134 (page 119)
): a.
Push the button to release the handle (1).
b.
Pull the handle toward you (2).
c.
Remove the server blade from the enclosure (3).
Figure 134 Removing the server blade
6.
Press the release button on the access panel and slide the access panel to the left to remove it.
7.
The original cache module is connected to a capacitor pack, so observe the cache module
LEDs:
•
If the amber LED is solid, data transfer to the flash device on the cache module is in progress. Do not remove the cache module until the amber LED is off, and then continue with the next step.
•
If the amber LED is not lit, proceed to the next step.
8.
Open the ejector latches (1,
) on each side of the cache module slot.
Typically, opening the ejector latches ejects the cache module automatically. If the module does not eject automatically after you open the ejector latches, remove the cache module (2) by grasping only the edges.
Figure 135 Removing the cache module
Removing and replacing the 1210m controller board components 119
9.
Remove the capacitor pack (2,
).
The 1210m cache module (1) and the 1210m controller card (3) are also shown.
Figure 136 Removing the capacitor pack
NOTE: Be sure to first remove the capacitor pack bracket.
10. Loosen the two captive screws and remove the 1210m controller card (
Figure 137 Removing the controller card
120 Removing and replacing hardware components
Replacing the 1210m controller card
1.
Install the cache module and capacitor in the cache module slot of the replacement controller.
2.
Close the ejector latches on the cache module slot.
3.
Install the replacement controller card (1,
). Press down on the connector to seat the card (2).
CAUTION: Be sure not to press on the cache module when replacing the controller card. It could damage the controller card and result in errors.
Figure 138 Replacing the 1210m controller card
4.
Tighten the captive screws.
5.
Replace the capacitor in its cradle.
6.
Install the access panel.
7.
Install the server blade in the enclosure.
8.
Confirm that the replacement 1210m controller is running current firmware (see
“Upgrading a component's firmware” (page 62)
).
NOTE: You must reboot the storage solution after updating firmware on the 1210m controller because both controllers must be updated at the same time.
Removing and replacing the 1210m cache module
Removing the 1210m cache module
WARNING!
Wear gloves or use care when removing the capacitor pack to avoid physical injury.
CAUTION:
•
When replacing the cache module, ensure that the replacement is compatible with the 1210m controller. Otherwise, the controller could malfunction and you could lose data.
•
ESD can damage electronic components. Be sure you are properly grounded before performing this procedure.
1.
Back up all data.
2.
Close all applications.
3.
Power off the server blade.
Removing and replacing the 1210m controller board components 121
4.
Remove the server blade ( Figure 139 (page 122) ):
a.
Push the button to release the handle (1).
b.
Pull the handle toward you (2).
c.
Remove the server blade (3).
Figure 139 Removing the server blade
5.
Press the release button on the access panel and slide the access panel to the left to remove it.
6.
The original 1210m cache module is connected to a capacitor pack, so observe the cache module LEDs:
•
If the amber 1210m cache LED is solid, data transfer to the flash device on the cache is in progress. Do not remove the 1210m cache until the amber LED is off, and then continue with the next step.
•
If the amber 1210m cache LED is not lit, proceed to the next step.
7.
Open the ejector latches (1,
Figure 140 (page 122) ) on each side of the 1210m cache module
slot.
Typically, opening the ejector latches ejects the cache module automatically. If the module does not eject automatically after you open the ejector latches, remove the cache module (2) by grasping only the edges.
Figure 140 Removing the cache module
8.
Remove the capacitor pack (2,
).
The 1210m cache module (1), and the 1210m controller card (3) are also shown.
122 Removing and replacing hardware components
Figure 141 Removing the cache module and the capacitor pack
NOTE: Be sure to first remove the capacitor pack bracket.
9.
Disconnect the capacitor pack cable from the connector on the top of the cache module
(
).
Figure 142 Disconnecting the capacitor pack cable
Replacing the cache module
1.
Connect the capacitor pack cable to the replacement cache module.
Removing and replacing the 1210m controller board components 123
2.
Complete the following (
a.
Install the replacement cache module in the cache module slot (1).
b.
Close the ejector latches on the cache module slot (2).
Figure 143 Replacing the cache module
3.
Install the capacitor pack bracket and insert the capacitor pack on the chassis wall.
4.
Install the access panel.
5.
Install the server blade into the enclosure.
Removing and replacing the capacitor pack
Removing the capacitor pack
WARNING!
Wear gloves or use care when removing the capacitor pack to avoid physical injury.
CAUTION: ESD can damage electronic components. Be sure you are properly grounded before performing this procedure.
1.
Back up all data.
2.
Close all applications.
3.
Power off the server blade.
4.
Remove the server blade ( Figure 144 (page 124) ):
a.
Push the button to release the handle (1).
b.
Pull the handle toward you (2).
c.
Remove the server blade (3).
Figure 144 Removing the server blade
5.
Press the release button on the access panel and slide the access panel to the left to remove it.
124 Removing and replacing hardware components
6.
The original capacitor pack is connected to a cache module, so observe the cache module
LEDs:
•
If the amber cache LED is solid, data transfer to the flash device on the cache is in progress.
Do not remove the cache until the amber LED is off, and then continue with the next step.
•
If the amber cache LED is not lit, proceed to the next step.
7.
Open the ejector latches (1,
) on each side of the cache module slot.
Typically, opening the ejector latches ejects the cache module automatically. If the module does not eject automatically after you open the ejector latches, remove the cache module (2) by grasping only the edges.
Figure 145 Removing the cache module
8.
Remove the cache module (1,
Figure 146 (page 125) ) from the controller card (3) and the
capacitor pack (2) from the server blade.
Figure 146 Removing the cache module and the capacitor pack
Removing and replacing the 1210m controller board components 125
NOTE: Be sure to first remove the capacitor pack bracket.
9.
Disconnect the capacitor pack cable on the top of the cache module (
Figure 147 Disconnecting the capacitor cable from the module
Replacing the capacitor pack
1.
Connect the replacement capacitor pack to the cache module.
2.
Install the cache module in the cache module slot.
3.
Install the cache module on the controller, and then close the ejector latches on the cache module slot.
4.
Install the capacitor pack bracket and insert the replacement capacitor pack on the chassis wall.
5.
Install the access panel.
6.
Install the server blade in the enclosure.
IMPORTANT: After installing a capacitor pack, you might see a POST message during reboot indicating that the array accelerator (cache) is disabled temporarily. This behavior is normal because the new capacitor pack is likely to have a low charge.
The controller operates properly while the capacitor pack is recharging, although the performance advantage of the array accelerator is absent. You do not need to take any action because the recharge process begins automatically when you install the capacitor pack. When the capacitor pack has been charged to a predetermined level, the array accelerator is enabled automatically.
Removing and replacing the Mezzanine NIC
Optional Mezzanine cards enable additional network connectivity.
Removing the Mezzanine NIC
1.
Back up all data.
2.
Close all applications.
126 Removing and replacing hardware components
3.
To power off the server blade, click Start and then select Shut down. Verify the server blade is shut down before continuing.
4.
Remove the server blade ( Figure 148 (page 127)
): a.
Push the button to release the handle (1).
b.
Pull the handle toward you (2).
c.
Remove the server blade (3).
Figure 148 Removing the server blade
5.
Press the release button on the access panel and slide the access panel to the left to it. The
Mezzanine NIC is under the controller card.
6.
The 1210m cache module is connected to a capacitor pack, so observe the cache module
LEDs (
•
If the amber LED is solid, data transfer to the flash device on the cache module is in progress. Do not remove the controller card until the amber LED is off, and then continue with the next step.
•
If the amber LED is not lit, proceed to the next step.
7.
Loosen the three captive screws and remove the Mezzanine NIC.
Replacing the Mezzanine NIC
To replace the Mezzanine NIC:
1.
Install the Mezzanine NIC, press down on the connector to seat the board (1,
), and then tighten the captive screws (2).
Figure 149 Installing the Mezzanine NIC
2.
Reinstall the controller card, and then install the access panel.
3.
Install the server blade in the enclosure. If necessary, power on the blade by pressing the power button on the front of the server blade.
4.
Confirm the firmware version.
NOTE: You must reboot the storage solution after updating the Mezzanine NIC and server blade firmware.
Removing and replacing the Mezzanine NIC 127
8 Messaging system recovery
This chapter describes how to use the E5000 System Recovery DVD that is provided with your messaging system.
System Recovery DVD
The E5000 System Recovery DVD enables you to install an image or recover from a catastrophic failure.
At any time, you may boot from the DVD and restore the server to the factory condition. This enables you to recover the system if all other means to boot the server fail.
While the recovery process makes every attempt to preserve the existing data volumes, you should have a backup of your data before recovering the system.
IMPORTANT: All data on the original OS logical drive is erased during the recovery process.
Restoring the factory image with a DVD or USB flash device
1.
Do one of the following: a.
For direct access, attach the SUV cable (supplied with the System) to the port on the front of the server blade you want to recover. Connect a monitor and USB mouse to the SUV cable. Using the remaining USB connector on the SUV cable, connect either a USB DVD drive (and insert the System Recovery DVD) or a bootable USB flash device (prepared with a System Recovery image).
b.
For remote management access, connect to the server using iLO from a client PC. Insert the System Recovery DVD in the client PC or attach a bootable USB flash device that has been prepared with a System Recovery image.
2.
Reboot the server blade to either the USB flash device or USB DVD drive.
The system BIOS attempts to boot to the USB device first by default. Watch the monitor output during the boot as you may need to press a key to boot to the USB media.
NOTE: If directly connected, you may have to change the BIOS settings to ensure proper boot sequence. If connected remotely, you may have to change some iLO settings to ensure proper boot sequence.
3.
Click Restore Factory Image.
The recovery process completes with minimal user intervention required. The server automatically reboots more than once.
IMPORTANT: Do not interrupt the recovery process.
When the upgrade process is complete, the system automatically logs in as the Administrator using “HPinvent!” as the password, and then prompts you to change the Administrator password.
4.
Remove the directly connected DVD or flash device (or remotely connected iLO virtual DVD or flash device) from the server.
Using a USB flash drive for messaging system recovery
Creating a System Recovery USB flash drive is supported on Windows Vista, Windows 7, Windows
Storage Server 2008, and Windows Storage Server 2008 R2 operating systems only.
If you create a backup copy of the System Recovery DVD using a USB flash drive, you can also use it to restore the system.
128 Messaging system recovery
To create a system recovery USB flash drive:
1.
Obtain a blank 4 GB or larger USB flash drive.
2.
Insert the USB flash device into your workstation or laptop.
3.
Open an elevated command prompt with Administrator privileges.
4.
At the command prompt, enter diskpart.
5.
At the diskpart prompt, enter list disk.
6.
Identify the disk number that corresponds to the flash drive. This is typically the last disk listed.
7.
Enter sel disk <USB drive number> (for example, sel disk 4).
8.
Enter clean. This deletes everything from the USB flash device, so ensure that you have the proper disk selected.
9.
Enter create par primary.
10. Enter sel par 1.
11. Enter format fs=fat32 quick.
NOTE: If your USB flash drive does not support the FAT32 file system, format the drive as
NTFS instead. Omitting the quick parameter lengthens the format time considerably.
12. Enter active to mark the partition as active.
13. Enter assign letter=<drive letter> to assign a drive letter to the USB drive (for example, assign letter=U).
14. Enter exit to quit diskpart context commands.
15. Insert the System Recovery DVD into the computer.
16. Using Windows Explorer or a comparable utility, open the DVD so that all contents are visible, including hidden and system files.
17. Select all of the files (including bootmgr) on the DVD.
18. Copy all of the selected files to the root of the USB flash drive.
Managing disks after a system restoration
When you restore a system using the System Recovery DVD, the E5000 Configuration Wizard automatically runs and detects the existence of the data volumes (volumes managed by the 1210m controller).
IMPORTANT: You must stop the wizard and perform the following steps before allowing the wizard to complete:
1.
Reset the computer account in Active Directory, which enables the computer to be rejoined.
Do not delete the object.
2.
Open the Registry Editor and add the following registry key if it is not already present:
Computer\HKEY_LOCAL_MACHINE\SOFTWARE\Hewlett-Packard\HP Configuration
Wizard
3.
Add the following entries to the HP Configuration Wizard key:
- DWORD (32-bit) named DomainJoined and change the Hex value to 1.
- DWORD (32-bit) named ComputerNamed and change the Hex value to 1.
4.
Manually rename the computer to the original computer name and rejoin it to the domain.
Reboot the computer as prompted. When the computer has rebooted, the E5000 Configuration
Wizard should automatically run.
The wizard remounts the data volumes as appropriate using the mount points in the C:\
ExchangeDatabases directory. For example, the following mount points might be found:
•
C:\ExchangeDatabases\Recovery
•
C:\ExchangeDatabases\VOL1
Managing disks after a system restoration 129
•
C:\ExchangeDatabases\VOL2
•
C:\ExchangeDatabases\VOL3
Restoration in nonproduction environments
If the E5300 Messaging System was in a nonproduction environment prior to the system recovery and the Exchange data does not have to be retained, the data on the appropriate volumes should be deleted. This includes the mailbox databases and logs found in the mount points listed under
C:\ExchangeDatabases . The HUB transport database and logs (located on the H:\ drive) should also be deleted. Use the E5000 Exchange Deployment Tool to create a fresh deployment of Exchange 2010.
NOTE:
In the Exchange Deployment Tool step to remove the DAG, you must use the ConfigurationOnly parameter. The command structure is:
Remove-DatabaseAvailablityGroupServer -Identity (yourDAG) -MailboxServer
(server being recovered) -ConfigurationOnly:$True -Confirm:$False
- If an error message displays that there must be minimum of two servers in a DAG (due to the
DatacenterActivationMode value being set to DagOnly), you can turn this off by issuing the following command:
Set-DatabaseAvailabiltyGroup –Identity (yourDag)
–DatacenterActivationMode Off
After restoring the server and the DAG is operational, remember to set
DatacenterActivationMode back to DAGOnly.
Restoration in production environments
If the E5300 Messaging System was in a production environment and the Exchange data must to be retained, follow the appropriate Exchange recovery steps for your situation. Remember that the
E5000 system uses a multirole Exchange configuration with the Client Access Server (CAS), Hub
Transport Server (HT), and Mailbox Server (MBX) roles installed on each of the two nodes. Do not use the E5000 Exchange Deployment Tool in this situation. You can recover a lost Exchange server by using the Setup /m:RecoverServer switch in Microsoft Exchange Server 2010. See http:// technet.microsoft.com/en-us/library/dd638206.aspx
for more information.
