HP Integrity rx2620 Server User Service Guide HP Part Number: AD117-9003A-ed3 Published: February 2010 Edition: 3
Legal Notices Copyright Notices. © Copyright 2006-2010 Hewlett-Packard Development Company, L.P. 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. Printed in U.S.A.
Table of Contents About This Document.......................................................................................................15 Intended Audience................................................................................................................................15 New and Changed Information in This Edition...................................................................................15 Publishing History..........................................................................
Hot-Plug Disk Drive Indicators.......................................................................................................30 Power Supply LEDs...................................................................................................................31 Optional Removable Media Drive.............................................................................................31 Rear Panel.........................................................................................................
Installing DIMMs.......................................................................................................................59 Removing and Replacing a Processor.............................................................................................61 Removing a Processor................................................................................................................63 Replacing a Processor........................................................................................
System Event Logs....................................................................................................................101 Systems Without an iLO Management Processor....................................................................103 Diagnostic LEDs.......................................................................................................................103 Warnings..................................................................................................................
Booting HP OpenVMS...................................................................................................................132 Booting HP OpenVMS (EFI Boot Manager).............................................................................132 Booting HP OpenVMS (EFI Shell)............................................................................................132 Shutting Down HP OpenVMS.......................................................................................................
Parameters................................................................................................................................153 lanaddress......................................................................................................................................159 Syntax:......................................................................................................................................159 Parameters...................................................................
List of Figures 1-1 1-2 1-3 1-4 1-5 2-1 2-2 2-3 2-4 2-5 2-6 2-7 2-8 2-9 4-1 4-2 4-3 4-4 4-5 4-6 4-7 4-8 4-9 4-10 4-11 4-12 4-13 4-14 4-15 4-16 4-17 4-18 4-19 4-20 4-21 4-22 4-23 4-24 4-25 4-26 4-27 4-28 4-29 4-30 4-31 4-32 4-33 4-34 4-35 4-36 4-37 4-38 HP Integrity rx2620 Server (front view)........................................................................................19 HP Integrity rx2620 Server (front view with bezel removed).......................................................
4-39 4-40 4-41 4-42 4-43 4-44 4-45 4-46 4-47 4-48 4-49 4-50 4-51 4-52 4-53 4-54 4-55 4-56 4-57 4-58 4-59 4-60 4-61 4-62 4-63 4-64 4-65 4-66 4-67 5-1 5-2 5-3 A-1 A-2 C-1 10 Removing the PCI Cage................................................................................................................71 Removing the PCI Cage Cover......................................................................................................72 Installing a PCI Slot Cover ..........................................
List of Tables 1 2 1-1 1-2 1-3 2-1 2-2 2-3 2-4 2-5 2-6 2-7 2-8 2-9 3-1 4-1 4-2 5-1 5-2 5-3 5-4 5-5 5-6 5-7 5-8 5-9 5-10 5-11 5-12 5-13 5-14 5-15 5-16 5-17 5-18 5-19 5-20 5-21 5-22 5-23 5-24 5-25 5-26 5-27 5-28 5-29 A-1 C-1 C-2 C-3 C-4 C-5 Publishing History Details............................................................................................................15 HP-UX 11i Releases.....................................................................................................................
C-6 12 Console Input Devices.................................................................................................................
List of Examples C-1 C-2 C-3 C-4 C-5 C-6 C-7 C-8 C-9 C-10 C-11 C-12 C-13 C-14 C-15 C-16 C-17 C-18 C-19 C-20 C-21 C-22 C-23 help Command..........................................................................................................................145 help bch Command.....................................................................................................................145 help configuration Command.......................................................................................
About This Document This document provides information and instructions on servicing and troubleshooting the HP Integrity rx2620 server. The document publication date and part number indicate the document’s current edition. The date changes when a new edition is published. The document part number changes when extensive changes are made. Document updates may be issued between editions to correct errors or document product changes.
Document Organization This guide is divided into the following chapters. Chapter 1 Introduction Use this chapter to learn about the features and specifications of the HP Integrity rx2620 server. Chapter 2 Controls, Ports, and LEDs Use this chapter to learn about the locations of the external controls, ports, and LEDs on the server. Chapter 3 Powering Off and Powering On the Server Use this chapter to learn about powering the server off and on.
| Separates items in a list of choices. WARNING A warning calls attention to important information that if not understood or followed will result in personal injury or nonrecoverable system problems. CAUTION A caution calls attention to important information that if not understood or followed will result in data loss, data corruption, or damage to hardware or software.
HP Contact Information For the name of the nearest HP authorized reseller: • • In the United States, see the HP US service locator webpage (http://welcome.hp.com/country/ us/en/wwcontact.html.) In other locations, see the Contact HP worldwide (in English) webpage: http://welcome.hp.com/country/us/en/wwcontact.html. For HP technical support: • In the United States, for contact options see the Contact HP United States webpage: (http:// welcome.hp.com/country/us/en/contact_us.
1 Introduction The HP Integrity rx2620 server is a 2-socket server based on the Itanium® processor architecture. The server supports the following operating systems: Microsoft Windows®, HP-UX, Linux, and OpenVMS®. The server is available in either rack-mount or pedestal configurations. The server accommodates up to 12 DIMMs and internal peripherals including disks and a DVD. Its high availability features include hot-swap fans, power supplies, and hot-plug disk drives.
Table 1-1 Server Dimensions Dimensions Value Rack units 2U Height 8.6 cm (3.4 in.) Width 48.3 cm (19.0 in.) Depth 67.9 cm (26.8 in.) Weight • Minimum • Maximum 17.5 kg (38.6 lb.) 22.2 kg (49.0 lb.) Server Components The server consists of the following components: Processor • • 1.4 GHz/12 MB L3 cache dual-core processor 1.6 GHz/18 MB L3 cache dual-core processor Memory • • • • • • • 12 memory DIMM slots 256 MB, 512 MB, 1 GB, 2 GB, and 4 GB standard 184 pins 2.
Power Supply Unit • • 600 W output power Front-end block (the actual power supply case) that converts the line voltage into a high DC voltage.
Figure 1-4 System Block Diagram The following describes the main components of the system board: • • • • • • • • • • • • • • “Processor Sockets” (page 22) “Processor Bus” (page 23) “ZX1 I/O and Memory Controller” (page 23) “Memory” (page 23) “I/O Bus Interface” (page 25) “Processor Dependent Hardware Controller” (page 25) “Dual Serial Controller” (page 26) “Field Programmable Gate Array” (page 26) “Baseboard Management Controller” (page 26) “SCSI Controller” (page 27) “IDE Interface” (page 27) “1 Gb Syste
The front side bus (FSB) is the IA64 processor bus, based on bus protocol from Intel. Unlike previous PA-RISC microprocessors that utilized HP proprietary processor buses, this processor is designed to utilize the FSB. This allows processor field replaceable units (FRUs) to be dropped in, provided that electrical and mechanical compatibility and support circuitry exist. For the purposes of this document, a FRU consists of a single processor with power pod, and the heat sink assembly.
Figure 1-5 Memory Block Diagram Memory Architecture The I/O ASIC memory interface supports two DDR cells. Each cell is 144 data bits wide. The memory subsystem physical design uses a comb-filter termination scheme for the data and the address and control buses. This topology is similar to other DDR designs. Clocks are distributed directly from the I/O ASIC. Each clock pair drives two DIMMs. Memory data is protected by the ECC. Eight ECC bits per DIMM protect 64 bits of data.
Table 1-2 Memory Array Capacities (continued) Mininum/Maximum Memory Size Single DIMM Size DDR SDRAM Count, Type, and Technology 8 GB / 24 GB 2048 MB DIMM 36 x 128 MB x 4 DDR1 SDRAMs (512 MB) 32 GB / 32 GB 4096 MB DIMM 36 x 256 MB x 4 DDR1 SDRAMs (1024 MB) Chip Spare Functionality Chip spare enables an entire DDR SDRAM chip on a DIMM to be bypassed in the event that a multi-bit error is detected on the DDR SDRAM.
