Oracle® Database Appliance Service Manual

Oracle® Database Appliance Service Manual
Oracle Database Appliance Service
Manual
®
Part No: E23342-20
March 2015
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Contents
Preface ................................................................................................................. 9
1 Overview of System Status Indicators and LEDs .......................................... 11
Oracle Database Appliance X5-2 Status Indicators ............................................... 11
Server Node Status Indicators .................................................................. 11
Storage Shelf Status Indicators ................................................................. 12
Oracle Database Appliance X3-2/X4-2 Status Indicators ....................................... 14
Server Node Status Indicators .................................................................. 14
Storage Shelf Status Indicators ................................................................. 15
Oracle Database Appliance (Original Version) Status Indicators .............................. 17
Server Node Status Indicators .................................................................. 17
Server Node Fan Indicators ..................................................................... 20
Storage and Boot Drive Status Indicators ................................................... 21
Power Supply Status Indicators ................................................................ 21
Rear Server Node Status Indicators ........................................................... 22
Server Node Internal LEDs ...................................................................... 24
Ethernet Port Indicators ........................................................................... 25
2 Preparing Oracle Database Appliance for Service ......................................... 27
Preparing Oracle Database Appliance X3-2/X4-2/X5-2 for Service ......................... 27
Preparing Oracle Database Appliance (Original Version) for Service ....................... 28
Component Replacement Policy – CRUs and FRUs ..................................... 28
Safety Information ................................................................................. 30
Required Tools ...................................................................................... 30
Obtaining the Chassis Serial Number ........................................................ 30
Shutting Down a Server Node and Powering Off the System .......................... 31
Performing Electrostatic Discharge and Antistatic Prevention Measures ............ 34
Removing Server Nodes From the System Chassis ....................................... 34
Removing the Server Node Top Cover ....................................................... 35
Removing the Middle Section of the System Top Cover ................................ 36
5
Contents
3 Servicing CRUs That Do Not Require System Power Off ............................... 39
Oracle Database Appliance X3-2/X4-2/X5-2 Server Node Hot-Swappable
Components .................................................................................................. 39
Oracle Database Appliance X3-2/X4-2/X5-2 Storage Shelf Hot-Swappable
Components .................................................................................................. 40
Replacement Procedures (CRU) ................................................................ 40
Oracle Database Appliance (Original Version) Hot-Swappable Components .............. 47
Servicing Storage Drives and Boot Drives (CRU) ........................................ 47
Servicing Fan Modules (CRU) ................................................................. 53
Servicing Power Supplies (CRU) .............................................................. 56
4 Servicing CRUs That Require Server Node Power Off ...................................
Servicing Oracle Database Appliance X3-2/X4-2/X5-2 CRUs ................................
Servicing Oracle Database Appliance (Original Version) CRUs ..............................
Server Node CRU Component Locations ...................................................
Servicing Memory Modules (DIMMs) (CRU) .............................................
Servicing PCIe Risers (CRU) ...................................................................
Servicing PCIe Cards (CRU) ...................................................................
Servicing the Server Node Battery (CRU) ..................................................
61
61
62
62
63
71
75
82
5 Servicing FRUs .............................................................................................. 87
Servicing Oracle Database Appliance X3-2/X4-2/X5-2 FRUs ................................ 87
Updating System_Identifier and/or FRU ID Information for a Replacement
Motherboard or Disk Backplane ............................................................... 88
Component Fault Management ................................................................. 93
Servicing Oracle Database Appliance (Original Version) FRUs .............................. 94
Removing and Installing the Air Duct (FRU) .............................................. 94
Servicing Processors (CPUs) (FRU) .......................................................... 96
Servicing the Boot Disk Backplane (FRU) ................................................ 103
Servicing the Power Distribution Board (FRU) .......................................... 105
Servicing the Disk Midplane Module (FRU) ............................................. 109
Servicing the Disk Midplane Module HDD Cable (FRU) ............................. 115
Servicing the Front Indicator Panels (FRU) ............................................... 117
Servicing Server Node Cables ................................................................ 122
Servicing the Motherboard Assembly (FRU) ............................................. 131
6 Returning Oracle Database Appliance to Operation .................................... 137
Returning Oracle Database Appliance X3-2/X4-2/X5-2 to Operation ..................... 137
Powering On Oracle Database Appliance X3-2/X4-2/X5-2 ........................... 138
6
Oracle Database Appliance Service Manual • March 2015
Contents
Returning Oracle Database Appliance (Original Version) to Operation ....................