130 Messaging system recovery
9 Support and other resources
Contacting HP
HP technical support
For worldwide technical support information, see the HP support website: http://www.hp.com/support
Before contacting HP, collect the following information:
•
Product model names and numbers
•
Technical support registration number (if applicable)
•
Product serial numbers
•
Error messages
•
Operating system type and revision level
•
Detailed questions
Subscription service
HP recommends that you register your product at the Subscriber's Choice for Business website: http://www.hp.com/go/e-updates
After registering, you receive email notification of product enhancements, new driver versions, firmware updates, and other product resources.
Related information
The following documents provide related information:
•
HP E5000 Series Messaging System for Microsoft Exchange Quick Start Guide
•
HP 3U Storage System Rail Kit Installation Instructions
To locate the messaging system documents, go to http://www.hp.com/go/e5000 , and then click the support link.
You can also find these documents from the Manuals page of the HP Business Support Center website: http://www.hp.com/support/manuals
HP websites
For additional HP information, see the following HP websites:
• http://www.hp.com/go/E5000
• http://www.hp.com
• http://www.hp.com/go/storage
• http://www.hp.com/go/hpsim
• http://www.hp.com/service_locator
• http://www.hp.com/support/manuals
• http://www.hp.com/support/downloads
Contacting HP 131
• http://www.hp.com/storage/whitepapers
• http://www.hp.com/solutions/activeanswers/exchange
Microsoft websites
For additional Microsoft information, see the following Microsoft websites:
• http://technet.microsoft.com/en-us/library/bb124558.aspx
• http://technet.microsoft.com/en-us/library/bb125255(EXCHG.80).aspx
• http://msdn.microsoft.com/en-us/library/aa562607(EXCHG.140).aspx
• http://msdn.microsoft.com/en-us/library/cc425506(EXCHG.80).aspx
Rack stability
Rack stability protects personnel and equipment.
WARNING!
To reduce the risk of personal injury or damage to equipment:
•
Extend leveling jacks to the floor.
•
Ensure that the full weight of the rack rests on the leveling jacks.
•
Install stabilizing feet on the rack.
•
In multiple-rack installations, fasten racks together securely.
•
Extend only one rack component at a time. Racks can become unstable if more than one component is extended.
132 Support and other resources
10 Documentation feedback
HP is committed to providing documentation that meets your needs. To help us improve the documentation, send any errors, suggestions, or comments to Documentation Feedback
). Include the document title and part number, version number, or the URL when submitting your feedback.
133
A Managing the EMU
This chapter describes how to manage the EMU using the CLI or the Enclosure Manager physical interface.
CLI reference
The CLI is the primary interface for managing the Enclosure Manager and is accessed via secure shell protocol over the LAN. Using the CLI is necessary for functions not possible through any other mechanism or interface. For example, creating and setting Enclosure Manager user accounts and passwords and remotely powering the enclosure ON or OFF can be done only with the CLI.
Command line conventions
CLI input is case-insensitive except when otherwise noted. Commands are organized into a tree, with approximately 30 base commands. Each of these commands can have any number of subcommands. Subcommands can also have further subcommands. Each command used in this appendix follows the conventions listed in
.
Table 14 Command line conventions
Symbol
< >
|
{ }
Description
Denotes a variable must be substituted with a value, such as a user name. Do not include the < > symbols when entering the variable.
Used to separate input options.
Denotes a list of mandatory choices that must be made.
For example, SET ENCLOSURE UID {ON | OFF} must be in one of the following forms:
SET ENCLOSURE UID ON
SET ENCLOSURE UID OFF
[ ]
” “
Denotes an optional argument or set of characters.
Used to enclose command arguments that contain spaces.
NOTE: All users logged into the CLI have administrator privilege. When a user account is created, the account has administrator privilege.
Operational groups
Descriptions of the CLI commands are organized by operational group instead of the parser implementation which is a tree of commands, subcommands, and sub-subcommands. The operational groups are:
•
Authentication—user identity and authentication
•
Time functions—Real Time Clock/Calendar control
•
Role definition—access control
•
Inventory and status—self explanatory
•
Internet control—internal and external LAN management
•
Server management—iLO dependent control of server
•
Enclosure control—global control of enclosure, excluding JBOD management zone
•
Forensic—global diagnostic context functions (not directed validation tests)
•
Session—CLI session control
134 Managing the EMU
Authentication
This section defines EM authentication CLI functions.
ADD SSHKEY
Syntax
ADD SSHKEY <end marker><newline><certificate><newline><end marker>
Description
Adds an SSH key on the command line. Start with a string that does not appear within the certificate
(end marker). Next, paste in the certificate. Terminate the command with the end marker. Failure to give a proper end marker before and after the certificate may cause the interface to wait for the appropriate end marker indefinitely.
Restrictions
This command is only available in script mode.
ADD USER
Syntax
ADD USER "<user name>"["<password>"]
Description
Adds a user to the system. If you do not provide a password, you are prompted for one. If script mode is enabled and the password is not provided, the password is assigned an unmatched string.
This unmatched string requires an enclosure administrator to change the password to allow the new user to access the system.
Restrictions
•
You can add a maximum of 30 users, including the reserved accounts.
•
The <user name> is case-sensitive and must be unique to all other user names and group names. The user name must be 1 to 40 characters long and can include all alphanumeric characters, the hyphen, and the underscore.
•
The <user name> must begin with a letter.
•
The <password> must be 3 to 40 characters long. The character set includes all printable characters. If you do not enter a password, you are prompted to enter one.
•
Reserved user names are: ALL (case insensitive), ADMINISTRATOR (case insensitive), switch1, switch2, switch3, switch4, switch5, switch6, switch7, switch8, daemon, ldapuser, nobody, tbmuser_, vcmuser_, root, and quire.
CLEAR SSHKEY
Syntax
CLEAR SSHKEY
Description
Disables a user account. The system immediately logs out the user and prevents the user from logging in until the account is enabled.
This command is used in the factory to disable the ‘root’ user account. The root user account is required to perform certain factory-only configuration and diagnostic operations when logged into the Linux shell.
Authentication 135
Restrictions
None
DOWNLOAD SSHKEY
Syntax
DOWNLOAD SSHKEY <url>
Description
Downloads an authorized key file to use with Secure Shell 2, which can contain the public keys for the built-in Administrator user. Supported protocols are http, ftp, and tftp. The url should be formatted as protocol://host/path/file. If your ftp server does not support anonymous connections, then you can specify a username and password by replacing the host part in the above format with username:password@host. The authorized keys file must contain only protocol version 2 public keys. Each line of the file represents one key (empty lines and lines starting with # represent comments). Each protocol version 2 key consists of the following fields, separated by spaces: keytype, base64 encoded key, comment. Keytype is either ssh-rsa or ssh-dss.
Downloading an SSH key file replaces all currently installed SSH keys.
Restrictions
None
ENABLE USER
Syntax
ENABLE USER <user name>
Description
Enables a user account that was previously disabled by the DISABLE USER command.
Restrictions
<user name> is case-sensitive.
REMOVE USER
Syntax
REMOVE USER {ALL | "<user name>"| CERTIFICATE "<user name>"}
Description
Removes the existing user specified by <user name> and/or any certificate mapped to this user.
If the user is currently logged on, their sessions are terminated. Specifying ALL removes all users from the system except the default Administrator account. The user is prompted for confirmation except in script mode.
Restrictions
•
The <user name> is case-sensitive.
•
You cannot remove the Administrator user.
136 Managing the EMU
SET PASSWORD
Syntax
SET PASSWORD ["<password>"]
Description
Sets the password of the user who entered the command. The <password> parameter is optional, but failure to enter a password results in the system prompting you for a password.
•
Passwords must be between 3 and 40 characters in length.
•
Acceptable characters include any printable character.
•
This command is not valid in script mode.
Restrictions
None
SET USER PASSWORD
Syntax
SET USER PASSWORD "<user name>"["<new password>"]
Description
Sets a user’s password. If you do not supply a password on the command line, you are prompted to enter it.
Restrictions
•
Only the Administrator account can modify the password of the Administrator account.
•
The <user name> is case-sensitive.
•
The <new password> must be 3 to 40 characters long.
•
The character set includes all printable characters.
•
This command is not valid in script mode.
SHOW USER
Syntax
SHOW USER [ [LIST | "<user name>"] ]
Description
Displays general user information and user rights (which is always “Admin”) for this firmware version.
Restrictions
•
Does not show information for restricted user accounts—only shows information for
Administrator and other end-user-created accounts.
•
Since there are no bay or device access restrictions, no information about bays being assigned is given.
Authentication 137
SHOW SSHFINGERPRINT
Syntax
SHOW SSHFINGERPRINT
Description
Displays the key fingerprint of the host public key of the Enclosure Manager.
Restrictions
None
SHOW SSHKEY
Syntax
SHOW SSKEY
Description
Displays the contents of the existing ssh authorized key files (stored in NAND Flash).
Restrictions
None
SHOW PASSWORD SETTINGS
Syntax
SHOW PASSWORD SETTINGS
Description
Displays the current minimum password length and strong password settings.
Restrictions
Time functions
Because this small group of functions is used in conjunction with other groups, it is separated as its own group.
CLEAR NTP
Syntax
CLEAR NTP {PRIMARY | SECONDARY }
Description
Clears the Primary or Secondary NTP server IP address.
Restrictions
Clearing the Primary NTP address disables NTP.
138 Managing the EMU
DISABLE NTP
Syntax
DISABLE NTP
Description
Disables the synchronizing of time and date with a remote server using the NTP protocol. Does not clear any NTP servers that have been configured with SET NTP.
Restrictions
None
ENABLE NTP
Syntax
ENABLE NTP
Description
Enables NTP support for the Enclosure Manager.
Restrictions
None
SET DATE
Syntax
SET DATE MMDDhhmm
Description
Sets the enclosure date and time and, optionally, year and time zone. Time is in a 24-hour format.
If the year or time zone parameters are omitted, the current values remain in effect. The definitions of the date parameters are:
MM: Month
DD: Day hh: Hour (24–hour format) mm: Minute
CC: Century
YY: Year
TZ: Time Zone (chosen from strings in
Table 15 Universal time zone settings
CET
CST6CDT
EET
EST
EST5EDT
Etc/GMT
Etc/GMT0
Etc/GMT-0
Etc/GMT-2
Etc/GMT+2
Etc/GMT-3
Etc/GMT+3
Etc/GMT-4
Etc/GMT+4
Etc/GMT-5
Etc/GMT+5
Etc/GMT+7
Etc/GMT+8
Etc/GMT+8
Etc/GMT-9
Etc/GMT+9
Etc/GMT-10
Etc/GMT+10
Etc/GMT-11
Etc/GMT-13
Etc/GMT-14
Etc/Greenwich
Etc/UCT
Etc/Universal
Etc/UTC
Etc/Zulu
GMT
MST
MST7MDT
Navajo
PST8PDT
UCT
Universal
UTC
WET
Time functions 139
Table 15 Universal time zone settings (continued)
Etc/GMT+0
Etc/GMT-1
Etc/GMT+1
Etc/GMT-6
Etc/GMT+6
Etc/GMT-7
Etc/GMT+11
Etc/GMT-12
Etc/GMT+12
Greenwich
HST
MET
If you leave the time zone, century, or year blank, the current setting is reused.
Restrictions
•
Date and time can only be set if NTP is disabled.
•
MM is an integer from 01 to 12.
•
DD is an integer from 01 to 31.
• hh is an integer from 00 to 23.
• mm is an integer from 00 to 59.
•
CC is an integer from 00 to 99.
•
YY is an integer from 00 to 99.
SET TIMEZONE
Syntax
SET TIMEZONE <timezone>
WSU
Zulu
Description
Sets the time zone.
Restrictions
Only the choices listed in
can be used.
SET NTP POLL
Syntax
SET NTP POLL <seconds>
Description
Sets the polling interval for NTP servers. The factory default polling interval is 720 seconds (12 minutes).
Restrictions
The polling range is 60 – 86400 seconds (1 minute to 1 day).
NOTE: EM 1.10 or later does not support this command.
SET NTP PRIMARY
Syntax
SET NTP PRIMARY <host>
Description
Sets the primary server used for synchronizing time/date using the Network Time Protocol (NTP).
<host> can be either an IPv4 address, an IPv6 address, or a DNS name.
140 Managing the EMU
Restrictions
•
IPv4 addresses must be in the form ###.###.###.###, where each ### ranges from 0 to
255.
•
IPv6 addresses must be formed without the network prefix length.
SET NTP SECONDARY
Syntax
SET NTP SECONDARY <host>
Description
Sets the secondary server used for synchronizing time/date using the Network Time Protocol (NTP).
<host> can be either an IPv4 address, and IPv6 address or a DNS name.
Restrictions
•
IPv4 addresses must be in the form ###.###.###.###, where each ### ranges from 0 to
255.
•
IPv6 addresses must be formed without the network prefix length.
Inventory and status
These commands display various inventory and global state data.
SET DISPLAY EVENTS
Syntax
SET DISPLAY EVENTS { ON | OFF }
Description
Turns on or off the displaying of events that are triggered by status changes in the system.
Restrictions
•
This command is specific to the current CLI session and must be issued for each CLI session to display events in that session. (The setting is not persistent.)
•
Upon boot of the EM, the event display is OFF.
SHOW ALL
Syntax
SHOW ALL
Description
Executes all SHOW commands in succession.
Restrictions
To save the output, you must configure your SSH software to log the session to a file or increase the history buffer size so that the output can be copied and pasted into another file.
Inventory and status 141
SHOW CONFIG
Syntax
SHOW CONFIG
Description
Displays the script required to recreate the settings of the enclosure. Passwords are not included for any user.
Restrictions
None
SHOW CSR CSR-ID
Syntax
SHOW CSR CSR-<ID#>
Description
Displays the CSR event messages captured in the Enclosure Manager system log (syslog) for the specified CSR ID. The output includes the cause and action for each event message.
Restrictions
A valid ID for CSR-<ID#> must be used.
SHOW CSR ALL
Syntax
SHOW CSR ALL
Description
Displays all possible CSR events that can be captured in the Enclosure Manager system log (syslog) and includes the cause and action for each event.
Restrictions
None
SHOW CSR FAST
Syntax
SHOW CSR FAST
Description
Displays all possible CSR events that can be captured in the Enclosure Manager system log (syslog).
The output does not include the cause and action for each event like SHOW CSR ALL.
Restrictions
None
142 Managing the EMU
SHOW DATE
Syntax
SHOW DATE
Description
Displays the current date, time, and time zone settings of the internal Real Time Clock of the
Enclosure Manager.