— — — — • Two general purpose 32-bit registers Semaphore registers Monarch selection registers Test and Reset register Reset and INIT generation Dual Serial Controller The dual serial controller is a dual universal asynchronous receiver and transmitter (DUART). This chip provides enhanced UART functions with 16-byte first-in, first-out (FIFO), a modem control interface. Registers on this chip provide onboard error indications and operation status.
• • 160-pin low profile flat pack (LQFP) package Firmware is provided for the following interfaces: — Intelligent platform management interface (IPMI) — Intelligent platform management bus (IPMB) SCSI Controller The SCSI controller is an LSI Logic 53C1030 chip. This chip is fully compliant with the SCSI Peripheral Interface-3 Specification (SPI-3). It has two independent SCSI channels supporting devices at speeds up to 320 Mb/s each.
2 Controls, Ports, and LEDs This chapter describes the controls, ports, and LEDs on the front and rear panels of the server. Front Panel The control panel at the front of the server provides the controls and indicators commonly used for operation. For the location and description of the front panel controls and LEDs, see Figure 2-1, Figure 2-2, Table 2-1, and Table 2-2.
Table 2-1 Control Panel LEDs and Switches (continued) Name Function Diagnostic LEDs The four diagnostic LEDs operate in conjunction with the system LED to provide diagnostic 1–4 information about the system.1 Locator Button and LED 1 The Locator button and LED are used to help locate this server within a rack of servers. When the button is engaged, the blue LED illuminates and an additional blue LED on the rear panel of the server illuminates. This function can be remotely activated.
Table 2-3 Hard Drive LED Definitions LED Activity Description Status LED Not used Not used in the server. Activity LED Flashing green Indicates disk drive activity. This LED is directly controlled by the drive and illuminates when a drive is accessed. Power Supply LEDs The server is typically delivered with a single power supply (PS 1). An additional power supply (PS 2) can be installed for redundant (n+1) power capability.
Rear Panel The server rear panel includes communication ports, I/O ports, AC power connectors, and the Locator LED/button. Additional LEDs located on the rear panel of the server signal the operational status of the LAN connector of the optional iLO MP. For the location and description of the ports and connectors, see Figure 2-6 and Table 2-6. Figure 2-6 Rear View Table 2-6 Rear Panel Connectors and Switches Connector/Switch Function AC Power Primary power connection (AC1) for the server.
Table 2-6 Rear Panel Connectors and Switches (continued) Connector/Switch Function Console/Remote/UPS (optional) 25-pin female serial data bus connector for the optional iLO MP. This connector connects to a three-port breakout cable (HP P/N A6144-63001) with individual connectors for Console, Remote and UPS. The Console connector becomes the console connection when iLO is installed. 10/100 iLO MP LAN (optional) 10/100 Mb LAN connector for the optional iLO MP.
Figure 2-8 10/100/1000 base-T Ethernet Gb LAN B Connector LEDs Table 2-8 10/100/1000 base-T Ethernet Gb LAN B Connector LEDs Location Color Description Speed (upper left) Amber 1000 MHz with Ethernet protocol and twisted-pair wiring is enabled Green 100 MHz with Ethernet protocol and twisted-pair wiring is enabled Off No link 10 MHz with Ethernet protocol and twisted-pair wiring is enabled Link (upper right) Flashing green LAN activity Off No link Management Processor LAN LEDs The LAN port o
Table 2-9 iLO MP LAN LEDs (continued) LED Color Description Standby Power Green Standby power on Standby Power Off: standby power off Rear Panel 35
3 Powering Off and Powering On the Server This chapter provides information and procedures for powering off and powering on the server. Power States The server has three power states: • Standby power • Full power • Off Plug the power cord into the appropriate receptacle on the rear of the chassis to achieve the standby power state; the front panel Power button is not turned on.
1. 2. Gracefully shut down the operating system. See Appendix B (page 125), or your operating system documentation. Press the Power button to power off the server. IMPORTANT: The main DC voltage is now removed from the server; however, AC voltage for standby power is still present in the server. 3. Unplug all power cables from the receptacles on the rear panel of the server.
4 Removing and Replacing Components This chapter describes the procedure for removing and replacing the different components in the server. ESD Information Follow the procedures listed below to ensure safe handling of components and to prevent harm to both you and the server: • • • Use an anti-static wrist strap and a grounding mat, such as those included in the Electrically Conductive Field Service Grounding Kit (HP 9300-1155). Handle accessory boards and components by the edges only.
Figure 4-1 Internal Physical Layout Table 4-1 Component Locations 1 Power receptacles (PWR 1 right, PWR 2 left) 8 Hot-pluggable hard drives (up to 3) 2 Memory airflow guide 9 Hard disk lock 3 Processor airflow guide 10 System fans (fan 2 - memory, fan 3 - I/O cage) 4 System fans (fan 1A - right, fan 1B - left) 11 Intrusion switch 5 Slimline optical drive 12 Memory sockets 6 Power supplies (PSU1 center; PSU2 to the right) 13 PCI cage 7 Status panel board 14 Management controller (Optional) Fig
Figure 4-2 System Board Connectors and Slots Table 4-2 Connector Locations 1 External SCSI connector 9 PDH connectors 17 PCI backplane connector 2 SCSI connectors A and B 10 Power module power connector 18 Optical drive connector 3 CPU 0 slot 11 ZX1 memory and I/O controller (under heat sink) 19 iLO hardware connector 4 CPU 1 slot 12 Memory sockets (4) 20 HP ZX1 I/O adapter 5 Turbo fan power connectors (2) 13 Status panel connector 21 Serial ports (2) 6 Fan Connector 14 Power module auxilia
Removing and Replacing System Top Metal Cover and Bezels To upgrade, remove, or replace most server components, you must first remove the top metal cover from the server chassis. WARNING! Do not remove the server covers without powering off the server and unplugging the power cord from the outlet or power protection device unless you are only replacing a hot-swappable fan. When the server is running, you must replace the top metal cover within 30 minutes to prevent components from overheating.
Figure 4-3 Release the Rack Latches 3. Slide the server out of the rack until the guide-rail release clips are visible. Inserting the Server into the Rack To insert the server into the rack, perform the following step: 1. 2. Press the rail clips on either side of the server inward and push the server into the rack until it stops. Verify that the rack latches are closed. Removing and Replacing the Top Metal Cover The following procedures describe how to remove and replace the top metal cover.
Figure 4-4 Removing and Replacing the Top Metal Cover 3. Lift the top metal cover off the server chassis. Replacing the Top Metal Cover CAUTION: Secure any wires or cables in your server so that they are not cut or interfere with the replacement of the top metal cover. 1. Align the front edge of the top metal cover with the alignment mark on the optical drive bay. See Figure 4-5. Figure 4-5 Aligning the Top Metal Cover 2.
Figure 4-6 Closing the Top Metal Cover 3. Slide the server into the rack enclosure and connect the power cables. Removing and Replacing the Front Bezel You must remove the front bezel from the chassis to remove or replace the power supplies or the optical drive. Removing the Front Bezel 1. Press in the retaining clips located on the right-side of the front panel. See Figure 4-7. Figure 4-7 Front Bezel Retaining Clip 2. Rotate the front panel out and lift if away from the server chassis.
2. Swing the bezel and push toward the front of the server until the bezel locks into place. Figure 4-8 Replacing the Front Bezel Removing and Replacing Hot-Swap and Hot-Plug Devices The server has hard drives that are hot-pluggable and power supplies and fans that are hot-swappable.
3. Remove fan 1A, 1B, 2, or 3 from the server by grasping the appropriate fan and lifting it out of the fan socket. See Figure 4-9, Figure 4-10, and Figure 4-11.
Replacing a Server Fan 1. 2. Remove the top metal cover (if necessary). See “Removing the Top Metal Cover” (page 43). Grasp the replacement fan module and insert it into its fan socket. CAUTION: If you are hot swapping a fan, replace the top metal cover within 30 minutes to prevent damage to the server components. If the top metal cover is not replaced within 30 minutes, the server automatically shuts down. If the server shuts down, replace the top metal cover before you restart the server. 3. 4. 5. 6.