Installing the Server Node Top Cover ......................................................
Installing a Server Node Into the System Chassis .......................................
Powering On Oracle Database Appliance (Original Version) .........................
139
139
140
142
7 Server Node Diagnostic Tools and Resetting the Service Processor ........... 145
Server Node Diagnostic Tools ........................................................................ 145
Resetting the Service Processor ...................................................................... 146
8 Server Node Basic Input/Output System (BIOS) ..........................................
Oracle Database Appliance X3-2/X4-2/X5-2 BIOS Utility ...................................
Setting Up BIOS Configuration Parameters ...............................................
BIOS Setup Utility Menu Options ...........................................................
Oracle Database Appliance (Original Version) BIOS Utility .................................
BIOS Booting and Setup .......................................................................
Ethernet Port Naming and Boot Order .....................................................
Configuring Support for TPM ................................................................
Configuring SP LAN Settings ................................................................
Configuring Option ROM Settings in BIOS ..............................................
BIOS Setup Utility Hot Keys .................................................................
Accessing the BIOS Setup Utility Menus .................................................
BIOS Setup Utility Screens ....................................................................
149
149
150
150
151
151
158
158
164
165
167
167
170
Index ................................................................................................................. 179
7
8
Oracle Database Appliance Service Manual • March 2015
Preface
This preface provides the following information:
■
■
■
■
“Documentation and Feedback” on page 9
“Documentation Accessibility” on page 9
“Contributors” on page 10
“Change History” on page 10
Documentation and Feedback
Documentation
Link
All Oracle products
http://www.oracle.com/documentation
Oracle Database Appliance
http://docs.oracle.com/cd/E22693_01/index.htm
Oracle Integrated Lights Out Manager (Oracle ILOM) 3.
X
http://www.oracle.com/goto/ILOM/docs
Provide feedback on this documentation:
http://www.oracle.com/goto/docfeedback
Documentation Accessibility
For information about Oracle's commitment to accessibility, visit the Oracle Accessibility
Program website at http://www.oracle.com/pls/topic/lookup?ctx=acc&id=docacc.
Access to Oracle Support
Oracle customers have access to electronic support through My Oracle Support. For
information, visit http://www.oracle.com/pls/topic/lookup?ctx=acc&id=info or visit
http://www.oracle.com/pls/topic/lookup?ctx=acc&id=trs if you are hearing impaired.
Preface
9
Contributors
Contributors
Ralph Woodley, Cynthia Chin-Lee, Francis Butler, Mary Martyak, Anil Nair, Chris Kaminaris,
Doug Archambault, Kevin Deihl, Kyle Walker
Change History
The following lists the release history of this documentation set:
■
■
■
■
■
■
■
■
■
■
■
■
■
10
September 2011: Initial publication.
March 2012: First Revision.
August 2012: Corrected cabling instructions.
October 2012: Editorial improvements.
March 2013: Added Oracle Database Appliance X3-2.
April 2013: Editorial improvements.
May 2013: Minor updates. Updated information on powering off the system and its JBODs.
Corrected incorrect information on Oracle Linux UEK version.
July 2013: Updated information on the Top Level Identifier (TLI) label for the ODA X3-2.
October 2013: Editorial improvements.
November 2013: Added Oracle Database Appliance X4-2. Moved all setup and
configuration information, except for racking, from the Owner's Guide to the Getting
Started Guide. Added links to the base-server documentation libraries for some maintenance
tasks and reference information.
April 2014: Corrected processor information for the Oracle Database Appliance (original
version). Editorial improvements.
February 2015: Added Oracle Database Appliance X5-2.
March 2015: Editorial improvements.
Oracle Database Appliance Service Manual • March 2015
1
♦ ♦ ♦ C H A P T E R 1 Overview of System Status Indicators and LEDs
This manual provides instructions for servicing Oracle Database Appliance hardware. Oracle
Database Appliance comes in four versions:
■
■
■
■
Oracle Database Appliance X5-2
Oracle Database Appliance X4-2
Oracle Database Appliance X3-2
Oracle Database Appliance original version (also referred to as "version 1" or "V1")
The following sections in this chapter describe system status indicators and LEDs:
■
■
■
“Oracle Database Appliance X5-2 Status Indicators” on page 11
“Oracle Database Appliance X3-2/X4-2 Status Indicators” on page 14
“Oracle Database Appliance (Original Version) Status Indicators” on page 17
For information about system features and racking, refer to the Oracle Database Appliance
Owner's Guide. For information on cabling, Oracle ILOM initial setup, and appliance software
setup, refer to the Oracle Database Appliance Getting Started Guide.