Restrictions
None
SHOW DEVICE SERIAL_NUMBER BLADE
Syntax
SHOW DEVICE SERIAL_NUMBER BLADE <bay#>
Description
Displays the serial number of the blade specified by the bay <bay#>.
Restrictions
Can be used only when the enclosure power is on, the blade is present, and iLO is communicating with the EMU properly. If the enclosure power is off, the EMU has no signal from the blade to determine whether it is present, and iLO in the blade has no power to report its serial number. The
EM reports “[Unknown]” if this command is used with the enclosure power off.
SHOW DISPLAY EVENTS
Syntax
SHOW DISPLAY EVENTS
Description
Displays the current status of the display event setting.
Restrictions
None
SHOW EM
Syntax
SHOW EM INFO
Description
Displays information about the Enclosure Manager.
NOTE: Hardware versions are A, B, C, and so forth. Aux info includes the change management
SVN number and the health monitor PSoC firmware version number. Both are needed occasionally in lab testing environments. In production environments, the HM version may sometimes be needed, and this command is the only way to find it in EM firmware 1.0 or later.
Inventory and status 143
Restrictions
None
SHOW ENCLOSURE DRIVE DRAWER
Syntax
SHOW ENCLOSURE DRIVE DRAWER
Description
Displays the state of the enclosure drive drawer. State values are Open, Closed, or Unknown.
SHOW ENCLOSURE FAN
Syntax
SHOW ENCLOSURE FAN { ALL | <fan number> }
Description
Displays information about and current status of the specified enclosure fan.
Restrictions
•
The <fan number> must be 1 or 2.
•
Fan information is not available if fan status is Dormant (meaning not powered).
•
The EM is only directly controlling FAN 1. The JBOD IE expanders control FAN 2 so information on FAN 2 can only be reported if the enclosure power is on AND at least one SAS IO module is present and functioning normally.
•
Not all information (for example, part number and serial number) of FAN 2 are reported to the EM by the SAS IO module so it cannot be reported as with FAN 1.
•
When the enclosure power is first turned on, FAN 2 status changes from Dormant to Absent and then to the actual status when this information is given to the EM.
SHOW ENCLOSURE INFO
Syntax
SHOW ENCLOSURE INFO
Description
Displays information about the enclosure and included options.
NOTE: Some information, such as Enclosure Name, is user supplied, and if never programmed, has a default value. The Solution part number, serial number and name string are programmed in the factory depending on the software SKU that is pre-installed. These numbers and strings are not customer programmable but vary by solution SKU even if the hardware is the same type. The solution numbers, not the chassis numbers, are used for warranty obligation tracking.
Restrictions
None
SHOW ENCLOSURE POWERSUPPLY
Syntax
SHOW ENCLOSURE POWERSUPPLY { ALL | <bay> { , | - } <bay>}
144 Managing the EMU
Description
Displays the following general information and current status for the specified power supply or range of power supplies:
•
Status (OK, Degraded, Dormant, Failed, Unnown)
•
AC Input status
•
Capacity: (watts)
•
Current power output (watts)
•
Serial Number
•
Product name
•
Part number
•
Spare part number
•
Product version. Integer value, 01, 02, and so forth.
Restrictions
None
SHOW ENCLOSURE STATUS
Syntax
SHOW ENCLOSURE STATUS
Description
Displays the basic health and status of the enclosure and its subsystems. If the enclosure shows degraded, the subsystems causing the state change are detailed (for example, failed or missing redundant module).
Restrictions
None
SHOW ENCLOSURE TEMP
Syntax
SHOW ENCLOSURE TEMP
Description
Displays current status and reading of some of the thermal sensors in the enclosure. If the sensor is unreadable due to absence of power or failure, ? is displayed.
Restrictions
•
Only integral measurements in Celsius are displayed (fraction, if any, is truncated).
•
Not every sensor that is present in the enclosure is reported.
•
For blades a virtual ambient (not a physical) sensor temperature is displayed that is computed by iLO based on its thermal model and measurements from several sensors. This model is transparent to the EM. Until this calculation normalizes, 0 is shown as the temperature for the blade, so that right after power on of the enclosure, it takes several seconds before a nonzero value is shown for the blades while other sensors are reported immediately.
Inventory and status 145
SHOW FRU
Syntax
SHOW FRU
Description
Displays summary information on field replaceable units (FRUs) within the enclosure. Information provided in this section can quickly aid the administrator in contacting HP Customer Service for troubleshooting, repair, and ordering replacements.
Restrictions
•
Only displays known/live data.
•
Some FRU devices are not accessible by the EM when the enclosure power is off so their information is unavailable.
SHOW IOMODULES
Syntax
SHOW IOMODULES
Description
Shows information for the IO modules within the enclosure: SAS, LOM, MEZZ, and PCIe.
Restrictions
•
Should be used only when enclosure power is on.
•
If enclosure power has never been turned on, no information is available. If it was on but is now off, only the firmware version of the IO modules that have firmware is shown.
SHOW RACK
Syntax
SHOW RACK { NAME | ID }
Description
Displays user-defined rack name (string) or id (0...255) that is part of the persistent EMU configuration.
Restrictions
•
If rack name has not been set, it is UnnamedRack.
•
If rack id has not been set, it is 0.
SHOW SERVER TEMP
Syntax
SHOW SERVER TEMP { ALL | <bay#>[ { , | - } <bay#>] }
Description
Displays temperature sensor information for the specified server or range of servers. This data is provided by iLO to the EM, which has no direct sensor access.
146 Managing the EMU
Restrictions
The enclosure must be powered on, otherwise, iLO has no power and cannot sense temperature or send data to the EM.
Internet control
The following commands define the EM 1.0 or later CLI functions for Internet control.
ADD EBIPA
Syntax
ADD EBIPA { SERVER } DNS <ip address>
Description
Adds an EBIPA DNS server IP address to the list of DNS servers for server bays.
Restrictions
•
A maximum of three DNS servers can be added for EBIPA.
•
<ip address> must be in the form ###.###.###.###, where each ### ranges from 0 to
255.
REMOVE EBIPA
Syntax
REMOVE EBIPA { SERVER } DNS <ip address>
Description
Removes an EBIPA (Enclosure Bay IP Addressing) DNS server IP address from the list of DNS servers for server bays.
Restrictions
<ip address> must be in the form ###.###.###.###, where each ### ranges from 0 to 255.
SET EBIPA
Syntax
SET EBIPA { SERVER } { NETMASK <netmask> | GATEWAY <gateway> | DOMAIN
"<domain name>"| <ip address> {<netmask> | [netmask] { ALL | <bay#> [{
, | - } <bay#>]} }
Description
Sets EBIPA settings, including starting IP address, net mask, default gateway, and domain name for the specified bay. If a bay number is not specified when setting an IP address, then both server bays are assigned an IP address in the range starting from the number entered for <ip address>.
The keyword NONE can be used in place of <ip address>, <netmask>, or <gateway> to clear the IP address.
Internet control 147
Restrictions
•
<ip address> and <netmask> must be in the form ###.###.###.###, where each ### ranges from 0 to 255.
•
<domain name> is a string containing letters (a–z, A–Z), digits (0–9), or a hyphen (-).
•
<bay#> must be 1 or 2.
SET EM GATEWAY
Syntax
SET EM GATEWAY [<bay number>] <ip address>
Description
Sets the network default gateway. <bay number> is optional because there is only one EMU bay.
Restrictions
•
This gateway is used only if the system is currently configured to use a static IP address rather than the DHCP protocol.
•
<ip address> must be in the form ###.###.###.###, where each ### ranges from 0 to
255.
•
1 is the only valid value for <bay number> because there is no bay 2.
PING
Syntax
PING IPV6 [<NUMBER>] {<ipv6 address> | "<server name>"}
Description
Sends ICMP echo messages to a remote IPv6 device. If you omit <NUMBER>, or use a number larger than 9999 or one that is negative, then only four packets are sent. Packets are sent at one-second intervals to prevent congestion.
Restrictions
•
<NUMBER> must be between 1 and 9999.
•
IPv6 must be enabled.
•
<ipv6 address> must be in the format ####:####:####::##.
SET IPCONFIG
Syntax
SET IPCONFIG { DHCP | STATIC | LOCAL }
Description
Configures EM addressing mode to be DHCP, static, or link local. The setting takes effect immediately. If mode chosen is static, other parameters are required (see below).
Restrictions
None
148 Managing the EMU
SET IPCONFIG STATIC
Syntax
SET IPCONFIG STATIC <ip address> <netmask> [<gateway>]
Description
Configures the IP settings for the EM to static mode. In selecting this mode, the IP address and netmask are be set to <ip address> and <netmask>, respectively. These settings take effect immediately. The gateway address will be cleared if it is omitted. Note that you can also set the gateway address using the SET EM GATEWAY command.
Restrictions
None
SHOW NETWORK
Syntax
SHOW NETWORK
Description
Displays the network settings of the Enclosure Manager.
Restrictions
None
SHOW EBIPA
Syntax
SHOW EBIPA
Description
Displays EBIPA configuration information.
Restrictions
EM EBIPA control only functions for the two iLO processors in the server blades.
Server management
Use the commands in this section to perform server management operations.
POWEROFF SERVER
Syntax
POWEROFF SERVER { ALL | <bay#>[{ , | - } <bay#>]} [FORCE]
Description
Sends an asynchronous request for a graceful shutdown to the server. This command returns the user to the CLI immediately but the shutdown command can take up to five minutes to complete. If the FORCE option is specified, the server blade OS is not given the opportunity to perform a graceful shutdown before power is removed. This option can cause a server blade to lose data and possibly to become unstable.
Server management 149
Restrictions
•
<bay#> must be 1 or 2.
•
Use of the FORCE option can cause a server blade to lose data and possibly to become unstable.
POWERON SERVER
Syntax
POWERON SERVER { ALL | <bay#>[{ , | - } <bay#>]} [{NORMAL | PXE | HDD
| RBSU }]
Description
Power on the specified server. Adding an optional boot argument forces the blade to ignore the regular boot order and forces a boot using the specified method. If no blade is in the specified bay, you are notified that the bay is empty.
Restrictions
This command functions only if the enclosure power is already on.
NOTE: Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning that the blade is not present if this command is used when enclosure power is off.
REBOOT SERVER
Syntax
REBOOT SERVER { ALL | <bay#> [{ , | - } <bay#>]} [FORCE] [{NORMAL | PXE
| HDD | RBSU }]
Description
Sends an asynchronous request to the server to do a graceful shutdown of the OS. After the OS has had sufficient time to perform a graceful shutdown, the server blade is power cycled. If the
FORCE option is specified, the server blade OS is not given the opportunity to perform a graceful shutdown before power is removed but is cleanly powered off and then immediately powered back on. The FORCE option can cause a server blade to lose data and possibly to become unstable.
Restrictions
This command functions only if the enclosure power is already on. Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning that the blade is not present if this command is used when enclosure power is off.
SET SERVER UID
Syntax
SET SERVER UID { ALL | <bay#> [{ , | - } <bay#>]} { ON | OFF }
Description
Turns on or off the UID LED on the specified servers.
Restrictions
This command functions only if the enclosure power is already on.
150 Managing the EMU
NOTE: Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning that the blade is not present if this command is used when enclosure power is off.
SET SERVER BOOT
Syntax
SET SERVER BOOT { FIRST | ONCE } { NORMAL | HDD | PXE | RBSU } { ALL |
<bay#> [{ , | - } <bay#>]}
Description
Persistently stores a setting for the IPL to be passed to the specified servers at the next reboot.
SET SERVER BOOT FIRST sets the boot order of the blade.
SET SERVER BOOT ONCE sets the boot device to be used on the next boot of the specified bay;
The RBSU option is only available for SET SERVER BOOT ONCE.
Restrictions
•
This setting is only valid on present blades and is cleared if the blade is removed.
•
This command functions only if the enclosure power is already on. Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning that the blade is not present if this command is used when enclosure power is off.
SHOW SERVER BOOT
Syntax
SHOW SERVER BOOT { ALL | <bay#> [{ - | , } <bay#>]}
Description
Displays the boot order and one-time boot device for the specified server or range of servers. These settings correspond to the server boot settings in the ROM-Based Setup Utility.
Restrictions
This command functions only if the enclosure power is already on. Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning that the blade is not present if this command is used when enclosure power is off.
SHOW SERVER INFO
Syntax
SHOW SERVER INFO { ALL | <bay#>[{ , | - } <bay#>]}
Description
Displays a description of the server blade hardware, including the embedded NICs, the Mezz
HBAs, and the management processor, in the specified bays.
Restrictions
This command functions only if the enclosure power is already on.
Server management 151
SHOW SERVER LIST
Syntax
SHOW SERVER LIST
Description
Displays a brief iLO and status description of all server blades. For a longer description, use SHOW
SERVER INFO .
Restrictions
This command functions only if the enclosure power is already on. Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning “enclosure power is off” if this command is issued when power is off.
SHOW SERVER NAMES
Syntax
SHOW SERVER NAMES
Description
Displays a brief description of all server blades.
Restrictions
This command functions only if the enclosure power is already on. If power is not on, the command responds with the message: “enclosure power is off”. If power is coming on but state exchange between iLO and EM have not normalized, some displayed information might display [Unknown] or ?.
SHOW SERVER STATUS
Syntax
SHOW SERVER STATUS { ALL | <bay#>[ { , | - } <bay#>] }
Description
Displays current status of the server blade in the specified bay or both bays.
Restrictions
This command functions only if the enclosure power is already on. Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning “enclosure power is off” if this command is issued when power is off.
Enclosure control
The commands in the section provide various enclosure control functions.
DOWNLOAD CONFIG
Syntax
DOWNLOAD CONFIG <URL>
152 Managing the EMU
Description
Downloads a previously saved configuration script file from a specific IP host then executes it. This command should be used to recover configuration after replacement of a failed EMU.
Supported protocols are HTTP, FTP, and TFTP. The URL should be formatted asprotocol://host/ path/file . If your FTP server does not support anonymous connections, you can specify a username and password by replacing the host part in the above format with username:password@host .
Restrictions
Only IPv4 is supported in EM 1.0 or later.
POWEROFF ENCLOSURE
Syntax
POWEROFF ENCLOSURE
Description
The EM removes main DC power from the enclosure (just as if the user had pressed the enclosure power-button. Servers are NOT automatically sent a graceful shutdown command; that should be done prior to issuing this command using POWEROFF SERVER. Except when in script mode, the user is prompted for an explicit confirmation, which must be given, or the command is terminated.
Restrictions
None
POWERON ENCLOSURE
Syntax
POWERON ENCLOSURE
Description
The EM sends a command to the health monitor to enable main DC power (just as if the user had pressed the enclosure power button).