2. Press the power supply retaining clip to unlatch the power supply release lever. See Figure 4-12 and Figure 4-13. Figure 4-12 Releasing the Power Supply Retaining Clip 3. Press the power supply release lever and pull the power supply out of the server. Figure 4-13 Removing the Power Supply Replacing the Power Supply To replace the power supply: 1. 2. 3. Remove the front bezel from the server and remove the defective power supply if you have not already done so.
Figure 4-14 Replacing the Power Supply 4. 5. 6. 7. Verify that both power supply LEDs, visible through the front of the supply grid, are illuminated. Verify the power supply replacement by using the utilities identified in Appendix C (page 141). To verify power supply operation, use the iLO MP PS command. Replace the front bezel. Removing and Replacing an Internal Hard Drive This section provides information about removing and replacing internal hard drives.
2. If you have not locked your hard drives, proceed to step Step 3. If you have locked your hard drives, you must unlock them before removing or replacing a drive: a. Remove the top metal cover. See “Removing the Top Metal Cover” (page 43). CAUTION: If you try to remove a hard drive without unlocking it from the server, you will damage the hard drive bay. b. Press down on the unlock lever to unlock the drive. See Figure 4-15.
Figure 4-16 Releasing the Disk Drive 4. Pull outward on the release lever to remove the drive from the server. See Figure 4-17. Figure 4-17 Removing the Disk Drive Replacing a Hard Drive To install or replace a hard drive: 1. 2. 3. 52 Insert the hard drive into the drive bay from which you removed the drive and push inward on the release lever until the drive no long slides forward. You must leave the release lever in the open position when you push the drive into the server.
4. 5. 6. Lock the hard drives in place. Replace the server top metal cover if it was removed to unlock drives. Validate the hard drive installation by: a. If the server does not have MP hardware installed, at the EFI shell prompt, enter shell> info io to interrogate the server for proper identification of the drive. b. Use the Offline Diagnostic Environment (ODE) MAPPER to map the device and path for the drive. c. Use the Offline Diagnostic Environment (ODE) PERFVER to perform self test on the drive.
2. 3. Remove the top metal cover. See “Removing the Top Metal Cover” (page 43). Grasp the memory airflow guide and lift it out of the server. See Figure 4-19. Figure 4-19 Removing the Memory Airflow Guide Replacing the Memory Airflow Guide 1. 2. 3. Align the guides on both sides of the airflow guide with the slots on the chassis. Insert the memory airflow guide in the slots. Replace the top metal cover and reconnect all of the power cables.
4. Remove the main portion of the airflow guide: a. Hold the guide using the opening on top of the guide. See Figure 4-20. b. At the same time, grasp the back end of the airflow guide and lift the guide out of the server. Figure 4-20 Removing the Processor Airflow Guide 5. 6. Disconnect the power cable connected to the guide from the system board. Remove the front portion of the airflow guide by doing the following: a. Remove server fans 1A and 1B. b. Rotate the clip clockwise to release the latch.
7. Lift the front portion of the airflow guide out of the server. Figure 4-22 Removing the Front Airflow Guide Replacing the Processor Airflow Guide 56 1. Replace the front portion of the airflow guide: a. Align the release latch of the front half of the airflow guide over the release latch post and snap it in place. b. Connect power connector on the front portion of the guide to the connector on the system board. c. Replace server fans 1A and 1B. 2. Replace the main portion of the airflow guide: a.
Removing and Replacing Memory DIMMs Your server has 12 memory sockets for installing DDR SDRAM memory DIMMs. The supported DIMM sizes are 256 MB, 512 MB, 1 GB, 2 GB, or 4 GB. The server supports combinations from 1 GB up to 32 GB. See Figure 4-23 for the DIMM slot locations on the system board. WARNING! Ensure that the server is powered off, and all power sources have been disconnected from the server before removing or replacing server memory.
Figure 4-23 DIMM Slot Identification Removing DIMMs To remove DIMMs: 1. 2. 3. 4. 58 Power off the server and disconnect all cables. See “Powering Off the Server” (page 37). Remove the top metal cover. See “Removing the Top Metal Cover” (page 43). Identify the DIMM to be removed and push the appropriate extraction levers found on either side of the DIMM slot outward to the open position. The DIMM ejects from the slot. Remove the DIMM from the socket.
Installing DIMMs You must load DIMMs in the correct order: • You must install DIMMs in matched quads. Two matched memory card pairs of equal size (that is, four identical DIMMs) must be installed, one pair per memory cell as follows: • 0A, 0B and 1A, 1B must be matched pairs of equal size • 2A, 2B and 3A, 3B must be matched pairs of equal size • 4A, 4B and 5A, 5B must be matched pairs of equal size NOTE: DIMMs match if they have the same HP part number.
Figure 4-24 Inserting DIMM into Slot 60 Removing and Replacing Components
Removing and Replacing a Processor This section provides information about removing and replacing a processor. The processors are located on the system board, which is accessible by removing the top metal cover. WARNING! Ensure that the server is powered off, and all power sources have been disconnected from the server before removing or replacing a processor. Voltages are present at various locations within the server when an AC power source is connected.
Figure 4-25 Processor Locations on Server Figure 4-26 Processor Location on System Board 62 Removing and Replacing Components
Removing a Processor To remove a processor module: 1. 2. 3. Power off the server and disconnect all cables. See “Powering Off the Server” (page 37). Remove the top metal cover. See “Removing and Replacing the Top Metal Cover” (page 43). Remove the processor airflow guide. See Figure 4-27. a. Remove the IDE cable and power module cables from the processor airflow guide cable clips. CAUTION: Record the cable routing of these cables to ensure the cables are returned to their correct routes. b. c.
Figure 4-28 Unscrewing the Captive Screws 7. Slide the sequencing retainer plate toward the back of the server to open the hole in the edge of the heat sink for insertion of the special processor tool into the processor module locking mechanism. See Figure 4-29. Figure 4-29 Slide Sequencing Retainer Plate CAUTION: The zero insertion force (ZIF) socket for the processor is locked and unlocked by 1/2 of a full turn of the 2.5 mm hex tool.
Figure 4-30 Unlocking the Processor Module Locking Mechanism 9. Lift the processor up and out of the chassis. Place the processor module into an anti-static container. Replacing a Processor CAUTION: Do not modify the settings of the DIP switches located on the system board. These switches are for factory use. Failure to observe this caution will result in server failure. 1. 2. 3. 4. Power off the server and disconnect all cables. See “Powering Off the Server” (page 37). Remove the top metal cover.
Figure 4-31 Unlocked ZIF Socket Lock CAUTION: The zero insertion force (ZIF) socket for the processor is locked and unlocked by half a turn of the 2.5 mm hex tool. A counterclockwise 180 degree rotation (1/2 turn) unlocks the socket. A clockwise 180 degree rotation locks the socket. Attempting to turn the locking mechanism more that 180 degrees in either direction will severely damage the socket. 5. Use the two alignment pins on the processor to properly align the processor on the system board.
Figure 4-33 CPU Slot Alignment Holes Figure 4-34 Installing the Processor Module CAUTION: Do not press the processor module into the socket. When properly aligned, the processor pins seat into the ZIF socket. No additional pressure is required. 6. Use the special processor tool shipped with the replacement processor module to lock the processor module in place on the system board. To do this, insert the special processor tool through the turbo fan blades into the ZIF socket.
Figure 4-35 Locking the Processor Module in Place 7. Slide the sequencing retainer plate toward the rear of the server. Figure 4-36 Sliding the Sequencing Retainer Plate 8. 68 Install the four processor captive screws, and the two heat sink captive screws in the order shown here.
Figure 4-37 Securing the Captive Screws 9. 10. 11. 12. 13. Connect the processor module turbo fan power cable to the connector on the system board. Connect the power pod cable to the power cable. Use the 8-pin to 6-pin adapter if necessary. Install the processor airflow guide. See “Removing the Processor Airflow Guide” (page 54). Install the top metal cover. See “Replacing the Top Metal Cover” (page 44).