Oracle Database Appliance X5-2 Status Indicators
This section describes the status indicators for Oracle Database Appliance X5-2.
■
■
“Server Node Status Indicators” on page 14
“Storage Shelf Status Indicators” on page 15
Server Node Status Indicators
These topics describe Oracle Database Appliance X5-2 server node status indicators (LEDs).
Chapter 1 • Overview of System Status Indicators and LEDs
11
Oracle Database Appliance X5-2 Status Indicators
Note - The links below take you to topics outside of the Oracle Database Appliance library to
the Oracle Server X5-2 documentation library. Use your browser's Back button to return to the
Oracle Database Appliance library.
■
Server Node General Status Indicators
■
Server Node Fan Status Indicators
■
Server Node Storage Drive Status Indicators
■
Server Node Power Supply Status Indicators
■
Server Node Motherboard Status Indicators
Storage Shelf Status Indicators
Storage shelves are supported with Oracle Database Appliance X5-2. They include controls and
indicators on the front panel, hard drives, SSD drives, power supplies, and SAS I/O modules.
Storage Shelf Front Panel and Drive Indicators
The following figure shows the controls and indicators on the storage shelf front panel and
drives.
12
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance X5-2 Status Indicators
Callout
Indicator/LED: Color
State Meaning
1
OK: green
■ On – The storage shelf is powered on and operating normally.
■ Off – The storage shelf is unplugged or turned off.
2
Service Required: amber
■ Off – Normal operation.
■ Steady on – A fault is present in the storage shelf.
3
Locate: white
■ Off – Normal operation.
■ Fast blink – This LED blinks to help locate the system. Operators
can turn this indicator on and off remotely using Oracle ILOM.
■ Pressing this button toggles the fast blink on or off.
4
Drive Service Required: amber
■ Off – Normal operation.
■ Steady on – A fault is present in the disk drive.
5
Power/Activity: green
■ On – The drive is installed and recognized by the system but
there is no drive activity.
■ Blink – The LED blinks randomly in response to data being
written to or read from the drive.
■ Off – The drive is powered off or the installed drive is not
recognized by the system.
Storage Shelf Back Panel Indicators
The following figure shows the controls and indicators on the storage shelf back panel and
drives.
Chapter 1 • Overview of System Status Indicators and LEDs
13
Oracle Database Appliance X3-2/X4-2 Status Indicators
Callout
Indicator/LED: Color
State Meaning
1
AC power fault indicator: amber
■ On – Indicates an AC power fault.
■ Off – Normal operation.
2
Power supply status indicator:
green
■ On – The power supply is operating normally.
■ Off – The power supply is unplugged or turned off.
3
Fan fail indicator: amber
■ On – The fan is faulty.
■ Off – Normal operation.
4
DC power fail indicator: amber
■ On – The power supply is faulty.
■ Off – Normal operation.
5
SAS I/O Module status
indicators: green or amber
■ OK – Lights green to indicate normal operation.
■ Service Required – Lights amber to indicate a fault with the I/O
module (top module is 0; bottom module is 1).
6
Reserved
This port is reserved for Oracle Service.
7
Network port (reserved)
This port is reserved for Oracle Service.
8
Host SAS port activity indicators
(x4 per port): green
Lights green to indicate host SAS link activity.
Oracle Database Appliance X3-2/X4-2 Status Indicators
This section describes the status indicators for Oracle Database Appliance X3-2 and Oracle
Database Appliance X4-2.
■
■
“Server Node Status Indicators” on page 14
“Storage Shelf Status Indicators” on page 15
Server Node Status Indicators
These topics describe Oracle Database Appliance X3-2 and Oracle Database Appliance X4-2
server node status indicators (LEDs).
Note - The links in the following table take you to topics outside of the Oracle Database
Appliance library to the Sun Server X3-2 and Sun Server X4-2 documentation libraries. Use
your browser's Back button to return to the Oracle Database Appliance library.