Restrictions
None
RESTART EM
Syntax
RESTART EM
Description
This reboots the Linux OS and restarts the EM software. It is necessary to do this command following a firmware downgrade using UPGRADE IMAGE FORCE. Except when in script mode, the user is prompted for an explicit confirmation, which must be given or the command is terminated.
Restrictions
None
Enclosure control 153
SET EM NAME
Syntax
SET EM NAME "<EM name>"
Description
Sets the user defined string reported with SHOW EM STATUS. The system responds with confirmation of the change. The default EM name is “EM-<mac address>” where <mac-address> is the hardware Ethernet address for the iLO port on the EMU. For example, EM-78E7D1C12074.
Restrictions
<EM name> must be 1 to 32 characters long and includes all alphanumeric, underscore (_) , and hyphen (-) characters.
SET ENCLOSURE ASSET
Syntax
SET ENCLOSURE ASSET [TAG] "<asset tag>"
Description
Sets the enclosure asset tag that is stored persistently in the EM, displayed with SHOW ENCLOSURE
INFO command.
Restrictions
<asset tag> must be 1 to 32 characters long and includes all alphanumeric, underscore (_) and hyphen (-) characters.
Restrictions
<id> is a decimal integer from 0 to 99.
SET ENCLOSURE NAME
Syntax
SET ENCLOSURE NAME "<enclosure name>"
Description
Sets the persistent enclosure name stored in the EM. This name is displayed with SHOW ENCLOSURE
INFO command. The default (unset by user) value is ‘UnnamedEnclosure’.
Restrictions
<enclosure name> must be 1 to 32 characters long and includes all alphanumeric, underscore
(_), and hyphen (-) characters.
SET ENCLOSURE UID
Syntax
SET ENCLOSURE UID { ON | OFF | SLOW | FAST }
Description
Sets the blue enclosure UID. The enclosure has a UID on both the front and rear of the enclosure.
However, the front UID is only lit when enclosure power is on, while the rear UID is only lit when
154 Managing the EMU
standby power is on. The Unit Identification LED displays as steady on, off, or one of two blinking speeds. The system confirms the operation. There is no particular meaning to SLOW or FAST.
Restrictions
Blinking rates are not user definable. SLOW is 1 Hz; FAST is 2 Hz.
SET FACTORY
Syntax
SET FACTORY
Description
Restores configuration settings back to the factory defaults, including deleting any created user accounts, except for the Administrator password, which remains unmodified. The EM restarts after restoring the configuration settings. If the enclosure power is on, the iLOs are reset (to force a refresh of the enclosure information passed to iLO).
Restrictions
None
SET RACK NAME
Syntax
SET RACK NAME "<rack name>"
Description
Sets the user-defined string reported with SHOW RACK NAME command. The system responds with confirmation of the change. The default (unset by user) rack name is ‘UnnamedRack’.
Restrictions
<rack name> must be 1 to 32 characters long and includes all alphanumeric, underscore (_), and hyphen (-) characters.
UPDATE IMAGE
Syntax
UPDATE IMAGE { [ FORCE ] <URL> }
Description
Downloads a new EM firmware image from the network and uses it to update the Enclosure
Manager’s firmware. Supported protocols are HTTP, FTP, and TFTP. The EM validates the image before performing the update. Unless the session is in script mode, the EM requests confirmation before performing the update.
After update, the EM is restarted unless the FORCE operation was used in which case a manual invocation of RESTART EM is necessary to reboot the new firmware.
Restrictions
•
<URL> should be formatted as: protocol://host/path/filename.
•
Host is a fully qualified domain name or an IPv4 address.
• path/filename is the pathname of the file to download.
•
Use FORCE to allow downgrading firmware even if settings/passwords may be lost.
Enclosure control 155
UPLOAD CONFIG
Syntax
UPLOAD CONFIG {<URL>}
Description
Uploads a script to the specified URL, which duplicates the current runtime configuration. Supported protocols are FTP and TFTP. The URL should be formatted as: protocol://host/path/ filename . If your FTP server does not support anonymous logins, you can specify a username and password within the URL formatted as: ftp://username:password@host/path/ filename
Restrictions
Only IPv4 is supported in EM version 1.0 or later.
Forensic
The following set of forensically useful functions is supported by the EM CLI.
CLEAR SYSLOG
Syntax
CLEAR SYSLOG [ EM | ENCLOSURE ]
Description
Completely erases the local syslog of the Enclosure Manager. The EM prompts the user for confirmation because once deleted, this information cannot be recovered.
Restrictions
Only deletes the syslog stored inside the EM itself; it does not delete the remote syslog, if remote logging is enabled.
DISABLE SYSLOG REMOTE
Syntax
DISABLE SYSLOG REMOTE
Description
Disables remote system logging.
Restrictions
None
ENABLE SYSLOG REMOTE
Syntax
ENABLE SYSLOG REMOTE
Description
Enables remote system logging.
156 Managing the EMU
Restrictions
The remote system log server address must be configured before enabling remote system logging.
SET REMOTE SYSLOG PORT
Syntax
SET REMOTE SYSLOG PORT <port>
Description
Sets the UDP destination port for remote system logging.
Restrictions
•
The default remote system logging port is 514.
•
<port> must be a number between 1 and 65535.
•
Settings are not used unless remote system logging is enabled.
SET REMOTE SYSLOG SERVER
Syntax
SET REMOTE SYSLOG SERVER { <IPv4> | <dns name>}
Description
Sets the IP address of a remote system log server.
Restrictions
•
EM 1.0 only supports IPv4.
•
Settings are not used unless remote system logging is enabled.
SHOW SYSLOG EM
Syntax
SHOW SYSLOG EM
Description
Displays the local syslog for the Enclosure Manager.
Restrictions
None
SHOW SYSLOG SERVER
Syntax
SHOW SYSLOG SERVER <bay#>
Description
Displays the syslog for the specified server. If the session is not in script mode, the EM paged the display of the output to throttle output and give the user time to view the data. iLO syslog data is formatted in XML.
Forensic 157
Restrictions
•
<bay#> must be 1 or 2.
•
This command can only function if enclosure power is on. Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning “Could not determine the IP address of the management processor for blade” if this command is issued when power is off.
SHOW SYSLOG SETTINGS
Syntax
SHOW SYSLOG SETTINGS
Description
Displays the remote syslog settings (enabled/disabled status, IP address, Port#) for the Enclosure
Manager.
Restrictions
None
TEST SYSLOG
Syntax
TEST SYSLOG
Description
Tests the remote system log settings by logging a test message to the remote syslog. The test message also appears in the local EM system log.
Restrictions
Only functions if remote syslog is enabled.
Session
Interacting with the EM via the CLI requires a login-initiated session. A session represents a transient context which has a state that can be explicitly controlled by the user. This section describes commands for managing session state and behavior.
CLEAR SCREEN
Syntax
CLEAR SCREEN
Description
Clears the terminal screen.
Restrictions
None
CONNECT SERVER
Syntax
CONNECT SERVER <bay#>
158 Managing the EMU
Description
Opens a Text Console session to the iLO specified by the server bay number. Exit from the session with ‘exit’.
Restrictions
This command can function only if enclosure power is on and a blade server is present. Because the EMU hardware cannot determine if a blade is physically present unless enclosure power is on, the EM reports the warning “The blade is not present.” if this command is issued when enclosure power is off.
EXIT
Syntax
EXIT | LOGOUT | QUIT
Description
Exit the Command Line Interpreter.
Restrictions
None
HELP
Syntax
HELP [<command>]
Description
Show Help messages for or list the top-level commands if no arguments are provided. Arguments listed in braces ( { } ) and separated by the pipe symbol ( | ) are mutually exclusive choices.
Arguments listed in square brackets ( [ ] ) are optional arguments and can be omitted. Fields listed in angle brackets ( < > ) should be replaced with the value indicated.
Restrictions
None
HISTORY
Syntax
HISTORY
Description
Shows the history of commands for the current session.
Restrictions
None
SET SCRIPT
Syntax
SET SCRIPT [MODE] { ON | OFF }
Session 159
Description
Sets script mode on or off. script mode prevents commands from prompting for input or confirmation.
All actions are performed without confirmation. Default values are used for any parameters that normally require user interaction. This setting is only effective for the current CLI session.
Restrictions
The ADD USER command must have a password argument if executed in script mode.
SET SESSION TIMEOUT
Syntax
SET SESSION TIMEOUT <timeout>
Description
Sets the number of minutes before insessions are removed. Valid session timeout. Please note: If the session timeout value is lowered, currently insessions may be removed. The default timeout is
1,440 minutes.
Restrictions
<timeout> must be in the range from 10 to 1,440 minutes (24 hours). The session timeout can be disabled by setting it to zero.
SHOW SESSION TIMEOUT
Syntax
SHOW SESSION TIMEOUT
Description
Displays the current Enclosure Manager user session timeout. The session timeout is the number of minutes before insessions are removed.
Restrictions
None
SLEEP
Syntax
SLEEP <seconds>
Description
Pauses the session for a fixed period of time. Useful for adding delays to scripts. The <seconds> parameter can be any whole number from 1 to 86400.
NOTE: Once the pause begins, there is no way to continue the session before time runs out, but you can always terminate the session (from the client end) and start another one.
Restrictions
The <seconds> parameter can be any whole number from 1 to 86400.
160 Managing the EMU
Using the Enclosure Manager physical interface
The primary interface to the Enclosure Manager is the Ethernet LAN port, which is intended for remote management of the enclosure. AC power is applied to the enclosure so that auxiliary power is available to the EMU. The enclosure may or may not be powered on. Solution software may or may not be installed.
Manual button functions
IMPORTANT: Use the following manual button functions only with the assistance of HP Technical
Support.
The two manual buttons and a two-digit LED display on the EM provide basic management functions when the EM is not connected to the network.
illustrates the physical
(touch/visual) interaction elements.
Figure 150 EM Physical Interface
Activate Button Menu
You cannot manage the EM using a remote management interface because the system is not connected to the LAN, the LAN interface is not functioning properly, or management software is not installed or available.
To activate the button menu:
1.
Press and hold the UP (right) button until the two digits display “- -“.
2.
Release the UP button. System displays two underscores “_ _”:
This display indicates context is at the bottom of the menu range and is awaiting menu selection, which requires pressing the UP button one or more times.
Reboot EM (bE)
The EM LAN interface is not responding to the remote management software but is configured to do so, or the EM has just been reconfigured and needs to be rebooted for the configuration to take effect.
To reboot the EM:
1.
Enter the menu mode using the
“Activate Button Menu” (page 161) .
2.
Press the UP button one time.
The EM changes the display from “_ _“ to “bE” to indicate that menu choice 0 (Reboot) is selected.
3.
Press and hold the UP button for three seconds.
The system blinks (or flashes) the two “bE” for one second to acknowledge the selection.
4.
Release the UP button.
The system then reboots the EM. This event is logged in the system log. The display shows “-
-” during the reboot. The module fault LED flashes. When the reboot is complete, the EM green health LED is lit steady, and the enclosure ID is displayed on the two digits.
Using the Enclosure Manager physical interface 161
Restore Factory Defaults (Fd)
You might be replacing an EM or reconfiguring a messaging system. The action resets the EMU address to a link local IP address (not the factory default).
To restore factory defaults:
1.
Enter the menu mode using the
“Activate Button Menu” (page 161) .
2.
Press the UP button until the display changes from “_ _“ to “Fd”.
3.
Press and hold the UP button for three seconds.
The EM blinks (or flashes) “Fd” three times to acknowledge the selection.
4.
Release the UP button.
The system stops flashing the pattern, internally restores all configurations to factory defaults, and reboots the EM.
Recover Lost Password (Fp)
You changed the Administrator password from the default password set by the factory, and then lost or forgot the new password.
To recover a lost password:
1.
Enter the menu mode using the
“Activate Button Menu” (page 161) .
2.
Press the UP button until the display changes from “_ _“ to “Fp”.
3.
Press and hold the UP button for three seconds.
The EM blinks (or flashes) “Fp” to acknowledge the selection.
4.
Release the UP button.
The system stops flashing “Fp”. The system restores the Administrator password from hardware and logs the event in the syslog. The system displays the Enclosure ID to indicate that the operation is complete.
Set DHCP IP Address (dH)
Reconfigure the messaging system for a different network where IP address assignment is handled dynamically.
To set a DHCP IP address:
1.
Enter the menu mode using the
“Activate Button Menu” (page 161) .
2.
Press the UP button until the display changes from “_ _“ to “dH”.
3.
Press and hold the UP button for three seconds.
The EM flashes “dH” to acknowledge the selection.
4.
Release the UP button.
The system sets the EM to DHCP and exits the menu mode. This event is also logged in the
EM syslog and takes effect immediately. The system displays the Enclosure ID to indicate that the operation is complete.
Set Link Local IP Address (LL)
Reconfigure the messaging system for a network where IP address assignment is static.
To set a static IP address:
1.
Enter the menu mode using the
“Activate Button Menu” (page 161) .
2.
Press the UP button until the display changes from “_ _“ to “LL”.
3.
Press and hold the UP button for three seconds.
The EM flashes “LL” to acknowledge the selection.
162 Managing the EMU
4.
Release the UP button.
The system sets the EM to Link local mode and exits the menu mode. This event is also logged in the EM syslog and takes effect immediately. The system displays the Enclosure ID to indicate that the operation is complete.
Display Current IP Address (IP)
Learn the IP address of the EM.
To find the current IP address:
1.
Enter the menu mode using the
“Activate Button Menu” (page 161) .
2.
Press the UP button until the display changes from “_ _“ to “IP”.
3.
Press and hold the UP button for three seconds.
The EM displays “IP” to acknowledge the selection.
4.
Release the UP button.
The system enters the ‘Display IP’ subfunction and displays the first octet of the IPv4 address being used by the EM.
5.
Press the UP button three times to scroll through the other three octets of the EM IP address.
You can back up using the DOWN button.
6.
Press and hold the DOWN button for three seconds.
The EM flashes “IP” to acknowledge the selection, and then exits the operation. The system displays the Enclosure ID to indicate that the operation is complete.
Exit Button Menu
Exit the main menu (or any subfunction).
To exit the button menu:
Press and hold the DOWN button for three seconds.
The system displays and flashes the two hyphens (“- -“) three times to indicate the menu was exited.
The system then returns the LEDs to the original display state showing the Enclosure ID.
Display Current IP Address (IP) 163
B E5000 Error Codes
E5000 Configuration Wizard
Error
Code
1538
1539
Description
Unhandled Error
Unhandled Internal Error
1540 Error determining the name of a Failing diagnostic
1541 Error determining the name of a Passing diagnostic
1542 Error determining the tasks the E5000
Configuration Wizard needs to perform
Resolution
See the error message for details. Contact HP support and provide these details.