3. Lift up on the battery and push on the back of it with a flat-head screwdriver to remove the battery from its holder. See Figure 4-38 for the battery location on the system board. CAUTION: Only lift the battery high enough to clear the holder. Excessive stress on the battery holder retaining clip can damage the clip. Figure 4-38 Removing the System Battery Replacing the System Battery 1. Lift up on the battery holder retaining clip with a flat-head screwdriver and slide the battery into the holder.
Removing and Replacing PCI Card Cage Accessory cards are installed in a removable PCI cage. This section explains how to access the PCI card cage, and how to remove and install accessory cards. WARNING! Ensure that the server is powered off, and all power sources have been disconnected from the server before removing or replacing a processor module. Voltages are present at various locations within the server when an AC power source is connected.
Figure 4-40 Removing the PCI Cage Cover 5. 6. Unscrew the bulkhead screw that holds the accessory card in place. The PCI cards are now accessible for removal and replacement. Replacing the PCI Card Cage To install the PCI cage into the server: 1. 2. 3. 4. 72 Install the PCI card cover onto the PCI cage. See Figure 4-40. Slide the PCI card cage into the server, and lock the cage into place by closing the release lever. See Figure 4-39. Install the top metal cover.
Removing and Replacing PCI Cards The server can contain up to four PCI cards. PCI cards are located in the PCI cage. CAUTION: There are restrictions on the number of PCI-X cards that can be installed in the server at any given time, depending on the cards being used.
6. Install a PCI slot cover in the opening left by the removal of the PCI card. This maintains the proper airflow within the chassis. See Figure 4-41. Figure 4-41 Installing a PCI Slot Cover Replacing a PCI or Graphics Card 1. 2. 3. 4. 5. 6. Power off the server and disconnect the power cable and all other cables from the back of the server (if necessary). See “Powering Off the Server” (page 37). Remove the top metal cover (if necessary). See “Removing and Replacing the Top Metal Cover” (page 43).
7. 8. 9. 10. Reinstall the PCI cage. See “Replacing the PCI Card Cage” (page 72). Connect any cables that are required by the PCI card. Power on the server. See “Powering On the Server” (page 38). Verify the installation of all PCI cards: • Look at the LEDs of all PCI cards for proper operation. See accessory manuals. • Run PERFVER from the Offline Diagnostics CD to ensure that all PCI cards are identified. • Monitor the SEL to ensure there are no events showing peripheral problems. 11.
Figure 4-44 Replacing the PCI Backplane 3. 4. 5. 6. Replace any accessory and graphics cards. Connect server power, PCI, and LAN cables. Power on the server. See “Powering On the Server” (page 38). Verify the installation of the PCI backplane: • Look at the LEDs of all PCI cards for proper operation. • Run mapper from the Offline Diagnostics CD to ensure that all PCI cards are identified. • Monitor the SEL to ensure there are no events showing peripheral problems.
Figure 4-45 Removing and Replacing Removable Media Drive Replacing a Removable Media Drive To replace the removable DVD drive: 1. 2. 3. 4. 5. 6. If a removable media drive has not previously been installed in the server, the drive slot is covered with a DVD drive blank. Remove the DVD drive blank. Slide the replacement drive into the drive bay until it stops, and the retaining clips on both sides snap into place. Connect the IDE cable to the back of the drive. Replace the top metal cover.
Figure 4-46 Removing the MP Card 4. 5. 6. 7. Unscrew the two external mounting screws that are located on both sides of the 25-pin serial connector as shown in Figure 4-47. Disconnect the MP card connector. Remove the MP card from the server by grasping it by its edges. Install the MP blank (if not reinstalling the MP card) on the chassis. This blank is used to fill the holes left by the 10/100 management LAN, 15-pin VGA and 25-pin serial connectors. See Figure 4-47. Figure 4-47 Replacing the MP Blank 8.
9. Replace the top metal cover and reconnect the power and external cables. Replacing the MP Card 1. 2. 3. 4. 5. 6. 7. 8. 9. Record the network settings from your iLO MP before beginning this task. Power off the server, disconnect all power and external cables, and remove the top metal cover. If you are installing a new MP card, remove the MP blank. Unscrew the mounting screw for the MP blank, located on the external connector side of the server chassis.
4. Lift up on the battery and push on the back of it with a flat-head screwdriver to remove the battery from its holder. See Figure 4-48. CAUTION: Only lift the battery high enough to clear the holder. Excessive stress on the battery holder retaining clip can damage the clip. Figure 4-48 Removing the MP Card Battery Replacing the MP Card Battery 1. Lift up on the battery holder retaining clip with a flat-head screwdriver and slide the battery into the holder.
Removing and Replacing the LED Status Panel The LED status panel card contains the server and diagnostic LEDs. CAUTION: Some server settings are saved to the LED status panel. If you are replacing both the LED status panel and the system board, you must replace them one at a time to avoid loss of server settings. Removing the LED Status Panel IMPORTANT: First replace one component, then power on the server and boot to the EFI prompt.
Removing and Replacing the System Board CAUTION: Some server settings are saved to the LED status panel. If you are replacing both the LED status panel and the system board, you must replace them one at a time to avoid loss of server settings. Removing the System Board IMPORTANT: First replace one component, then power on the server and boot to the EFI prompt. After confirming that the first component has been replaced successfully, shut down the server and replace the second component. 1. 2. 3. 4. 5.
NOTE: To access the three power cables near the PCI cage, you must lift up the connector bridge for the PCI cage fan. 7. Unscrew the system board mounting screw. A screw symbol is adjacent to the mounting screw. See Figure 4-51. Figure 4-51 Removing the System Board Mounting Screw 8. Remove the system board: a. Grasp the memory controller chip heat sink and slide the system board toward the front of the server. b.
2. Grasp the new system board by its edges and carefully align it in the server: a. Angle the board to allow the PCI connector to slide into the PCI cage bay area. See Figure 4-53. Figure 4-53 Sliding the System Board into the Chassis b. c. Align the system board keyholes with their standoffs on the chassis. Slide the PCI connector posts on the system board into their slots on the server chassis. NOTE: You must remove the PCI cage from the chassis to install the system board.
Figure 4-55 Sliding the System Board into the Chassis 4. 5. 6. Install the system board mounting screw. See Figure 4-56. Connect all cables to their appropriate connectors on the system board. Install the six rear backplane system board mounting screws. Figure 4-56 Installing the Rear Panel Mounting Screws 7. 8. If the server has an iLO MP, install it now. See “Replacing the MP Card” (page 79).
Figure 4-57 Reinstalling the Power Connectors 9. Replace the following server components: • PCI card cage. See “Replacing the PCI Card Cage” (page 72) • Server fans. See “Replacing a Server Fan” (page 48) • Processors. See “Replacing a Processor” (page 65) • Processor airflow guide. See “Replacing the Processor Airflow Guide” (page 56) • Memory DIMMs. See “Installing DIMMs” (page 59) • Memory airflow guide. See “Replacing the Memory Airflow Guide” (page 54) 10. 11. 12. 13. 14.
UUID: A8F2D6EC-DBE5-11D9-9172-AE65D056B60F (Valid) Secondary UUID is Identical Product ID: 0x10A 18. Use the EFI date and time commands to set the correct local date and time. 19. Review the system configuration in the Boot Configuration Menu or EFI shell and reconfigure settings as necessary. 20. Boot the server and resume normal operation. Removing and Replacing the Power Supply Interface Module The power supply interface (PSI) module supports up to two redundant power supplies.
5. Unscrew the PSI mounting screw and remove the PSI module from the server. See Figure 4-59 and Figure 4-60.
Replacing the Power Supply Interface Module 1. Place the PSI module into the chassis by sliding the module retaining tab into the socket on the hard drive bay wall. See Figure 4-61. Figure 4-61 Replacing the Power Supply Interface Module 2. Install the PSI module mounting screw and secure the power cables behind the holding clips. See Figure 4-62. Figure 4-62 Securing the Power Supply Interface Module and Cables 3. 4. 5. 6. Replace the system board. Replace the power supply (or supplies).