14
ODA X3-2
ODA X4-2
Server Node General Status Indicators
Server Node General Status Indicators
Server Node Fan Status Indicators
Server Node Fan Status Indicators
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance X3-2/X4-2 Status Indicators
ODA X3-2
ODA X4-2
Server Node Storage Drive Status Indicators
Server Node Storage Drive Status Indicators
Server Node Power Supply Status Indicators
Server Node Power Supply Status Indicators
Server Node Motherboard Status Indicators
Server Node Motherboard Status Indicators
Storage Shelf Status Indicators
Storage shelves are supported with Oracle Database Appliance X3-2/X4-2. They include
controls and indicators on the front panel, hard drives, SSD drives, power supplies, and SAS I/
O modules.
Storage Shelf Front Panel and Drive Indicators
The following figure shows the controls and indicators on the storage shelf front panel and
drives.
Callout
Indicator/LED: Color
State Meaning
1
OK: green
■ On – The storage shelf is powered on and operating normally.
■ Off – The storage shelf is unplugged or turned off.
2
Service Required: amber
■ Off – Normal operation.
Chapter 1 • Overview of System Status Indicators and LEDs
15
Oracle Database Appliance X3-2/X4-2 Status Indicators
Callout
Indicator/LED: Color
State Meaning
3
Locate: white
■ Off – Normal operation.
■ Fast blink – This LED blinks to help locate the system. Operators
can turn this indicator on and off remotely using Oracle ILOM.
■ Pressing this button toggles the fast blink on or off.
4
Drive Service Required: amber
■ Off – Normal operation.
■ Steady on – A fault is present in the disk drive.
5
Power/Activity: green
■ On – The drive is installed and recognized by the system but
there is no drive activity.
■ Blink – The LED blinks randomly in response to data being
written to or read from the drive.
■ Off – The drive is powered off or the installed drive is not
recognized by the system.
■ Steady on – A fault is present in the storage shelf.
Storage Shelf Back Panel Indicators
The following figure shows the controls and indicators on the storage shelf back panel and
drives.
16
Callout
Indicator/LED: Color
State Meaning
1
AC power fault indicator: amber
■ On – Indicates an AC power fault.
■ Off – Normal operation.
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance (Original Version) Status Indicators
Callout
Indicator/LED: Color
State Meaning
2
Power supply status indicator:
green
■ On – The power supply is operating normally.
■ Off – The power supply is unplugged or turned off.
3
Fan fail indicator: amber
■ On – The fan is faulty.
■ Off – Normal operation.
4
DC power fail indicator: amber
■ On – The power supply is faulty.
■ Off – Normal operation.
5
SAS I/O Module status
indicators: green or amber
■ OK – Lights green to indicate normal operation.
■ Service Required – Lights amber to indicate a fault with the I/O
module (top module is 0; bottom module is 1).
6
Reserved
This port is reserved for Oracle Service.
7
Network port (reserved)
This port is reserved for Oracle Service.
8
Host SAS port activity indicators
(x4 per port): green
Lights green to indicate host SAS link activity.
Oracle Database Appliance (Original Version) Status
Indicators
This section describes the status indicators for the original version Oracle Database Appliance.
■
■
■
■
■
■
■
“Server Node Status Indicators” on page 17
“Server Node Fan Indicators” on page 20
“Storage and Boot Drive Status Indicators” on page 21
“Power Supply Status Indicators” on page 21
“Rear Server Node Status Indicators” on page 22
“Server Node Internal LEDs” on page 24
“Ethernet Port Indicators” on page 25
Server Node Status Indicators
The following table lists and describes the general status indicators on the front and rear panel
of each Oracle Database Appliance (original version) server node.
Chapter 1 • Overview of System Status Indicators and LEDs
17
Oracle Database Appliance (Original Version) Status Indicators
Callout
Indicator/LED: Color
State Meaning
1
Locate button/LED: white
■ Off – Normal operation.
■ Fast blink – This LED blinks to help locate the system. Operators
can turn this indicator on and off remotely using Oracle ILOM.
■ Pressing this button toggles the fast blink on or off. It is also used
to prove physical presence.
■ Indicator Test Mode – Push and hold the Locate button for 5
seconds to activate the push to test feature, which causes all
LEDs except disk activity and power supply LEDs to light for 15
seconds.
2
SP OK/Fault: bi-color
■ Off – No power is supplied to the SP or it is not functional.
■ Amber – When lit indicates an SP fault.
■ Green – When steady on indicates that Oracle ILOM is fully
functional. If blinking, POST diagnostics are running, Oracle
ILOM is booting, or firmware is updating.