See the error message for details. Contact HP support and provide these details.
See the error message for details. Contact HP support and provide these details.
See the error message for details. Contact HP support and provide these details.
See the error message for details. Contact HP support and provide these details.
1543 Error determining the Storage tasks the E5000
Configuration Wizard needs to perform
See the error message for details. Contact HP support and provide these details.
1544 Error determining the Pre-Provisioning tasks the
E5000 Configuration Wizard needs to perform
See the error message for details. Contact HP support and provide these details.
1545 Error determining the Post-Provisioning tasks the E5000 Configuration Wizard needs to perform
See the error message for details. Contact HP support and provide these details.
1546 Error during attempt to set the Net Connection
ID of a Network Adapter
See the error message for details. Contact HP support and provide these details.
1547 Error during attempt to set the Net Connection
ID for the Replication Network Adapter
See the error message for details. Contact HP support and provide these details.
1548 Error obtaining a list of Network Adapters See the error message for details. Contact HP support and provide these details.
1549
1550
Error Windows Command
Error configuring the Replication Network
Adapter
Refer to the error message for details that will accompany this message. Verify that the account being run from has the correct permissions.
Refer to Microsoft documentation using the error number in the message for help in troubleshooting the failure. Verify that another Network Adapter does not have the same IP Address.
1551 Error clearing the Gateway for the Replication
Network Adapter
Refer to Microsoft documentation using the error number in the message for help in troubleshooting the failure.
1552 Error obtaining System Memory values Refer to the error message for details that will accompany this message. Contact HP support and provide these details.
1553 Error creating directory, Mounting Volume or obtaining the Drive Count
1554
1555
Error refreshing Drive List or Volume List
Error obtaining storage profiles
Refer to the error message for details that will accompany this message. If the error was in creating a directory, verify that the account being run from has the correct permissions. Contact
HP Support and provide details.
Refer to the error message for details that will accompany this message. Verify that HP CMP is installed and that the Service
HP CMP is started.
Refer to the error message for details that will accompany this message. Verify that HP CMP is installed and that the Service
HP CMP is started.
164 E5000 Error Codes
Error
Code
1556
Description
Error creating Sandbox Commit Service
1557
1558
1559
1560
Error joining Domain or Workgroup
Error joining Domain or Workgroup
Error disconnecting from Domain or
Workgroup
Error renaming System
Refer to Microsoft documentation using the error number in the message for help in troubleshooting the failure.
Refer to Microsoft documentation using the error number in the message for help in troubleshooting the failure.
Refer to Microsoft documentation using the error number in the message for help in troubleshooting the failure.
Refer to the error message for details that will accompany this message. Verify that the account being run from has the correct permissions.
Refer to Microsoft documentation using the error number in the message for help in understanding the failure.
1561 Error configuring Network Adapter whose ID appears in the error message
1562 Error pinging the Enclosure Manager Unit
1563 Error generating public and private keys for the Enclosure Management Unit
Refer to the error message for details that will accompany this message. Verify that the network address of the EMU is set up correctly and that it is cabled correctly.
Refer to the error message for details that will accompany this message. Contact HP support and provide these details.
1564 Error connecting to the Enclosure Management
Unit
Refer to Microsoft documentation using the error number in the message for help in understanding the failure.
1565 StorageRequirementsUnmet Error connecting to the Enclosure Management Unit
Resolution
Refer to the error message for details that will accompany this message. Contact HP support and provide these details.
1566
1567
1568
1569
1570
1571
1572
Error creating Model Share folder
Error creating Model Share folder
Error checking drives
Error launching program HPEMCONFIG
Error running a diagnostic
A LUN is presented to both Servers
Error attempting to provision storage
Refer to the error message for details that will accompany this message. Verify that the account being run from has the correct permissions. Also verify that the network address of the EM is set up correctly and that it is cabled correctly.
Refer to the error message for details that will accompany this message. Storage requirements could not be met.
Refer to the error message for details this will accompany this message. Verify that the account being run from has the correct permissions.
An attempt was made to check drives because the number of drives found was less than the minimum drive count for this product. Check the condition of all drives.
Refer to the error message for details that will accompany this message. Verify that the account being run from has the correct permissions. Verify via the Control Panel that HP Enclosure
Manager Settings is installed.
Refer to the error message for details that will accompany this message. Verify that HP CMP is installed and that the Service
HP CMP is started.
A LUN is only allowed to be presented to one server at a time.
Contact HP support and provide these details.
No storage was available to provision using the listed profile.
All storage may not be provisioned.
1573 Not used
1574 Not used
1575 Error running Alert Emails script The script specified in the error message failed to execute properly. Retry the operation. If the operation continues to fail contact HP support and provide these details.
E5000 Configuration Wizard 165
Error
Code
1576
1577
1578
1579
Description
Unhandled exception on the Alert Emails configuration page
Error saving Alert Emails information
Error copying or removing Alert Emails information
Error sending a test email
Resolution
See the error message for details. Contact HP support and provide these details.
The information was not successfully written to the file specified in the error message. Retry the operation. If the operation continues to fail contact HP support and provide these details.
The file specified in the error message failed to be deleted or overwritten by a newer version. Retry the operation. If the operation continues to fail contact HP support and provide these details.
There was a problem successfully sending a test email to the address specified. If Exchange has not been deployed on this server and the email address specified does not yet exist this operation will fail. Retry the operation after Exchange has been deployed via the Alert Emails snap-in in Server Manager.
1580 Not used
1581 Not used
1582 Not used
1583 Error finding provisioning file
1584 Error attempting to remove local Raid0 LUN
1585 Error attempting to remove Server blade 2's
Raid0 LUN
A valid provisioning file was not returned. Verify that HP CMP is installed and that the Service HP CMP is started.
The requested operation to remove the local Raid0 Recovery
LUN was unsuccessful. If a retry fails please contact HP support and provide these details.
The requested operation to remove the local Raid0 Recovery
LUN was unsuccessful. If a retry fails please contact HP support and provide these details.
System Manager
Error
Code
Description
257
258
259
260
261
262
263
264
265
The EM key has not been generated yet.
Exchange related WMI query failed.
Query for serial number failed
Service Registry Key not Found. Possible re-purposing of the server.
Resolution
Run the E5000 Configuration Wizard to completion.
Verify that Exchange is installed and running via the Exchange
Management Console, located in Programs\Microsoft Exchange
Server 2010\Exchange Management Console.
Verify that there is communication with the EMU.
Verify that the E5000 System Validation Service is installed and running.
(Warning) High-level WMI Enclosure queries fail. Possible EM provider issue.
Call HP Support.
Class specific enclosure queries fail. Could be timing or problem with specific class.
Call HP Support.
(Warning) High-level WMI System queries fail.
Possible System provider issue
Check the SMH for Hardware status and, if the components are missing, verify that the WEBM Providers are installed.
Class specific system query failed. Could be timing or problem with specific class.
(Warning) High-level WMI Storage queries fail. Possible System provider issue
Check the SMH and verify that all hardware components are reporting a status. Any missing components could be offline or failing.
Call HP Support.
166 E5000 Error Codes
269
270
271
272
Error
Code
Description
266 Class specific storage query failed. Could be timing or problem with specific class.
267 RunDiags ESEVTray Log file missing
268
273
274
275
276
Resolution
Call HP Support.
RunDiags ESEVService Log file missing
Verify that System Status is running by checking the status tray icons in the lower right corner of the window. If the icon is not displayed, the application is not installed.
Verify that the E5000 System Validation Service is installed and running.
CMP Diags file failed to run.
HPSReports failed to run
Exch diags failed to run Verify that Exchange Diagnostics is installed.
InnerException in GetVersion – the Product ID for this system is not available
Ensure that the product ID has not been repurposed and that the ID is correct in the BIOS ROM.
Exception in GetComponentList – possible format error in UpgradeNeeded.xml
InnerException in updateUpgradeStatus – possible format error in
UpgradeCompleted.xml
Verify that the UpgradeNeeded.xml file is located in the C:\
Program Files (x86)\Hewlett-Packard\E5000\HP
Firmware Update Tool\ directory. Open the file in a browser to check the format.
Verify that the UpgradeCompleted.xml file is located in the
C:\Program Files (x86)\Hewlett-Packard\E5000\
HP Firmware Update Tool\ directory. Open the file in a browser to check the format.
(W) TheadAbortException in fwNext –
FWUpdateTool was running and did not exit cleanly
TheadAbortException in fwRetry –
FWUpdateTool could not start
Verify that CMP Diagnostics is installed.
Verify that HPSReports is installed.
Verify that the hpFWUpdateTool_log.txt file is located in the C:\ProgramData\Hewlett-Packard\logs\ directory.
View the last entry in the file to determine what happened.
Open the Task Manager, select the Process tab and select the name field to sort alphabetically. Scroll through the list of processes to determine if another instance of
FwUpdateTool.exe
is running. If it is, wait until that instance has finished.
E5000 Exchange Deployment Tool
NOTE: The third digit of each error code indicates which phase was running when the error occurred.
If you must reset the Exchange Deployment Tool phase (1-6), the key to be edited is stored in:
Registry: HKLM:\Software\Hewlett-Packard -key name MercuryDeployStatus
Error
Code
1111
Phase
1 – Jetstress
1122 2- Exchange
Tools install
Description Resolution
EDT Error: Expected VOL mismatch.
VOL$i not found.
Verify that C:\ExchangeDatabases\VOLx exists
(disks are online). You may need to replace physical disks and then re-run the E5000 Configuration
Wizard and the Exchange Deployment Tool.
Exchange Tools NOT installed please check C:\
ExchangeSetupLogs for details.
Check C:\ExchangeSetupLogs to determine why Microsoft Exchange failed to install the administrator tools. This is an Exchange Setup error, not an Exchange Deployment Tool error.
E5000 Exchange Deployment Tool 167
Error
Code
1141
1142
1143
1151
1152
1154
1155
1156
1157
1162
Phase
2- Exchange
Tools install, 3-
Setup prep, 4-
Exchange Setup
4- Exchange
Setup
4- Exchange
Setup
5- Exchange post-setup
(config)
5- Exchange post-setup
(config)
5- Exchange post-setup
(config)
5- Exchange post-setup
(config)
5- Exchange post-setup
(config)
5- Exchange post-setup
(config)
6- EDT exit (to
ExBPA)
Description Resolution
EDT Error: Expected VOL mismatch.
VOL$i not found.
Verify that C:\ExchangeDatabases\VOLx exists
(disks are online). You may need to replace physical disks and then re-run the E5000 Configuration
Wizard and the Exchange Deployment Tool.
EDT Error: Exchange did NOT install, check C:\
ExchangeSetupLogs\Exc hangeSetup.log
for full details.
Check C:\ExchangeSetupLogs to determine why Microsoft Exchange failed to install the administrator tools. This is an Exchange Setup error, not an Exchange Deployment Tool error.
EDT Error: Enterprise Edition license required for this configuration (more than 5 databases).
A dialog box should appear and prompt you to re-enter the license key. You can also proceed with the setup and address the license key issue later.
For more information, see “set-ExchangeServer” on
TechNet.
EDT Error: Expected VOL mismatch.
VOL$i not found.
Verify that C:\ExchangeDatabases\VOLx exists
(disks are online). You may need to replace physical disks and then re-run the E5000 Configuration
Wizard and the Exchange Deployment Tool.
EDT Error: Exchange is NOT installed, check C:\
ExchangeSetupLogs\
ExchangeSetup.log
for full details.
EDT Error: Cannot join DAG -
Check C:\ExchangeSetupLogs to determine why Microsoft Exchange failed to install. The
Exchange Deployment Tool has stopped because it detects that the previous phases have not been completed. View the error log using the button in the Exchange Deployment Tool.
Check input and see http://go.microsoft.com/?
linkid=9751386 for more information. View the error log using the button in the Exchange
Deployment Tool.
Error: Cannot create DAG Check input (e.g., Witness Server) and see http:// go.microsoft.com/?linkid=9751386 for more information. View the error log using the button in the Exchange Deployment Tool.
EDT Error: $localserver Did not join $DAGname -
Check C:\ExchangeSetupLogs\DagTasks log and see http://go.microsoft.com/?linkid=9751386 for more information. View the error log using the button in the Exchange Deployment Tool.
Error: Exchange Server
$server1name NOT valid. Verify your inputs.
Check that the first server is correctly installed. This occurs on the second server.
EDT Error: Exchange is NOT installed, check C:\
ExchangeSetupLogs\
ExchangeSetup.log
for full details.
Check C:\ExchangeSetupLogs to determine why Microsoft Exchange failed to install. The
Exchange Deployment Tool has stopped because it detects that the previous phases have not been completed. View the error log using the button in the Exchange Deployment Tool.
Firmware Update
Error
Code
Description
2048 (W) Error deleting file
UpgradeSelected.xml
.
Resolution
See the error message for details. The UpgradeSelected.xml
file must be deleted after a firmware upgrade has completed for discovery to work correctly. The file is located in C:\
168 E5000 Error Codes
Error
Code
Description Resolution
Program Files (x86)\Hewlett-Packard\E5000\HP
Firmware Update Tool\ .
2049
2050
2051
(W) Error opening file
UpgradeSelected.xml
.
(I)Error clearing components from the list of components needing upgrade.
Error processing discovery information from
CMP service
See the error message for details. The UpgradeSelected.xml
file must be opened and read for a firmware upgrade to occur.
Open the file in Internet Explorer or a similar browser to check the format. This will also validate that the file exists and can be opened. Otherwise, delete the file, which is located in C:\
Program Files (x86)\Hewlett-Packard\E5000\HP
Firmware Update Tool\ .
See the error message for details. This list must be cleared so that duplicate entries are not displayed after a discovery. No action required.
See the error message for details. There was a problem processing data returned during the discovery operation. Apply the suggestion displayed in the E5000 System Manager to resolve the issue.
2052
2053
2054
2055
2056
2057
2058
Error communicating with CMP service to get discovery information
(I) Error response from HP CMP service while getting discovery information
Error processing data returned from the firmware upgrade operation
Error communicating with CMP during an upgrade operation
Error response from CMP during an upgrade operation
Error sending data to CMP Service during firmware upgrade.
Web Error on POST Request in upgradeComponent.
2059 (I) Error in RespCallBack.
2060 (I) Web Error in RespCallBack.
2061 (I) Error in ReadCallBack.
2062 (I) Web Error in ReadCallBack.
See the error message for details. There was a problem communicating with CMP to start the discovery operation.
Validate that the HP CMP service is started. Using the Control
Panel, verify that the HP CMP Firmware is installed.