Removing and Replacing the Hard Drive SCSI Backplane Removing the Hard Drive SCSI Backplane 1. 2. 3. Power off the server, disconnect all power and external cables, and remove the top metal cover. Lift up on the PCI cage release lever and the back edge of the PCI cage and lift the PCI cage out of the server. Lift up on the fan power bridge and disconnect the backplane power cable. See Figure 4-63. Figure 4-63 Opening the Fan Power Bridge 4. 5. Remove any installed hard drives.
Figure 4-65 Removing the Mounting Screws Removing and Replacing Internal Components 91
6. Remove the hard drive backplane by sliding it in the direction of the arrow and pulling it outward from its standoff posts. See Figure 4-66 and Figure 4-67. Figure 4-66 Removing the Backplane Figure 4-67 Removing the Backplane from the Chassis Replacing the Hard Drive SCSI Backplane 1. 2. 3. 4. 5. 6. 92 Insert the hard drive backplane into its four chassis standoffs and slide it to the left. This locks the hard drive backplane in place.
7. Verify the backplane replacement by using the utilities identified in Appendix C (page 141). To verify operation, use the iLO MP commands.
5 Troubleshooting This chapter provides troubleshooting instructions for maintaining the server. Troubleshooting Tips CAUTION: Do not operate the server for more than 30 minutes with any cover (including disk drives) removed. Damage to server components can result due to improper cooling airflow. If you do not replace the top cover within 30 minutes, the server automatically shuts off.
NOTE: If MP hardware is installed, the diagnostic LEDs are monitored by iLO. The diagnostic LEDs on the control panel are disabled. 3. 4. 5. 6. 7. 8. 9. Display and examine the SEL and Forward Progress Log (FPL) for more information about warning or fault indication. Use the BMC CLI to cycle the server power, cli>pc off, cli>pc on. You can also use the iLO MP PC command (pc -cycle -nc).
6. 7. 8. 9. If the server stopped working after you installed a new board, remove the board and power on the server. If your server now works, check the installation instructions received with the new board for correct installation method. If the new board is preventing the server from powering on, a serious electrical problem is likely. If the server still does not work, remove all boards and options that you have installed (do not remove the hard drives) and power on the server.
Table 5-1 Troubleshooting FRUs Problem or Symptom Problem Indicators Normal Functioning Troubleshooting Steps Indicators Potential FRUs No indication of housekeeping voltage present when AC is connected and power switch is in the off position. Standby LED is off when AC is plugged into server. BMC “heartbeat” not flashing. Both LEDs are located on the system board, see System Board LEDs later in chapter. Power LED Off. No AC present Display panel Power LED stays off when power is turned on.
Verifying Hard Drive Operation Each hard drive has an activity LED indicator on the front of the drive. See Figure 5-1. NOTE: Only the Activity LED is used. The Status LED is not monitored by HP-UX. Figure 5-1 LED Apertures on Hard Drive Lightpipes on the disk drive transmit light to these apertures from LEDs on the inside rear of the hot-swap mass storage cage. Verify that the LED shows the correct activity indication for all disk drives that you installed: 1. 2. 3. 4.
Identifying and Diagnosing Hardware Issues Should a failure occur, the server LEDs, the diagnostic LEDs, and the SEL help you identify the problem. • • The server LED, LAN LED, and diagnostic LEDs on the display panel of the server change color and blink in different patterns to help identify specific problems. LEDs on the front and rear panels of the server display LAN activity. The SEL provides detailed information about the errors identified by the LEDs.
3. To display the status logs, entersl. The status logs consist of: • System Event • Forward Progress • Current Boot • Previous Boot • Live Events • Clear SEL/FPL Logs For a complete explanation of configuring the iLO MP and using the iLO MP commands, see the HP Integrity and HP 9000 iLO Operations Guide. System Event Logs 1. 2. Access the iLO MP command prompt. Run the sl command.
Enter alert level threshold or [Q] to quit filter setup: 3 -> Alert threshold level 3 filter will be applied. Set up alert filter options on this buffer? (Y/[N]) Log Name Entries % Full Latest Entry ------------------------------------------------------------------E - System Event 410 47 % 18 Feb 2003 09:38:10 Event Log Navigation Help: + D F L J V ? Ctrl-B 4. View next block (forward in time, e.g. from 3 to 4) View previous block (backward in time, e.g.
6. To decode the flashing state of server LED, review the entire SEL and look at events with alert level 3 and above.
Figure 5-2 Diagnostic LEDs The pattern of illuminated LEDs can be used to identify the category of the fault or warning. For example, if diagnostic LED one is red, there is a problem with memory. However, if diagnostic LEDs one and two are both red, there is a problem with the server processor. If the diagnostic LEDs indicate an error, check the EFI shell CLI cli>sl e to display the SEL for a more detailed explanations of the failure. • The server LED indicates the severity of the error.
Table 5-5 Unknown Warning System LED LED 1 LED 2 LED 3 LED 4 Problem Solution Flashing yellow RED RED RED RED Unknown warning View the SEL cli>sl e for additional information. For further assistance, contact your HP Support Engineer. Table 5-6 Memory Warnings System LED LED 1 LED 2 LED 3 LED 4 Problem Solution Flashing yellow RED GREEN OFF OFF Mismatched memory pairs View the SEL for additional information.
Table 5-9 Processor Warnings System LED LED 1 LED 2 LED 3 LED 4 Problem Solution Flashing yellow RED RED GREEN OFF Processor 0 temperature exceeds limit Make sure nothing is blocking the server airflow and locate your server in an air-conditioned room. Flashing yellow RED RED OFF GREEN Processor 1 temperature exceeds limit Make sure nothing is blocking the server airflow and locate your server in an air-conditioned room.
Table 5-15 Firmware Errors System LED LED 1 LED 2 LED 3 LED 4 Problem Solution Flashing Red OFF RED OFF OFF System View the SEL for additional firmware hang information. Table 5-16 System Board Faults System LED LED 1 LED 2 LED 3 LED 4 Problem Solution Flashing Red OFF GREEN RED OFF VRM overvoltage View the SEL for additional information. For further assistance, contact your HP Support Engineer.
Table 5-19 BMC Faults System LED LED 1 LED 2 LED 3 LED 4 Problem Solution Flashing Red RED GREEN RED OFF BMC firmware is damaged Turn off and unplug the server. Wait 20 seconds, then plug in and restart the server. If the error repeats, replace the base unit. Flashing Red RED GREEN RED GREEN System board FRU inventory device inaccessible View the SEL for additional information.
00E0 7 CPU0 00F0 7 CPU0 Halt boot Halt boot 00037 00037 DT 04 Time 000000000000000F 2003-10-31 22:29:06 Troubleshooting Example Using CLI This example uses the CLI and the SEL to display error message indicating that fan 2 (memory fan) has failed.
Table 5-22 System Board LEDs LED Description STBY (power good) This green standby LED comes on as soon as the server power cord is plugged in. BMC (heartbeat) A few seconds after the server is plugged in this green LED starts flashing indicating the BMC software is operational. F/W A few seconds after the server power is turned on, the server firmware code fetch green LED comes on indicating that the firmware has started the boot process.
Table 5-24 Gb LAN B Connector LEDs (continued) Location Color Description Link (upper right) Green Link Link (upper right) Off: No link Optional Management Processor LAN LEDs Four iLO MP LAN LEDs are also on the rear panel if the server has an iLO MP installed. Table 5-25 details the LED locations and states for the LAN A connector.
Exercisers stress devices to facilitate the reproduction of intermittent problems. Information modules create a log of information specific to one device, including: • • • • • • • The product identifier A description of the device The hardware path to the device The vendor Onboard log information (if applicable) Miscellaneous information associated with the device The firmware revision code, if present Expert tools are device-specific troubleshooting utilities for use by sophisticated users.