Note - The amber LED indicates the status of the watchdog timer.
The watchdog timer runs continuously, but it times out if it is not
18
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance (Original Version) Status Indicators
Callout
Indicator/LED: Color
State Meaning
reset by Oracle ILOM. If it times out, the amber LED is lit and the
green LED is extinguished.
3
Ready to Remove: blue
■ Off – Normal operation.
■ Fast Blink – The system is preparing a customer-replaceable
unit (CRU) (disk drive, fan module, or power supply) for safe
removal but it is not ready yet.
■ Steady on – The CRU can be safely removed.
4
Service Required: amber
■ Off – Normal operation.
■ Steady on – A fault is present in system or a subsystem within the
chassis.
5
Power/OK: green
This LED indicates the operational state of the chassis. This LED can
be in the following states:
■ Off – AC power is not present or the Oracle ILOM boot has not
completed.
■ Standby blink – Standby power is on and Oracle ILOM can be
accessed, but full chassis power is off. The LED blinks at a 10
percent duty cycle (0.1 second on, 2.9 seconds off), that is, the
light is on for a very short period of time.
■ Slow blink – The startup sequence has been initiated on the host.
The LED blinks at a 50 percent duty cycle, which is noticeably
longer than the STANDBY BLINK. This pattern should begin
immediately following powering on the system. This status
indicates either 1) power-on self-test (POST) diagnostics running
on system host or 2) the host is transitioning from the poweredon state to the standby state on shutdown.
■ Steady on – The system is powered on and all host POST
tests passed. The system is one of the following states: 1) the
system host is ready to boot, or 2) the system host is booting the
operating system (OS), or 3) the system host is running the OS.
6
Over temperature: amber
■ Off – Normal operation.
■ Steady on – The system is experiencing an over-temperature
warning condition.
Note - This is a warning indication, not a fatal over temperature.
Failure to correct this can result in the system over heating and
shutting down.
7
Rear Component Failure: amber
■ Off – Normal operation.
■ Steady on – The system has detected a power supply fault, a fan
fault, or a rear 2.5-inch disk drive fault.
This fault condition is associated with chassis components located in
the rear of the chassis. This fault might be caused by:
■ Power supply failure (AC fault, 12V/3.3Vaux fault, or power
supply fan fault)
■ Rear fan failure
■ Rear 2.5-inch disk failure
Chapter 1 • Overview of System Status Indicators and LEDs
19
Oracle Database Appliance (Original Version) Status Indicators
Server Node Fan Indicators
Each fan module for Oracle Database Appliance (original version) has a single bi-colored LED
indicating both fan OK and fan fault conditions. The LED lights green to indicate that the fan
module is properly plugged into the system and operating within the expected RPM range for a
given power management setting. The LED lights amber to indicate a fan fault.
Note - The LEDs on the fan modules are not lit amber on initial system power-on. The fan
amber LED only lights if Oracle ILOM detects a failure that indicates a faulty fan module or a
missing fan that should be installed.
20
Indicator/LED: Color
State Meaning
OK: green
■ Steady on – The fan is functioning normally.
■ Off – Chassis 3.3V_Standby power is off or there is a fan fault.
Service Required: amber
■ Off – Normal operation.
■ Steady on – A fault has been detected with the fan.
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance (Original Version) Status Indicators
Indicator/LED: Color
State Meaning
Note - The front and rear panel Service Required LEDs are also lit if the system
detects a fan module fault.
Storage and Boot Drive Status Indicators
Each storage drive for Oracle Database Appliance (original version) includes three LEDs. They
are the same on the front storage drives and the rear-mounted boot drives. See the following
table.
Callout
Indicator/LED: Color
State Meaning
1
Ready to Remove: blue
■ Off – Normal operation.
■ Fast blink – The system is preparing a disk drive for safe removal
but it is not ready yet.
■ Steady on – The disk drive can be safely removed.
2
Service Required: amber
■ Off – Normal operation.
■ Steady on – A fault is present in the disk drive.
3
OK/Activity: green
■ On – The drive is installed and recognized by the system but
there is no drive activity.
■ Blink – The LED blinks randomly in response to data being
written to or read from the drive.
■ Off – The drive is powered off or the installed drive is not
recognized by the system.
Power Supply Status Indicators
There are three status LEDs on each power supply for Oracle Database Appliance (original
version), as shown in the following table.