The HP CMP service encountered an error. Troubleshoot the
CMP error. Details can be found in the file C:\ProgramData\
Hewlett-Packard\logs\hpFWUpdateTool_log.txt
.
See the error message for details. There was a problem processing data returned during a firmware upgrade. Apply the suggestion displayed in the E5000 System Manager to resolve.
See the error message for details. There was a problem communicating with CMP to start the upgrade. Validate that the HP CMP service is started. Using the Control Panel, verify that the HP CMP Firmware is installed.
The CMP service encountered an error. View the CMP error details in the file C:\ProgramData\Hewlett-Packard\ logs\hpFWUpdateTool_log.txt
. The component’s firmware may not have been upgraded.
See the error message for details. There was a problem sending data to CMP during an upgrade. Apply the suggestion displayed in the E5000 System Manager to resolve.
See the error message for details. There was a problem communicating with CMP to start the upgrade. Verify that the
HP CMP service is started. Using the Control Panel, verify that the HP CMP Firmware is installed.
Reserved for future use.
Reserved for future use.
Reserved for future use.
Reserved for future use.
2063 (I) Error in SearchAllDevices.
Reserved for future use.
2064 Error received in response to Upgrade request in upgradeComponent.
See the error message for details. There was a problem processing data returned during the discovery operation. Apply the suggestion displayed in the E5000 System Manager to resolve the issue.
Firmware Update 169
Error
Code
Description Resolution
2065 (I) Error clearing components from list to check health status prior to upgrade
See the error message for details. This list must be cleared to force a discovery. No action required.
2066
2067
(I) Error removing a component from list to check health status prior to upgrade.
XML Error in getComponents.
See the error message for details. An entry on this list must be removed to prevent an attempt to upgrade a failed component.
No action required.
See the error message for details. View the hpFWUpdateTool_log.txt
file, located in C:\
ProgramData\Hewlett-Packard\logs\ . Open the file in
Internet Explorer or a similar browser to check the format.
2068 (W) Warning in response to Upgrade request in upgradeComponent.
See the error message for details. There was a problem processing data returned during the discovery operation. Apply the suggestion displayed in the E5000 System Manager to resolve the issue.
2069 (I) Informational in response to Upgrade request in upgradeComponent
See the error message for details. There was a problem processing data returned during the discovery operation. No action is necessary.
Enclosure Manager Settings
Error
Code
Description
1792 Unhandled Error
Resolution
1793 Error connecting to the Enclosure Management
Unit
See the error message for details. Contact HP support and provide these details.
See the error message for details. Verify that the account being used has the correct permissions. Verify that the network address of the EMU is set up correctly and that it is cabled correctly.
1794
1796
Error obtaining properties of the Enclosure
Management Unit
Error connecting to the Enclosure Management
Unit
See the error message for details. Verify that all HP Providers are installed and are accessible. Also verify that the network address of the EMU is set up correctly and that it is cabled correctly.
1795 Error generating new public and private keys for the Enclosure Management Unit
See the error message for details. Contact HP support and provide these details.
Using the error number in the message, see the Microsoft documentation for help in troubleshooting the failure.
1797 Not used
1798 Error completing connection to Enclosure
Management Unit
See the error message for details. Verify that the account being used has the correct permissions. Verify that the network address of the EMU is is set up correctly and that it is cabled correctly.
Storage Viewer
Error
Code Description
3072 Unhandled Error
Resolution
See the error message for details. Try restarting the tool or see the event logs, application logs, and user guide for troubleshooting information. Verify that CCU is installed by checking the C:\Program Files\hp\ccu\lib. Verify
170 E5000 Error Codes
Error
Code Description Resolution that there are no unsupported enclosures attached. The supported enclosures are D2600 and D2700.
3073 Error discovering LUNs or Volume list and Drive list
See the error message for details or the Windows event logs for any further information. Verify that the storage controller is not locked up; if so, restarting the server may resolve the problem. If an enclosure other than a D2600 or D2700 is attached to the system, no LUNs or drives will be discovered.
Ensure that a supported enclosure is present.
Recovery LUN Manager
Error
Code
2816
2817
2818
Description
Unhandled Error
Error discovering RAID1 recovery LUN
Error deleting partition
2819 Error revoking access to recovery LUN on this server
2820
2821
Error creating partition
Error granting access to recovery LUN
Resolution
Try restarting the tool or see the event logs, application logs, and user guide for troubleshooting information.
See the error message for details or the Windows event logs for any further information. Verify that the storage controller is not locked up; if so, restarting the server may resolve the problem.
See the error message for details or the Windows event logs for any further information. Verify that the partition is visible in Windows Explorer or the Disk Management snap-in and verify that the partition is online.
See the error message for details or the Windows event logs for any further information. Try the refresh and decommission actions again.
See the error message for details or the Windows event logs for any further information. Try the refresh and decommission actions again. Using My Computer, verify that the R:\ partition is created.
See the error message for details or the Windows event logs for any further information. Try the refresh and decommission actions again.
CSP WBEM Providers
Error
Code Description
2320
The CSP Enclosure Provider is initializing.
EventLogEntryType
Informational
2321
CSP Enclosure Provider initialization successful.
Success
2322 Enclosure Provider lost connection with EM. Fan, Power supply and
IO/PCIe Modules classes will not work.
Warning
Resolution
Retry query to provider after three minutes.
Check Enclosure Manager connections and retry query to provider after three minutes.
Recovery LUN Manager 171
Error
Code Description EventLogEntryType
2323 Enclosure Provider is unable to parse the input data provided by
EM.
1.
Fan, Power supply and IO/PCIe
Module classes will not work.
2.
Blade classes may give only partial data.
Warning
2324 Enclosure Provider is unable to build internal lists using data provided by
EM.
Warning
2325 Enclosure provider is not recognizing this blade server. Many or all the classes may fail.
Error
2326 Enclosure provider is unable to build internal lists. Blade classes may fail.
Error
2327 Enclosure provider is unable to connect to health driver. Many or all classes may fail.
Error
2336 The CSP Storage Provider is initializing.
2337 CSP Storage Provider initialization successful.
Informational
Success
2338 CSP Storage provider does not give instances for top level class
HP_CCStorageSystem .
Warning
2339 Unable to find the Default
Namespace for Storage Provider.
Warning
Resolution
Check the provider logs for details.
Retry query to provider after three minutes.
Check the provider logs for details.
Check the provider logs for details.
Check the provider logs for details.
Check the provider logs for details and report to the Support Team.
Retry query to provider after three minutes.
Retry query to provider after three minutes.
2340 Querying the top level class
HP_CCStorageSystem failed in
CSP Storage Provider.
2352 The CSP Server Provider is initializing.
2353 CSP Server Provider initialization successful.
Error
Informational
Success
2354 CSP Server provider does not give instances for top level class
HP_WinComputerSystem .
2356 Querying the top level class
HP_WinComputerSystem failed in CSP Server Provider.
Warning
Error
Retry query to provider after 3 minutes. If retry fails report to the
Support Team.
Retry query to provider after three minutes. If retry fails, report to the
Support Team.
Check the provider logs for details.
Check the provider logs for details.
CMP
Error
Code Description
0X1A01 Repository file %s does not exist.
0X1A02 Repository file %s is not readable
Type/
Severity
Error/
Critical
Error/
Critical
Root cause Resolution
The Repository.xml file is either missing from the
C:\ProgramData\Hewlett-
Packard\CMP\Firmware
Reinstall the firmware bundle as follows:
1.
Use the Uninstall Programs wizard in Control Panel to
172 E5000 Error Codes
Error
Code
0X1A03
0X1A04
0X1A0D
Description
Error processing
Repository.xml
please check that this file is well-formed XML
Smart Component file described in repository does not exist or is not readable: %s
Error processing
Repository file %s: version not compatible
Type/
Severity
Error/
Critical
Error/
Critical
Error/
Critical
Root cause directory or permissions are not configured properly on this file.
The Repository.xml file is corrupted.
Resolution remove the current firmware bundle.
2.
Install the HP_CMP_FW MSI file, which is located in the
C:\hpnas\Components\CMP directory.
One or more Smart Components
(SC) is missing from the
C:\ProgramData\Hewlett-
Packard\CMP\Firmware directory.
The Version tag of the
Repository.xml
file is not compatible. This occurs when the
Repository.xml
file is corrupted.
These error message may display if there is a problem creating or reading a temporary file/directory that is used for the discovery/flash operation for some Smart Components.
1.
Check the logs for more information.
2.
Free up space or set the correct permissions on the temporary directory mentioned in the error message.
3.
Retry the discovery/flash operation.
0X1A05 Smart Component discovery failed for %s using %s: unable to create temp directory %s
Error/
Critical
0X1A06 Smart Component discovery failed for %s using %s: error reading the discovery file: %s.
Check the log (%s in %s) for more information
Error/
Critical
0X1A0F Smart Component discovery failed for %s using %s: discovery file not created: %s. Check log file %s for more information
0X1A07 Internal CMP error - see the log file (%s in %s) for more information.
Error/
Critical
0x1027 Flash not attempted for %s using %s: unable to create temporary directory %s.
Error/
Critical
Error/
Critical
0X1A08 Internal CMP error - see log file (%s) for more information
Error/
Critical
0x1020 Flash not attempted using
%s: Internal CMP error see log file (%s) for more information.
Error/
Critical
0x1A10 Smart Component discovery failed for %s using %s: invalid response from Smart Component.
Check the log file (%s in
%s) for more information
Error/
Critical
0X1A0B Error inspecting firmware for %s: Internal CMP error
- see log file (%s in %s) for more information.
Error/
Critical
An internal error occurred during the discovery/flash operation, due to Smart Component execution failures or an unexpected response from the
Smart Components. Also, the tool might have encountered an error condition that aborted the operation.
An error occurred while discovering the active firmware version.
Check the logs for more information and proceed accordingly.
CMP 173
Error
Code Description
0X1A09 Smart Component discovery failed for %s using %s: device discovery timed out.
Check log files: %s and
%s
0X1A0C File %s does not exist
Type/
Severity
Error/
Critical
Error/
Critical
Root cause Resolution
The system was too busy to respond or the Smart Component did not respond to the discovery operation within the specified timeout period.
Retry the discovery operation.
The necessary directory or files are missing from the system.
The Smart Component failed to discover the active version.
1.
Reinstall the CMP installer
(HP_CMP), which is located in the
C:\hpnas\Components\CMP directory.
2.
If needed, install the firwmare bundle (HP_CMP_FW MSI), which is located in the same directory.
Check the logs for more information and proceed accordingly.
0X1A0E Smart Component discovery failed for %s using %s. Check log file
%s for more information
Error/
Critical
0x1A11 Failure communicating with Enclosure Manager
(EM) - check that EM is up and can be reached from server: see the log file
(%s) for more information.
Error/
Critical
0x1A12 Smart Component discovery failed for %s using %s: Authentication failed while connecting to
Enclosure Manager (EM)
Error/
Critical
0x1034 Flash not attempted for %s using %s: Authentication failed while connecting to
Enclosure Manager (EM).
Error/
Critical
0x1011 Flash failed for %s using
%s. Check log files (%s and %s) for further information.
Error/
Critical
0x1012 Flash failed for %s using
%s. Check log file (%s) for further information.
Error/
Critical
0x1015 Smart Component flash failed for %s using %s.
Check log files: %s, %s and %s.
0x1013 Flash failed for %s using
%s: the device hung on reset.
Error/
Critical
Error/
Critical
0x1014 Smart Component flash failed for %s using %s: wait for flash status timed out. Check log files: %s,
%s and %s.
Error/
Critical
There was a failure to communicate with the Enclosure
Manager due to a connectivity issue.
Enclosure Manager authentication failure
Flash failed
Ensure that the Enclosure Manager is up and connected to the server.
Then, retry the operation.
Ensure that the Enclosure Manager keys are generated properly. To do so, open the E5000
Configuration Wizard, navigate to the Enclosure Communication screen and enter the Enclosure
Manager password. Then, retry the operation.
Check the logs for more information and proceed accordingly.
Devices that require a reset after a flash operation (such as I/O modules) hung during the reset process.
The system was too busy to respond or the Smart Component did not respond to the flash operation within the specified timeout period.
Wait for a period of time and then check whether the newer version is reflected by discovering the affected components. If the newer version does not display, retry the operation.
174 E5000 Error Codes
Error
Code
0x1031
Description
0x1017 Enclosure Manager
Firmware Update Failed
(EMU can't access server's IP Address).
Check log files: %s and
%s.
Failed to retrieve HDD information before flashing %s using %s ,
Please check the log file
(%s) for further details.
Type/
Severity
Error/
Critical
Error/
Critical
Root cause
The Enclosure Manager cannot be reached from the server.
Resolution
Ensure that connectivity between the Enclosure Manager and the server is proper and then retry the flash operation.
Information about the hard disk drives could not be retrieved prior to flashing the storage.
You must diagnose the storage enclosure and P1210m controller to obtain details of all attached and available hard disk drives to ensure the enclosure is in the OK state.
0x1036 Flash not attempted for %s using %s: Drive model(s) not supported. Check log file (%s) for further information.
Warning/
Normal
The hard disk drive present on the server or the enclosure is not supported with the appliance.
Ensure that you have the supported hardware configuration on appliance.
0x1037 Flash not attempted for %s using %s: P410i Smart
Array Controller Cache
Board is not present.
Cache board is needed to flash the internal server
HDD.
Information/
Normal
Flash was not attempted for internal server hard disk drives because the P410i Smart Array
Controller cache board was not present. The cache board is required to flash the internal server hard disk drives.
Ensure that the cache board is installed on the servers.
CMP 175
C Troubleshooting
This appendix addresses common issues and provides information to resolve them.
E5000 Configuration Wizard
Issue
You are unable to locate the domain controller after entering domain logon information.
Resolution
• Ensure that the domain name and credentials are valid and entered correctly.
• Ensure that the domain controller is online.
• If you cannot ping the domain controller:
◦
Check for and resolve any network topology issues.
◦
Ensure that the network cabling matches one of the scenarios in
“Network connections” (page 10)
to verify cabling.
◦
Ensure that the DNS information was entered correctly
◦
Verify that you are using the correct address for your connection if the domain controller is dual homed.
Logon failure (unknown user name or bad password) • Ensure that the user name and password were entered correctly.
• Determine if the E5000 Messaging System needs to be added to the domain.
Adding this computer to the domain or workgroup failed.
5 error in the E5000 Configuration Wizard summary
The credentials entered may not have had administrator rights. Manually join the domain with administrator credentials (select Computer
→Properties→Advance
Settings).
A message displays that there is already a host by that name in the domain.
Use a new host name or delete the old computer account from the domain.