Table 5-27 Offline Support Tools List Offline Tool Functional Area CPUDIAG Processor Diagnostic MEMDIAG Memory Diagnostic MAPPER System Mapping Utility PLUTODIAG SBA/LBA Chipset PERFVER Peripheral Verifier DFDUTIL SCSI Disk Firmware Update Utility DISKUTIL Disk Test Utility (Non-Destructive) COPYUTIL Data Copy Utility DISKEXPT Disk Expert Utility IODIAG I/O Diagnostics Launch Facility (Executes third party diagnostics and runs BIST, if available) CIODIAG2 Core I/O Diagnostic Specific
Complete information on installing and using EMS hardware event monitors, as well as a list of supported hardware, can be found in the EMS Hardware Monitors Users Guide. An electronic copy of this book is provided on the website http://docs.hp.com/hpux/diag.
2. Collect the following information: • The model number of your server (for example rx2620). • The product number of your server. This can be found on the identification label, which is found on the pull-out label at the front of the server. • The serial number of your server. This can be found on the identification label. 3. Be familiar with your server configuration.
A Parts Information This appendix provides server part information such as: • Description • Manufacturing part number • Replacement part number • Exchange part number Field Replaceable Parts View The items in this list and the corresponding item numbers are the field replaceable units (FRUs) for the server. See Figure A-1 for an exploded view of the server. Figure A-1 Parts Identification Figure A-2 shows the parts used for a tower-mounted server.
Figure A-2 Tower Parts Field Replaceable Parts List Use the item numbers listed in Table A-1 with the part illustrations to identify the nomenclature of the part. Part numbers are found by using the part nomenclature from this list to select the correct part from the HP Partsurfer (http://partsurfer.hp.com). NOTE: Some part numbers shown in Table A-1 have two entries. The second entry is for the Restriction of the Use of Certain Hazardous Substances (RoHS) compliant parts. Table A-1 Parts List Item No.
Table A-1 Parts List (continued) Item No. 23 17 12 Description Mfg.
Table A-1 Parts List (continued) Item No. Description Mfg. Part Number Assembly - CPU Fans - (RoHS) AB331-04006 AB331-04006 n/a Assembly - Thin 80mm Fan A7231-04015 A7231-04015 n/a Assembly - Thin 80mm Fan - (RoHS) A7321-04060 A7321-04060 n/a Assembly - Dual fan A7231-04033 A7231-04033 n/a Assembly - Dual fan - (RoHS) A7231-04059 A7231-04059 n/a Assembly - Office friendly CPU fans - AD117-2000A (RoHS) A7231-04017 n/a 5 Processor, 1.
Table A-1 Parts List (continued) Item No. Description Mfg.
Table A-1 Parts List (continued) Item No. Description Mfg. Part Number Part Number Replacement Part Number Exchange PWR CORD U.K. 250 VAC 8120-1351 8120-1351 n/a Mgmt. Processor with VGA A9803A A7231-66580 n/a Mgmt. Processor with VGA - (RoHS) A9803A AB587-60002 17 PCI Single-Channel Ultra 160 Adapter A6828A A6828-60101 n/a 17 Windows, Linux 2 port Ultra160 SCSI A6829A HBA A6829-60101 n/a 17 Windows, Linux Ultra160 SCSI Adapter (Max.
Table A-1 Parts List (continued) Item No. Description Mfg.
B Booting the Operating System This chapter covers procedures for booting and shutting down an operating system on the server. Operating Systems Supported on HP Integrity Servers HP supports the following operating systems on entry-class HP Integrity servers. • HP-UX 11i Version 2 (B.11.23) For details see “Booting and Shutting Down HP-UX” (page 126). • HP OpenVMS I64 For details see “Booting and Shutting Down HP OpenVMS” (page 131).
• The EFI Boot Configuration Menu provides the Add a Boot Option, Delete Boot Options, and Change Boot Order menu items (use this method if you must add an EFI Shell entry to the boot options list). Operating system utilities for managing the boot options list include the HP-UX setboot command and the HP OpenVMS @SYS$MANAGER:BOOT_OPTIONS.COM command.
1. Access the EFI Shell environment. a. To access the server console, log in to iLO and enter CO. b. When accessing the console, confirm that you are at the EFI Boot Manager menu (the main EFI menu). If you are at another EFI menu, choose Exit from the submenus until you return to the screen with the EFI Boot Manager heading. c. To access the EFI Shell environment, choose EFI Shell from the EFI Boot Manager menu. 2.
Procedure B-3 Booting HP-UX (EFI Shell) From the EFI Shell environment, boot HP-UX on a device by first accessing the EFI System Partition (for example fs0:) for the root device, then entering HPUX to initiate the loader. 1. Access the EFI Shell environment for the server on which you want to boot HP-UX. a. To access the server console, log in to iLO and enter CO. b. When accessing the console, confirm that you are at the EFI Boot Manager menu (the main EFI menu).
Booting HP-UX in Single-User Mode (EFI Shell) From the EFI Shell environment, boot in single-user mode by stopping the boot process at the HPUX.EFI interface (the HP-UX Boot Loader prompt, HPUX>) and entering the boot -is vmunix command. 1. Access the EFI Shell environment for the system on which you want to boot HP-UX in single-user mode. a. To access the server console, log in to iLO and enter CO. b. When accessing the console, confirm that you are at the EFI Boot Manager menu (the main EFI menu).
LVM Maintenance Mode HP-UX Booting Use the following procedure to boot HP-UX in Logical Volume Management (LVM) maintenance mode. Booting HP-UX in LVM-Maintenance Mode (EFI Shell) From the EFI Shell environment, boot in LVM-maintenance mode by stopping the boot process at the HPUX.EFI interface (the HP-UX Boot Loader prompt, HPUX>) and entering the boot -lm vmunix command. 1. Access the EFI Shell environment for the system on which you want to boot HP-UX in LVM-maintenance mode. a.
Booting and Shutting Down HP OpenVMS This section has procedures for booting and shutting down HP OpenVMS on entry-class HP Integrity servers, and procedures for adding HP OpenVMS to the boot options list. • To add an HP OpenVMS entry to the boot options list, see “Adding HP OpenVMS to the Boot Options List” (page 131). • To boot HP OpenVMS on an entry-class HP Integrity server, see “Booting HP OpenVMS” (page 132). • To shut down HP OpenVMS, see “Shutting Down HP OpenVMS” (page 133).
• • bcfg boot mv #a #b — Moves the item number specified by #a to the position specified by #b in the boot options list. bcfg boot add # file.efi "Description" — Adds a new boot option to the position in the boot options list specified by #. The new boot option references file.efi and is listed with the title specified by Description. For example, bcfg boot add 1 \efi\vms\vms_loader.efi "HP OpenVMS"adds an HP OpenVMS item as the first entry in the boot options list. For details, see the help bcfg command.
3. Access the EFI System Partition (fsX: where X is the file system number) for the device from which you want to boot HP OpenVMS. For example, enter fs2: to access the EFI System Partition for the bootable file system number 2. The EFI Shell prompt changes to reflect the file system currently accessed. Also, the file system number might change each time it is mapped (for example, when the server boots, or when the map -r command is issued). 4.
3. At the OpenVMS DCL prompt, issue the @SYS$SYSTEM:SHUTDOWN command and specify the shutdown options in response to the prompts given.
3. List the contents of the \EFI\Microsoft\WINNT50 directory to identify the name of the Windows boot option file (Boot00nn) that you want to import into the system boot options list. fs0:\> ls EFI\Microsoft\WINNT50 Directory of: fs0:\EFI\Microsoft\WINNT50 09/18/03 09/18/03 12/18/03 11:58a
11:58a 08:16a 1 File(s) 2 Dir(s) 1,024 1,024 354 354 bytes . .. Boot0001 fs0:\> 4. At the EFI Shell environment, issue the \MSUtil\nvrboot.4. 5. Press Enter to initiate booting using the chosen boot option. After Windows begins loading, wait for the Special Administration Console (SAC) to become available. The SAC interface provides a text-based administration tool that is available from the system console. For details see the SAC online help (enter ? at the SAC> prompt). Loading.: Windows Server 2003, Datacenter Starting: Windows Server 2003, Datacenter Starting Windows...