Chapter 1 • Overview of System Status Indicators and LEDs
21
Oracle Database Appliance (Original Version) Status Indicators
Callout
Indicator/LED: Color
State Meaning
1
OK: green
■ On – The power supply is operating normally.
■ Off – The power supply is unplugged or turned off.
2
Service Required: amber
■ On – The power supply is faulty. The front REAR PS LED and
the front and rear panel Service Required LEDs are also lit if the
system detects a power supply fault.
■ Off – Normal operation.
3
AC Present: green
■ On – The power supply is plugged in and AC power is available,
regardless of system power state.
■ Off – The power supply is unplugged or turned off.
Rear Server Node Status Indicators
Each server node in Oracle Database Appliance (original version) has four summary status
LEDs that are located on its back panel, as shown in the following table.
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Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance (Original Version) Status Indicators
Callout
Indicator/LED: Color
State Meaning
1
Locate: white
■ Off – Normal operation.
■ Fast blink – This LED blinks to help locate the system. Operators
can turn this indicator on and off remotely using Oracle ILOM.
■ Pressing this button toggles the fast blink on or off.
■ Indicator Test Mode – Push and hold the Locate button for 5
seconds to activate the push to test feature, which causes all
LEDs except disk activity and power supply LEDs to light for 15
seconds.
2
Ready to Remove: blue
■ Off – Normal operation.
■ Fast Blink – The system is preparing a customer-replaceable
unit (CRU) (disk drive, fan module, or power supply) for safe
removal but it is not ready yet.
■ Steady on – The CRU can be safely removed.
3
Service Required: amber
■ Off – Normal operation.
■ Steady on – A fault is present in system or a subsystem within the
chassis.
4
Power/OK: green
This LED indicates the operational state of the chassis. This LED can
be in the following states:
■ Off – AC power is not present or the Oracle ILOM boot has not
completed.
■ Standby blink – Standby power is on and Oracle ILOM can be
accessed, but full chassis power is off. The LED blinks at a 10
percent duty cycle (0.1 second on, 2.9 seconds off), that is, the
light is on for a very short period of time.
■ Slow blink – The startup sequence has been initiated on the host.
The LED blinks at a 50 percent duty cycle, which is noticeably
longer than the STANDBY BLINK. This pattern should begin
immediately following powering on the system. This status
indicates either 1) power-on self-test (POST) diagnostics running
Chapter 1 • Overview of System Status Indicators and LEDs
23
Oracle Database Appliance (Original Version) Status Indicators
Callout
Indicator/LED: Color
State Meaning
on system host or 2) the host is transitioning from the poweredon state to the standby state on shutdown.
■ Steady on – The system is powered on and all host POST
tests passed. The system is one of the following states: 1) the
system host is ready to boot, or 2) the system host is booting the
operating system (OS), or 3) the system host is running the OS.
Server Node Internal LEDs
The following section describes the internal LEDs for Oracle Database Appliance (original
version). Each server node contains the following internal LEDs:
Note - A super capacitor (located on the motherboard) provides power to light the server node
fault LEDs for up to 15 minutes after the server node is removed from a powered-on system
chassis. After approximately 15 minutes, the capacitor discharges enough so that it cannot light
the fault LEDs.
■
Fault Remind Power Good LED.
This green LED lights each time the Fault Remind button is pressed, if the capacitor has
enough of a charge to light the fault LEDs. This LED is located next to the Fault Remind
button.
■
For the location of Fault Remind button and the Fault Remind Power Good LED, see
“Remove Faulty DIMMs” on page 65.
Memory DIMM Fault LEDs
Each DIMM slot has an adjacent DIMM fault LED. If a DIMM fails, the adjacent LED
lights when the Fault Remind button is pressed.
■
For the location of Fault Remind button and the DIMM fault LEDs, see “Remove Faulty
DIMMs” on page 65.
CPU Fault LEDs
Both CPUs have an associated CPU fault LED. If a CPU fails, the associated LED lights
when the Fault Remind button is pressed.
■
For the location of CPU fault LEDs, see “Remove Processor (CPU)” on page 97.
Ethernet Port LEDs
Each server node has two host Ethernet ports (NET0 and NET1) and an SP network
management port (NET MGT). Each of these has two LEDs that indicate link activity and
port speed. See “Ethernet Port Indicators” on page 25.
24
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance (Original Version) Status Indicators
Ethernet Port Indicators
Each server node in Oracle Database Appliance (original version) has two host Ethernet ports
(NET0 and NET1) and an SP network management port (NET MGT). Each of these has two
LEDs that indicate link activity and port speed.