176 Troubleshooting
Issue
The disk LUNs/volumes are not set up correctly.
Drives 1-4 are missing or have failed (E5300).
You cannot reach the EMU.
The replication connection is lost.
Resolution
•
Ensure that all disks are fully seated and run the E5000
Configuration Wizard again.
•
Resolve any disk issues and run the E5000
Configuration Wizard again.
NOTE: It is normal for the hot plug drives to have their
LEDs off.
• If an expansion disk enclosure was not powered on:
◦
Power on that expansion disk enclosure.
◦
Run E5000 Configuration Wizard diagnostics.
◦
Follow the procedure for adding storage see
(
“Adding expansion disk enclosures to an installed messaging system” (page 21) ).
•
If an expansion disk enclosure was not cabled correctly:
◦
Resolve the cable issue.
◦
Run E5000 Configuration Wizard diagnostics.
◦
Follow the procedure for adding storage see
(
“Adding expansion disk enclosures to an installed messaging system” (page 21) ).
• If you ordered multiple E5000 Messaging Systems and multiple expansion disk enclosures ensure that you attach the correct expansion disk enclosures to the
E5000. Each expansion disk enclosure has a label with the serial number of a specific E5000.
Ignore this error. It is normal for the E5300 to have only
12 drives.
Verify that:
• The server blades and the EMU are on the same network.
• The server blade and the enclosure network settings are correct.
• The EMU card is present and in a healthy state.
• The network cables are connected properly.
• Ensure that the cabling for replication network is correct.
• Ensure that both replication ports are on the same subnet.
Exchange Deployment Tool
Issue
You do not have an Exchange 2010 license key.
Resolution
Purchase license keys from Microsoft. License keys are not included with the E5000 Messaging System.
The Exchange 2010 license key you entered was returned as being invalid.
Verify that the key is valid and was entered correctly.
The configuration fails when configuring the sixth database.
Upgrade to an Enterprise Edition Exchange license from
Microsoft. The Enterprise Edition is required for six or more databases.
Exchange Deployment Tool 177
Issue Resolution
The witness server or share cannot be contacted or used.
•
Open the Exchange Management Shell or the Exchange
Management Console and run: set-databaseavailabilitygroup witnessdirectory "<fsw e.g. c:\fsw>" witnessserver "newWitnessServer" -id
"DAGname" See the following Microsoft note about permissions: http://technet.microsoft.com/en-us/ library/dd297934.aspx
• Ensure that the witness server is online and try again.
• Resolve any cabling, DNS Name resolution, or other network configuration issues.
• On the local machine hosting the FSW check if the drive and path is correct. (for example. c:\fsw).
The Exchange Trusted Subsystem is not a member of the local Administrators group on the specified witness server.
[Found in Windows Event Log, setup.log in the DAGtasks folder]
If the witness server you specify is not an Exchange 2010 server, you must add the Exchange Trusted Subsystem USG
(Universal Security Grid) to the local Administrators group on the witness server. See the following Microsoft TechNet note: http://technet.microsoft.com/en- us/library/ dd351107.aspx
This account does not have domain, enterprise, local or schema administrator permissions.
• Log in using Domain administrator credentials.
• Run the E5000 Quick Deployment Tool as an Enterprise
Administrator.
Microsoft Exchange
Issue
The client cannot connect to Microsoft Exchange and cannot resolve the CAS Array name from the Microsoft
Outlook client (for example, nslookup CASarrayname).
The client cannot connect to Microsoft Exchange but can resolve the CAS Array name from the Outlook client (for example, nslookup CASarrayname).
Resolution
•
If the mailbox cannot be reached via the Microsoft
Outlook Web Application on the E5000 Messaging
System, check for CAS array issues.
• Verify that the correct CAS array name is being used on the Microsoft Outlook client.
• Try “Test E-mail AutoConfiguration” from the Microsoft
Outlook client system tray.
• Ensure that the DNS server is functioning.
• Check if a VPN is required to connect to the Exchange server and if so resolve any VPN issues.
•
Troubleshoot the network for issues between the server and client.
• Try Connection Status →Reconnect from the Microsoft
Outlook client system tray.
• Try Test E-mail AutoConfiguration from the Microsoft
Outlook client system tray.
•
Try Tools
→Account Settings→Accounts→Repair from the client’s Microsoft Outlook
•
If this is a new migration from Exchange 2003, ensure that RPC encryption is enabled.
•
If the Exchange databases are offline, try to mount and bring the databases online with the Exchange
Management Console.
• If the E5000 Messaging System disk drives are offline, troubleshoot the disk drives.
178 Troubleshooting
Performance
Issue
All databases are mounted on one server.
Resolution
Rebalance the load using using the
RedistributeActiveDatabases.ps1
script
The System Management Home page indicates a hardware issue.
• If the issue is with the 1210m controller, determine if a
SAS I/O module needs to be replaced or if one blade server needs to be removed. Then, rebalance the load using the RedistributeActiveDatabases.ps1
script.
• If a disk has failed, replace the failed drive during non-peak hours to avoid performance issues during the rebuild.
• If the 1210m cache is listed as degraded or failed, replace the SuperCapacitor or the cache module and rebalanced the load. Use the
RedistributeActiveDatabases.ps1
script to rebalanced the load.
The Exchange Performance Analyzer found an issue.
The Exchange Best Practices Analyzer found an issue.
Follow the instructions in the Exchange Performance
Analyzer to fix the issues.
Follow the instructions in the Exchange Best Practices
Analyzer to fix the issues.
Performance 179
D Regulatory compliance notices
This section contains regulatory notices for the HP ______________________.
Regulatory compliance identification numbers
For the purpose of regulatory compliance certifications and identification, this product has been assigned a unique regulatory model number. The regulatory model number can be found on the product nameplate label, along with all required approval markings and information. When requesting compliance information for this product, always refer to this regulatory model number.
The regulatory model number is not the marketing name or model number of the product.
Product specific information:
HP ________________
Regulatory model number: _____________
FCC and CISPR classification: _____________
These products contain laser components. See Class 1 laser statement in the
“Laser compliance notices” (page 184)
section.
Federal Communications Commission notice
Part 15 of the Federal Communications Commission (FCC) Rules and Regulations has established
Radio Frequency (RF) emission limits to provide an interference-free radio frequency spectrum.
Many electronic devices, including computers, generate RF energy incidental to their intended function and are, therefore, covered by these rules. These rules place computers and related peripheral devices into two classes, A and B, depending upon their intended installation. Class A devices are those that may reasonably be expected to be installed in a business or commercial environment. Class B devices are those that may reasonably be expected to be installed in a residential environment (for example, personal computers). The FCC requires devices in both classes to bear a label indicating the interference potential of the device as well as additional operating instructions for the user.
FCC rating label
The FCC rating label on the device shows the classification (A or B) of the equipment. Class B devices have an FCC logo or ID on the label. Class A devices do not have an FCC logo or ID on the label. After you determine the class of the device, refer to the corresponding statement.
Class A equipment
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user must correct the interference at personal expense.
Class B equipment
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference does not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment
180 Regulatory compliance notices
off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
•
Reorient or relocate the receiving antenna.
•
Increase the separation between the equipment and receiver.
•
Connect the equipment into an outlet on a circuit that is different from that to which the receiver is connected.
•
Consult the dealer or an experienced radio or television technician for help.
Modification
The FCC requires the user to be notified that any changes or modifications made to this device that are not expressly approved by Hewlett-Packard Company may void the user's authority to operate the equipment.
Cables
When provided, connections to this device must be made with shielded cables with metallic RFI/EMI connector hoods in order to maintain compliance with FCC Rules and Regulations.
Canadian notice (Avis Canadien)
Class A equipment
This Class A digital apparatus meets all requirements of the Canadian Interference-Causing
Equipment Regulations.
Cet appareil numérique de la class A respecte toutes les exigences du Règlement sur le matériel brouilleur du Canada.
Class B equipment
This Class B digital apparatus meets all requirements of the Canadian Interference-Causing
Equipment Regulations.
Cet appareil numérique de la class B respecte toutes les exigences du Règlement sur le matériel brouilleur du Canada.
European Union notice
This product complies with the following EU directives:
•
Low Voltage Directive 2006/95/EC
•
EMC Directive 2004/108/EC
Compliance with these directives implies conformity to applicable harmonized European standards
(European Norms) which are listed on the EU Declaration of Conformity issued by Hewlett-Packard for this product or product family.
This compliance is indicated by the following conformity marking placed on the product:
This marking is valid for non-Telecom products and EU harmonized Telecom products (e.g., Bluetooth).
Certificates can be obtained from http://www.hp.com/go/certificates .
Hewlett-Packard GmbH, HQ-TRE, Herrenberger Strasse 140, 71034 Boeblingen, Germany
Canadian notice (Avis Canadien) 181
Japanese notices
Japanese VCCI-A notice
Japanese VCCI-B notice
Japanese VCCI marking
Japanese power cord statement
Korean notices
Class A equipment
Class B equipment
182 Regulatory compliance notices
Taiwanese notices
BSMI Class A notice
Taiwan battery recycle statement
Vietnamese notice
Taiwanese notices 183
Laser compliance notices
English laser notice
This device may contain a laser that is classified as a Class 1 Laser Product in accordance with
U.S. FDA regulations and the IEC 60825-1. The product does not emit hazardous laser radiation.
WARNING!
Use of controls or adjustments or performance of procedures other than those specified herein or in the laser product's installation guide may result in hazardous radiation exposure. To reduce the risk of exposure to hazardous radiation:
•
Do not try to open the module enclosure. There are no user-serviceable components inside.
•
Do not operate controls, make adjustments, or perform procedures to the laser device other than those specified herein.
•
Allow only HP Authorized Service technicians to repair the unit.
The Center for Devices and Radiological Health (CDRH) of the U.S. Food and Drug Administration implemented regulations for laser products on August 2, 1976. These regulations apply to laser products manufactured from August 1, 1976. Compliance is mandatory for products marketed in the United States.
Dutch laser notice
French laser notice
184 Regulatory compliance notices
German laser notice
Italian laser notice
Japanese laser notice
Laser compliance notices 185
Spanish laser notice
Recycling notices
English recycling notice
Disposal of waste equipment by users in private household in the European Union
This symbol means do not dispose of your product with your other household waste. Instead, you should protect human health and the environment by handing over your waste equipment to a designated collection point for the recycling of waste electrical and electronic equipment. For more information, please contact your household waste disposal service
186 Regulatory compliance notices
Bulgarian recycling notice
Изхвърляне на отпадъчно оборудване от потребители в частни домакинства в Европейския съюз
Този символ върху продукта или опаковката му показва, че продуктът не трябва да се изхвърля заедно с другите битови отпадъци. Вместо това, трябва да предпазите човешкото здраве и околната среда, като предадете отпадъчното оборудване в предназначен за събирането му пункт за рециклиране на неизползваемо електрическо и електронно борудване. За допълнителна информация се свържете с фирмата по чистота, чиито услуги използвате.
Czech recycling notice
Likvidace zařízení v domácnostech v Evropské unii
Tento symbol znamená, že nesmíte tento produkt likvidovat spolu s jiným domovním odpadem. Místo toho byste měli chránit lidské zdraví a životní prostředí tím, že jej předáte na k tomu určené sběrné pracoviště, kde se zabývají recyklací elektrického a elektronického vybavení. Pro více informací kontaktujte společnost zabývající se sběrem a svozem domovního odpadu.
Danish recycling notice
Bortskaffelse af brugt udstyr hos brugere i private hjem i EU
Dette symbol betyder, at produktet ikke må bortskaffes sammen med andet husholdningsaffald. Du skal i stedet den menneskelige sundhed og miljøet ved at afl evere dit brugte udstyr på et dertil beregnet indsamlingssted for af brugt, elektrisk og elektronisk udstyr. Kontakt nærmeste renovationsafdeling for yderligere oplysninger.
Dutch recycling notice
Inzameling van afgedankte apparatuur van particuliere huishoudens in de Europese Unie
Dit symbool betekent dat het product niet mag worden gedeponeerd bij het overige huishoudelijke afval.
Bescherm de gezondheid en het milieu door afgedankte apparatuur in te leveren bij een hiervoor bestemd inzamelpunt voor recycling van afgedankte elektrische en elektronische apparatuur. Neem voor meer informatie contact op met uw gemeentereinigingsdienst.
Recycling notices 187
Estonian recycling notice
Äravisatavate seadmete likvideerimine Euroopa Liidu eramajapidamistes
See märk näitab, et seadet ei tohi visata olmeprügi hulka. Inimeste tervise ja keskkonna säästmise nimel tuleb äravisatav toode tuua elektriliste ja elektrooniliste seadmete käitlemisega egelevasse kogumispunkti.
Küsimuste korral pöörduge kohaliku prügikäitlusettevõtte poole.
Finnish recycling notice
Kotitalousjätteiden hävittäminen Euroopan unionin alueella
Tämä symboli merkitsee, että laitetta ei saa hävittää muiden kotitalousjätteiden mukana. Sen sijaan sinun on suojattava ihmisten terveyttä ja ympäristöä toimittamalla käytöstä poistettu laite sähkö- tai elektroniikkajätteen kierrätyspisteeseen. Lisätietoja saat jätehuoltoyhtiöltä.
French recycling notice
Mise au rebut d'équipement par les utilisateurs privés dans l'Union Européenne
Ce symbole indique que vous ne devez pas jeter votre produit avec les ordures ménagères. Il est de votre responsabilité de protéger la santé et l'environnement et de vous débarrasser de votre équipement en le remettant à une déchetterie effectuant le recyclage des équipements électriques et électroniques.
Pour de plus amples informations, prenez contact avec votre service d'élimination des ordures ménagères.
German recycling notice
Entsorgung von Altgeräten von Benutzern in privaten Haushalten in der EU
Dieses Symbol besagt, dass dieses Produkt nicht mit dem Haushaltsmüll entsorgt werden darf. Zum
Schutze der Gesundheit und der Umwelt sollten Sie stattdessen Ihre Altgeräte zur Entsorgung einer dafür vorgesehenen Recyclingstelle für elektrische und elektronische Geräte übergeben. Weitere Informationen erhalten Sie von Ihrem Entsorgungsunternehmen für Hausmüll.
188 Regulatory compliance notices
Greek recycling notice
Απόρριψη άχρηοτου εξοπλισμού από ιδιώτες χρήστες στην Ευρωπαϊκή Ένωση
Αυτό το σύμβολο σημαίνει ότι δεν πρέπει να απορρίψετε το προϊόν με τα λοιπά οικιακά απορρίμματα.