Windows Shutdown from the Command Line From the Windows command line, issue the shutdown command to shut down the operating system. 1. Log in to Windows running on the server that you want to shut down. For example, access the system console and use the Windows SAC interface to start a command prompt, from which you can issue Windows commands to shut down the server. 2. Check to see whether any users are logged in. Use the query user or query session command. 3.
NOTE: On HP Integrity servers, the operating system installer automatically adds an entry to the boot options list. 1. Access the EFI Shell environment. a. To access the server console, log in to iLO and enter CO. b. When accessing the console, confirm that you are at the EFI Boot Manager menu (the main EFI menu). If you are at another EFI menu, choose Exit from the submenus until you return to the screen with the EFI Boot Manager heading. c.
\EFI\redhat\elilo.efi \EFI\redhat\elilo.conf After choosing the file system for the boot device (for example, fs0:) you can initiate the Linux loader from the EFI Shell prompt by entering the full path for the ELILO.EFI loader. By default the ELILO.EFI loader boots Linux using the kernel image and parameters specified by the default entry in the elilo.conf file on the EFI System Partition for the boot device. To interact with the ELILO.
Booting SuSE Linux Enterprise Server from the EFI Shell To boot SuSE Linux Enterprise Server 10 from the EFI Shell: 1. Access the EFI Shell. From the system console, choose the EFI Shell entry from the EFI Boot Manager menu to access the shell. 2. Access the EFI System Partition for the SuSE Linux Enterprise Server boot device. Use the map EFI Shell command to list the file systems (fs0, fs1, and so on) that are known and mapped.
C Utilities This appendix describes the utilities that are part of the server. These include the EFI Boot Manager, and Extensible Firmware Interface Pre-OS System Environment (EFI/POSSE). Extensible Firmware Interface Boot Manager EFI is an operating system and platform-independent boot and pre-boot interface. EFI resides between the operating system and platform firmware. This allows the operating system to boot without having details about the underlying hardware and firmware.
different ways to bring up the system. For example, you can boot to the EFI Shell, to an operating system located on the network or residing on media in the server, or the EFI Boot Maintenance menu. The following options are available in the EFI Boot Manager menu • Boot from a File—Automatically adds EFI applications as boot options or enables you to boot from a specific file. When you select this option, the system searches for an EFI directory.
Table C-1 EFI Commands (continued) EFI Shell Command BCH Command Equivalent (PA-RISC) BCH Command Parameters (PA-RISC) Definition many commands offer a [-b] parameter to cause 25 line breaks ScRoll [ON|OFF] Display or change scrolling capability autoboot AUto [BOot|SEarch|STart] [ON|OFF] Display or set the auto start flag info boot BootID [[]] Display or set processor boot identifier EFI Boot Manager Boot info autoboot BootTimer [0-200] Seconds allowed for boot at
Table C-1 EFI Commands (continued) EFI Shell Command BCH Command Equivalent (PA-RISC) BCH Command Parameters (PA-RISC) Definition pdt page deallocation table (pdt) Display or clear the page deallocation table errdump cmc errdump init processor internal [] [HPMC|LPMC|TOC|ASIC]] memory (PIM) Display PIM information EFI/POSSE Commands This section describes the EFI/POSSE commands developed for the server. NOTE: EFI/POSSE are similar.
Example C-1 help Command Shell> help List of classes of commands: boot -- Booting options and disk-related commands configuration -- Changing and retrieving system information devices -- Getting device, driver and handle information memory -- Memory related commands shell -- Basic shell navigation and customization scripts -- EFI shell-script commands Type "help" followed by a class name for a list of commands in that class Type "help" followed by command name for full documentation Example C-2 help bch Co
Example C-4 help cpuconfig Command Shell> help cpuconfig Deconfigure or reconfigure cpus CPUCONFIG [module] | [threads] [on|off] module : Specifies which cpu module to configure threads : Use to display info or configure threads on|off : Specifies to configure or deconfigure a cpu module or threads Note: 1. Cpu status will not change until next boot. 2. Specifying a cpu number without a state will display configuration status.
Example C-5 help ioconfig Command Shell> help ioconfig Deconfigure or reconfigure IO components or settings IOCONFIG [fast_init|wol [on|off]] fast_init wol on|off Specifies device connection policy setting Specifies System Wake-On-LAN setting Specifies to configure or deconfigure a feature or component Note: 1. If fast_init is enabled, firmware will connect only the minimum set of devices during boot. This feature might cause boot failure; disable this feature if failure occurs. 2.
Table C-2 Communications Parameters Parameter Value RECEIVE_FIFO_DEPTH 1 TIMEOUT 1000000 PARITY No parity DATA_BITS 8 STOP_BITS 1 CONTROL_MASK 0 boottest Interacts with the speedy boot variable allowing it to be set appropriately.
Example C-6 boottest Command Shell> boottest BOOTTEST Settings Default Variable Selftest Setting ------------------------------------booting_valid On (OS speedy boot aware) early_cpu Run this test late_cpu Run this test platform Run this test chipset Run this test io_hw Run this test mem_init Run this test mem_test Run this test Example C-7 boottest early_cpu off Command Shell> boottest early_cpu off BOOTTEST Settings Default Variable Selftest Setting ------------------------------------booting_valid On (O
NOTE: The last remaining configured CPU in a server cannot be deconfigured. Example C-8 cpuconfig Command Shell> cpuconfig PROCESSOR INFORMATION CPU --0 1 Speed ------1.6Ghz 1.6Ghz Proc Rev --------B1 B1 Model ------0 0 Family ----31 31 Arch Processor Rev State ------ ----0 Sched Deconf 0 Active ioconfig Deconfigures or reconfigures I/O components or settings.
Example C-9 ioconfig Command Shell> ioconfig Deconfigure or reconfigure IO components or settings IOCONFIG [fast_init|wol [on|off]] fast_init wol on|off Specifies device connection policy setting Specifies System Wake-On-LAN setting Specifies to configure or deconfigure a feature or component Note: 1. If fast_init is enabled, firmware will connect only the minimum set of devices during boot. This feature might cause boot failure; disable this feature if failure occurs. 2.
Example C-10 conconfig Command To display current primary operating system console Shell> conconfig CONSOLE CONFIGURATION Index Status Type ----- ------ ---1 NC Serial 2 S Serial 3 P VGA Device Path ----------Acpi(PNP0501,0) Acpi(HWP0002,0)/Pci(1|1) Acpi(HWP0002,0)/Pci(4|0) Example C-11 conconfig 2 primary Command To change primary operating system console Shell> conconfig 2 primary CONSOLE CONFIGURATION Index Status Type Device Path ----- ------ -------------1 NC Serial Acpi(PNP0501,0) 2 P Serial Acpi(HW
Operation Sets NVM and stable store values to predefined default values. Normally only a subset of values are available for default. To reset the system, execute the default clear command. errdump Displays the contents of processor internal memory logged for all processors present in the server.
Example C-14 info all Command Shell> info all SYSTEM INFORMATION Date/Time: Sep 24, 2004 17:27:17 (20:04:09:24:17:27:17) Manufacturer: hp Product Name: server rx2620 Product Number: AB333A Serial Number: USR0418201 UUID: 336B81EE-A9AF-11D8-9653-3F6E1533CC31 System Bus Frequency: 200 MHz PROCESSOR MODULE INFORMATION # of L3 L4 Family/ CPU Logical Cache Cache Model Module CPUs Speed Size Size (hex.) Rev ------ ------- -------- ------ ------ ------- --0 1 1.
CPU Module/ Logical ------0/0 CPU Module/ Logical --------0/0 Warnings -------- AutoBoot: ON - Timeout is : 10 sec Boottest: BOOTTEST Settings Default Variable OS is not speedy boot aware.
00 E0 02 00 0x1002 0x5159 XX Acpi(HWP0002,700)/Pci(2|0) System Wake-On-LAN: Enabled BOOT INFORMATION Monarch CPU: Current Monarch CPU Module/ Logical ------0/0 Preferred Monarch CPU Module/ Logical --------0/0 Warnings -------- AutoBoot: ON - Timeout is : 10 sec Boottest: BOOTTEST Settings Default Variable OS is not speedy boot aware.