Αντίθετα, πρέπει να προστατέψετε την ανθρώπινη υγεία και το περιβάλλον παραδίδοντας τον άχρηστο
εξοπλισμό σας σε εξουσιοδοτημένο σημείο συλλογής για την ανακύκλωση άχρηστου ηλεκτρικού και
ηλεκτρονικού εξοπλισμού. Για περισσότερες πληροφορίες, επικοινωνήστε με την υπηρεσία απόρριψης
απορριμμάτων της περιοχής σας.
Hungarian recycling notice
A hulladék anyagok megsemmisítése az Európai Unió háztartásaiban
Ez a szimbólum azt jelzi, hogy a készüléket nem szabad a háztartási hulladékkal együtt kidobni. Ehelyett a leselejtezett berendezéseknek az elektromos vagy elektronikus hulladék átvételére kijelölt helyen történő beszolgáltatásával megóvja az emberi egészséget és a környezetet.További információt a helyi köztisztasági vállalattól kaphat.
Italian recycling notice
Smaltimento di apparecchiature usate da parte di utenti privati nell'Unione Europea
Questo simbolo avvisa di non smaltire il prodotto con i normali rifi uti domestici. Rispettare la salute umana e l'ambiente conferendo l'apparecchiatura dismessa a un centro di raccolta designato per il riciclo di apparecchiature elettroniche ed elettriche. Per ulteriori informazioni, rivolgersi al servizio per lo smaltimento dei rifi uti domestici.
Latvian recycling notice
Europos Sąjungos namų ūkio vartotojų įrangos atliekų šalinimas
Šis simbolis nurodo, kad gaminio negalima išmesti kartu su kitomis buitinėmis atliekomis. Kad apsaugotumėte žmonių sveikatą ir aplinką, pasenusią nenaudojamą įrangą turite nuvežti į elektrinių ir elektroninių atliekų surinkimo punktą. Daugiau informacijos teiraukitės buitinių atliekų surinkimo tarnybos.
Recycling notices 189
Lithuanian recycling notice
Nolietotu iekārtu iznīcināšanas noteikumi lietotājiem Eiropas Savienības privātajās mājsaimniecībās
Šis simbols norāda, ka ierīci nedrīkst utilizēt kopā ar citiem mājsaimniecības atkritumiem. Jums jārūpējas par cilvēku veselības un vides aizsardzību, nododot lietoto aprīkojumu otrreizējai pārstrādei īpašā lietotu elektrisko un elektronisko ierīču savākšanas punktā. Lai iegūtu plašāku informāciju, lūdzu, sazinieties ar savu mājsaimniecības atkritumu likvidēšanas dienestu.
Polish recycling notice
Utylizacja zużytego sprzętu przez użytkowników w prywatnych gospodarstwach domowych w krajach Unii Europejskiej
Ten symbol oznacza, że nie wolno wyrzucać produktu wraz z innymi domowymi odpadkami.
Obowiązkiem użytkownika jest ochrona zdrowa ludzkiego i środowiska przez przekazanie zużytego sprzętu do wyznaczonego punktu zajmującego się recyklingiem odpadów powstałych ze sprzętu elektrycznego i elektronicznego. Więcej informacji można uzyskać od lokalnej firmy zajmującej wywozem nieczystości.
Portuguese recycling notice
Descarte de equipamentos usados por utilizadores domésticos na União Europeia
Este símbolo indica que não deve descartar o seu produto juntamente com os outros lixos domiciliares.
Ao invés disso, deve proteger a saúde humana e o meio ambiente levando o seu equipamento para descarte em um ponto de recolha destinado à reciclagem de resíduos de equipamentos eléctricos e electrónicos. Para obter mais informações, contacte o seu serviço de tratamento de resíduos domésticos.
Romanian recycling notice
Casarea echipamentului uzat de către utilizatorii casnici din Uniunea Europeană
Acest simbol înseamnă să nu se arunce produsul cu alte deşeuri menajere. În schimb, trebuie să protejaţi sănătatea umană şi mediul predând echipamentul uzat la un punct de colectare desemnat pentru reciclarea echipamentelor electrice şi electronice uzate. Pentru informaţii suplimentare, vă rugăm să contactaţi serviciul de eliminare a deşeurilor menajere local.
190 Regulatory compliance notices
Slovak recycling notice
Likvidácia vyradených zariadení používateľmi v domácnostiach v Európskej únii
Tento symbol znamená, že tento produkt sa nemá likvidovať s ostatným domovým odpadom. Namiesto toho by ste mali chrániť ľudské zdravie a životné prostredie odovzdaním odpadového zariadenia na zbernom mieste, ktoré je určené na recykláciu odpadových elektrických a elektronických zariadení.
Ďalšie informácie získate od spoločnosti zaoberajúcej sa likvidáciou domového odpadu.
Spanish recycling notice
Eliminación de los equipos que ya no se utilizan en entornos domésticos de la Unión Europea
Este símbolo indica que este producto no debe eliminarse con los residuos domésticos. En lugar de ello, debe evitar causar daños a la salud de las personas y al medio ambiente llevando los equipos que no utilice a un punto de recogida designado para el reciclaje de equipos eléctricos y electrónicos que ya no se utilizan. Para obtener más información, póngase en contacto con el servicio de recogida de residuos domésticos.
Swedish recycling notice
Hantering av elektroniskt avfall för hemanvändare inom EU
Den här symbolen innebär att du inte ska kasta din produkt i hushållsavfallet. Värna i stället om natur och miljö genom att lämna in uttjänt utrustning på anvisad insamlingsplats. Allt elektriskt och elektroniskt avfall går sedan vidare till återvinning. Kontakta ditt återvinningsföretag för mer information.
Turkish recycling notice
Türkiye Cumhuriyeti: EEE Yönetmeliğine Uygundur
Recycling notices 191
Battery replacement notices
Dutch battery notice
French battery notice
192 Regulatory compliance notices
German battery notice
Italian battery notice
Battery replacement notices 193
Japanese battery notice
Spanish battery notice
194 Regulatory compliance notices
Glossary
CAS
CMP
CSP
CSR
DAG
ECW
EDT
EMU
ESD
FRU
OWA
SAID
SCOM
SIM
SMH
Witness Server
Client Access Server. The client access server role is one of five distinct server roles for Microsoft
Exchange Server 2010. It supports the Outlook Web Access and Microsoft Exchange ActiveSync client applications, and the Post Office Protocol version 3 (POP3) and Internet Message Access
Protocol version 4rev1 (IMAP4) protocols. The client access server role also provides access to free/busy data by using the Availability service and enables certain clients to download automatic configuration settings from the Autodiscover service. For more information, see the Microsoft
Technet article, Understanding Client Access at http://technet.microsoft.com/en-us/library/ bb124915.aspx
.
Common Management Platform. A software tool that manages the firmware, storage and diagnostics for the HP E5000.
Common Storage Platform. A term to describe the system hardware.
Customer self repair.
Database Availability Group. A database availability group is the base component of the high availability and site resilience framework built into Microsoft Exchange Server 2010. A DAG is a group of up to 16 Mailbox servers that hosts a set of databases and provides automatic database-level recovery from failures that affect individual servers or databases. For more information, see the Microsoft Technet article, Understanding Database Availability Groups at http://technet.microsoft.com/en-us/library/dd979799.aspx
.
E5000 Configuration Wizard
Exchange Deployment Tool
Enclosure Management Unit
Electrostatic discharge. The emission of a potentially harmful static electric voltage as a result of improper grounding.
Field replaceable unit. An assembly component that is designed to be replaced on site, without the system having to be returned to the manufacturer for repair.
Outlook Web App. The Web browser-based version of Microsoft Outlook. Enables users on the road to access their email, contacts, and calendar from any web browser without having to run a preconfigured Outlook client program.
Service Agreement Identifier.
Systems Center Operations Manager
Systems Insight Manager
System Management Homepage
A server used for high availability in conjunction with database availability groups. For more information, see the Microsoft Technet article, Create a Database Availability Group at http:// technet.microsoft.com/en-us/library/dd351172.aspx
.
195
Index
Symbols
1210m cache module removing and replacing,
2-port 1GB Ethernet I/O module
LED behavior,
2-port 1GB Mezz A and B I/O module
LED behavior,
B
battery replacement notices,
best practices for removing and replacing hardware components,
Best Practices Analyzer running,
C
cache module controller
LED behavior,
Canadian notice,
capacitor pack removing and replacing,
chassis switches
LED behavior,
component replacement videos accessing,
Configuration Wizard see E5000 Messaging System contacting HP,
controller and controller server blade components removing and replacing,
customer self repair see removing and replacing hardware components
D
Disposal of waste equipment, European Union,
documentation providing feedback on,
drive drawer removing and replacing,
drive drawer hard drive removing and replacing,
drive drawer rails (side or bottom) removing and replacing,
drive fan
LED behavior,
removing and replacing,
E
E5000 Messaging System accessing,
adding expansion disk enclosures,
Configuration Wizard,
configuring system software,
exploded view,
features,
front view,
hardware models,
installing hardware,
installing software updates,
kit contents,
locating product number,
locating SAID number,
locating serial number,
monitoring tools,
powering off,
powering on,
,
preparing to install,
rear view,
recovery,
restoring factory image,
software components,
troubleshooting tools,
unpacking,
update file,
updating system software and firmware,
upgradng system software and firmware,
E5300 hardware model adding hard drives,
connection options,
network configuration,
E5500/E5700 hardware model
EMU connection options,
network configuration,
electrostatic discharge avoiding,
EMU
CLI reference,
configuring management processor,
connection options for E5300 hardware model,
connection options for E5500/E5700 hardware model,
LED behavior,
logging in,
network connections,
network port locations,
removing and replacing,
using CLI SHOW commands for troubleshooting,
Enclosure Manager Unit (EMU) see EMU enclosure rails removing and replacing,
Ethernet I/O module removing and replacing,
European Union notice,
Event Notifier configuring for proemail (SMTP) event notification,
Exchange Deployment Tool
Microsoft Exchange Server 2010,
expansion disk enclosure adding to installed E5000 Messaging System,
F
factory image
196 Index
restoring the system,
failure of component verifying,
Federal Communications Commission notice,
firmware checking for version upgrade,
updating component,
upgrading,
front bezel (full) removing and replacing,
front bezel (standard) removing and replacing,
front LED display board
LED behavior,
front LED display board (full) removing and replacing,
front LED display board in the rack (standard) removing and replacing,
H
hard drive adding to E5300 hardware model,
LED behavior,
wait time after replacement,
hardware upgrading,
hardware components removing and replacing,
upgrading,
HP E5000 Configuration Wizard
Configuration Wizard,
I
I/O module
LED behavior,
iLO configuring management processor,
Insight Remote Support,
implementing,
installing E5000 Messaging System hardware,
J
Japanese notices,
Jetstress see Microsoft Exchange Jetstress and Load
Generator
K
kit contents
E5000 Messaging System,
Korean notices,
L
laser compliance notices,
LED
2-port 1 GB Ethernet I/O module,
2-port 1 GB Ethernet, Mezz A and B I/O module,
cache module controller,
chassis switches and indicator,
EMU,
fan,
front LED display board,
hard drive,
I/O module,
power supply,
server blade,
Load Generator see Microsoft Exchange Jetstress and Load
Generator
M
maintenance
SAID,
warranty entitlement labels,
management processor configuring EMU,
configuring iLO,
Mezzanine NIC removing and replacing,
Microsoft Exchange Jetstress and Load Generator,
Microsoft Exchange Server 2010 deploying,
Exchange Deployment Tool,
network requirements,
Microsoft Systems Center Operations Manager (SCOM) using for monitoring and troubleshooting,
midplane board removing and replacing,
monitoring tools,
component LEDs,
EMU CLI SHOW commands,
Event Notifer,
Microsoft Systems Center Operations Manager (SCOM),
notification alerts,
System Management Homepage,
System Manager,
N
network configuration
E5300 hardware model,
E5500/E5700 hardware model,
network connections
EMU,
network requirements
Microsoft Exchange Server 2010,
notification alerts,
sample error messages,
O
OpsMgr see Microsoft Systems Center Operations
Manager (SCOM)
P
PCIe module removing and replacing,
power off procedure,
power on procedure,
power supply
LED behavior,
197
removing and replacing,
power UID button assembly removing and replacing,
product number locating ,
R
rack rails removing and replacing,
Rack stability
HP,
recovering the system,
system recovery DVD,
USB flash drive,
recycling notices,
regulatory compliance
Canadian notice,
European Union notice,
identification numbers,
Japanese notices,
Korean notices,
laser,
recycling notices,
Taiwanese notices,
Vietnamese notice,
remote support see Insight Remote Support removing and replacing hardware components,
1210m cache module,
best practices,
capacitor pack,
controller and controller server blade components,
drive drawer,
drive drawer hard drive,
drive drawer rails (side or bottom),
drive fan,
EMU,
enclosure rails,
Ethernet I/O module,
front bezel (full),
front bezel (standard),
front LED display board (full),
front LED display board in the rack (standard),
Mezzanine NIC,
midplane board,
PCIe module,
power supply,
power UID button assembly,
rack rails,
SAS cable,
SAS I/O module,
server airflow baffle,
server blade,
server blade backplane,
server blade hard drive,
server interposter board,
replaceable part identifying,
restoring the system factory image,
in non-production environments,
in production environments,
managing disks after restoration,
S
SAID locating number,
obtaining,
SAS cable removing and replacing,
SAS I/O module removing and replacing,
serial number locating,
server airflow baffle removing and replacing,
server blade
LED behavior,
removing and replacing,
server blade backplane removing and replacing,
server blade hard drive removing and replacing,
server interposter board removing and replacing,
Service Agreement ID see SAID spare part hot, warm, cold swap,
identifying,
verifying proper operation after replacement,
Subscriber's Choice for Business,
Support websites contacting HP,
HP,
Microsoft,
Subscribers's Choice for Business,
Subscription service,
system fan
LED behavior,
System Management Homepage description,
Help menu,
main page,
starting,
Storage System page,
System Manager description,
Exchange Status tab,
Firmware tab,
Hardware Status tab,
Reports tab,
System Summary tab,
system recovery
DVD,
USB flash drive,
system software updating,
upgrading,
198 Index
T
Taiwanese notices,
technical support see Support websites troubleshooting tools,
component LEDs,
EMU CLI SHOW commands,
Event Notifer,
Insight Remote Support,
Microsoft Systems Center Operations Manager (SCOM),
notification alerts,
System Management Homepage,
System Manager,
U
unpacking the E5000 Messaging System,
updating system software and firmware,
updating messaging system software
,
upgrading system software and firmware,
upgrading hardware components,
USB flash drive system recovery,
V
Vietnamese notice,
W
warranty entitlement labels locations,
199
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