------------------Memory Controller Root Bridge Host Bridge Host Bridge Host Bridge Host Bridge Host Bridge Host Bridge Host Bridge Other Bridge Other Bridge Baseboard MC ------0 0 0000 0001 0002 0003 0004 0006 0007 0 0 0 -----122b 1229 122e 122e 122e 122e 122e 122e 122e 0 0 0 -------0023 0023 0032 0032 0032 0032 0032 0032 0032 0002 0009 0342 Example C-15 info cpu Command This example has processor hyperthreading turned on: Shell> info cpu PROCESSOR MODULE INFORMATION CPU Module -----0 1 # of Logical
Example C-16 info mem Command Shell> info mem MEMORY INFORMATION --0 1 2 3 4 5 ---- DIMM A ----DIMM Current ------ ---------256MB Active 256MB Active ------------- ---- DIMM B ----DIMM Current ------ ---------256MB Active 256MB Active ------------- Active Memory : 1024 MB Installed Memory : 1024 MB Example C-17 info io Command Shell> info io I/O INFORMATION BOOTABLE DEVICES Order ----1 Media Type ---------CDROM Seg Bus Dev Fnc # # # # --- --- --- --00 00 01 00 00 00 01 01 00 00 01 02 00 00 02 00 00
Example C-18 info boot Command Shell> info boot BOOT INFORMATION Monarch CPU: Current Monarch CPU Module/ Logical ------0/0 Preferred Monarch CPU Module/ Logical --------0/0 Warnings -------- AutoBoot: ON - Timeout is : 10 sec Boottest: BOOTTEST Settings Default Variable OS is not speedy boot aware.
Example C-19 lanaddress Command LAN Address Information: LAN Address Path ----------------- ---------------------------------------Mac(00306E4C4F1A) Acpi(HWP0002,0)/Pci(3|0)/Mac(00306E4C4F1A)) *Mac(00306E4C0FF2) Acpi(HWP0002,100)/Pci(2|0)/Mac(00306E4C0FF2)) monarch Displays or modifies the ID of the bootstrap processor. The preferred monarch number is stored in NVM.
Operation With no options specified, the command displays the PDT information for the server. The PDT is cleared and a reboot is required for memory reallocation and safe booting.
Example C-23 sysmode Command Shell> sysmode System Mode: NORMAL Shell> sysmode admin You are now in admin mode. Shell> sysmode service You are now in service mode. Shell> sysmode normal You are now in normal mode.
1. To map the parameters for all PCI cards installed in the server, enter the shell> info io command at the EFI Shell prompt. A list of all the installed devices in the server and managed by EFI drivers appears.
Also, this SCSI interface has a non-numeric (XX) slot # indicating that it is on the system board. 2. From the EFI Shell prompt, enter the following command to obtain the controller handle for the SCSI interface: devtree A tree of all EFI-capable devices installed in the system displays.
Drv[45] Ctrl[1C] Lang[eng] Drv[45] Ctrl[1D] Lang[eng] This listing shows which driver controls which device (controller). This information describes a SCSI interface because the values shown for Ctrl—17 and 18—are the controller handles for the SCSI interface two channels (from the information displayed by the devtree command). NOTE: The EFI driver handle values change on every boot.
7. Be sure the utility is running for the channel of the SCSI interface by comparing the values shown for PCI Bus, PCI Device, and PCI Function to the Bus #, Dev #, and Fnc # values from the info io command. CAUTION: Do not change the value for any of these fields on the Adapter Properties screen: • Auto Termination • SCSI Parity • SCSI Bus Scan Order • Spinup Delay (Secs) Changing any of these fields can cause unpredictable results.
Using the Boot Option Maintenance Menu This menu enables you to select console output and input devices as well as various boot options. The menu items are described below. The following selections are available on all menus: • Help: Displays the help available for the command. • Exit: Returns to the main Boot Options Maintenance menu. • Enter: Selects an item after using the arrow keys to highlight the item. • Save Settings to NVRAM: Saves your changes. NOTE: The options shown here are examples.
Where: • NO VOLUME LABEL: A hard drive. When you format a hard drive, the EFI tools provide an option to LABEL the disk. In this example, the volume is not labelled. • CD_FORMAT: The label created for the disk currently inside the DVD drive. • Removable Media Boot: Allows you to boot from a removable media drive (CD/DVD drive). This option does not support booting from a specific file on a specific CD. • Load Files: The EFI Shell and the LAN.
NOTE: This action does not delete any files, applications, or drivers from your system. This option displays a list of boot options that are configured on the system. The names match the options on the main Boot Manager menu. If you remove a drive from the system, you must manually delete it from the boot options list. • To delete an item from the list, use the arrow keys to highlight the item and press Enter. • To remove all of the entries from the EFI Boot menu, select Delete All Boot Options.
VenHw(D65A6B8C-71E5-4DF0-A909-F0D2992B5AA9) Boot0000 Set AutoBoot TimeOut Use this option to set the amount of time the system pauses before it launches the first item in the Boot Options list. For example: Set Auto Boot Timeout. Select an Option Set Timeout Value Delete/Disable Timeout Help Exit Interrupting the timeout during the countdown stops the Boot Manager from loading any boot options automatically. If there is no countdown set, you must select boot options manually.
Table C-5 Console Output Devices To select: Choose: Serial A/Serial 1 Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100+) iLO MP Serial Console Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100+) iLO MP VGA Port Acpi(HWP0002,700)/Pci(2|0) • • • Each option is identified with an EFI device path. Not all options are available, depending on the configuration of the server and the options purchased. Device paths can differ slightly on different product models.
• • • Each option is identified with an EFI device path. Not all options are available, depending on the configuration of the server and the options purchased. Device paths can differ slightly on different product models. On both serial device examples, UART 9600 indicates the current baud rate of the serial device (can be changed with the EFI Shell baud command), VenMsg Vt100+ is the current emulation type (several different terminal emulation protocols are supported).
Set System Wake-On LAN Enables or disables the server Wake-On_LAN settings. Set System Defaults Selects server default settings. iLO MP The Integrated Lights-Out management processor (iLO MP) for entry-level Integrity servers is an autonomous management subsystem embedded directly on the server. It is the foundation of the server’s High Availability (HA), embedded server, and fault management.
Index A acetone, 114 activity LED, 99 adapter path, 163 slot number, 163 ammonia, 114 anti-static wrist strap, 39 autoboot, 126 B benzene, 114 block diagram memory, 23 system board, 21 BMC commands, 108 BMC LED, 110 boot EFI boot manager, 141 boot configuration menu, 167 boot option delete, 168 boot options list, 125 adding HP-UX, 126 adding Linux, 137 adding OpenVMS, 131 adding Windows, 134 booting HP-UX, 126 LVM maintenance mode, 130 single-user mode, 128 Linux, 137 OpenVMS, 131 Red Hat Linux, 138 SuSE L
extensible firmware interface, (see EFI) F F/W LED, 110 fault LED warnings, 104 fault management, 113 field replaceable unit, FRU list of, 117 front bezel, removing and replacing, 45 front panel controls, 29 LEDs, 29 H handle controller, 164 hard drive backplane, removing and replacing, 90 LEDs, 30 locking and unlocking, 51 modules, 99 removing and replacing, 50 hard drives specifications, 21 HDD (see hard drive) Hot-swap disk drive module, 99 hot-swap vs hot-plug, 46 I iLO, 173 indicators, LED, 99 info
power supply LEDs, 31 power supply, removing and replacing, 48 Pre-OS System Environment (see EFI/POSSE) processor location, 62 socket specifications, 22 specifications, 20 processor airflow guide removing and replacing, 54 processor module, removing and replacing, 61 R rear panel LEDs, 32 ports, 32 removable media drive removing and replacing, 76 removing and replacing DIMMs, 57 front bezel, 45 hard drive, 50 hard drive backplane, 90 internal hard drive, 50 LED status panel, 81 memory airflow guide, 53 MP