Callout
Indicator/LED: Color
State Meaning
1
Link Activity: green
Lights to indicate link activity.
2
Link Speed: bi-colored
Green – Link established at fastest speed.
Amber – Link established at next fastest speed or slower speeds.
Off – Link at slowest speed, which is 10 Mbps.
Chapter 1 • Overview of System Status Indicators and LEDs
25
26
Oracle Database Appliance Service Manual • March 2015
2
♦ ♦ ♦ C H A P T E R 2 Preparing Oracle Database Appliance for
Service
This chapter describes how to prepare Oracle Database Appliance for servicing.
It includes the following topics:
■
■
“Preparing Oracle Database Appliance X3-2/X4-2/X5-2 for Service” on page 27
“Preparing Oracle Database Appliance (Original Version) for Service” on page 28
Preparing Oracle Database Appliance X3-2/X4-2/X5-2 for
Service
This section describes preparing Oracle Database Appliance X3-2, Oracle Database Appliance
X4-2, and Oracle Database Appliance X5-2 for service. If you have Oracle Database Appliance
(original version), go to “Preparing Oracle Database Appliance (Original Version) for
Service” on page 28.
Most service procedures are performed on a single appliance component. Service procedures
that require a single server node to be powered off can be performed without shutting down the
entire appliance. Before powering off any component for service, refer to the Getting Started
Guide or Administration and Reference Guide for any special instructions or commands that
must be performed on the appliance to prepare it for service.
Note - The links in the following table take you to instructions outside of the Oracle Database
Appliance library to the Sun Server X3-2, Sun Server X4-2, and Oracle Server X5-2
documentation libraries. Use your browser's Back button to return to the Oracle Database
Appliance library.
ODA X3-2
ODA X4-2
ODA X5-2
Safety Precautions
Safety Precautions
Safety Precautions
Safety Symbols
Safety Symbols
Safety Symbols
Chapter 2 • Preparing Oracle Database Appliance for Service
27
Preparing Oracle Database Appliance (Original Version) for Service
ODA X3-2
ODA X4-2
ODA X5-2
Electrostatic Discharge Safety
Electrostatic Discharge Safety
Electrostatic Discharge Safety
Required Tools
Required Tools
Required Tools
Powering Down the Server
Powering Down the Server
Powering Down the Server
Disconnect Cables From the
Server
Disconnect Cables From the
Server
Disconnect Cables From the
Server
Extend the Server to the
Maintenance Position
Extend the Server to the
Maintenance Position
Extend the Server to the
Maintenance Position
Remove the Server From the Rack
Remove the Server From the Rack
Remove the Server From the Rack
Take Antistatic Measures
Take Antistatic Measures
Take Antistatic Measures
Remove the Server Top Cover
Remove the Server Top Cover
Remove the Server Top Cover
Preparing Oracle Database Appliance (Original Version) for
Service
This chapter describes how to prepare Oracle Database Appliance (original version) for
servicing. If you have Oracle Database Appliance X3-2, Oracle Database Appliance X4-2, or
Oracle Database Appliance X5-2, go to “Preparing Oracle Database Appliance X3-2/X4-2/X5-2
for Service” on page 27.
■
■
■
■
■
■
■
■
■
“Component Replacement Policy – CRUs and FRUs” on page 28
“Safety Information” on page 30
“Required Tools ” on page 30
“Obtaining the Chassis Serial Number” on page 30
“Shutting Down a Server Node and Powering Off the System” on page 31
“Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34
“Removing Server Nodes From the System Chassis” on page 34
“Removing the Server Node Top Cover” on page 35
“Removing the Middle Section of the System Top Cover” on page 36
Component Replacement Policy – CRUs and FRUs
The replaceable components in your Oracle Database Appliance (original version) are
designated as either field-replaceable units (FRUs) or customer-replaceable units (CRUs). Some
can be replaced with the power on, some require the powering off of a server node, and some
require the powering off of the entire system chassis.
■
28
A part designated as a FRU must be replaced by Oracle-qualified service technician.
Oracle Database Appliance Service Manual • March 2015
Preparing Oracle Database Appliance (Original Version) for Service
■
A part designated as a CRU can be replaced by a person who is not an Oracle-qualified
service technician.
The following table lists replaceable components, their service designation (CRU or FRU), and
the system power policy related to servicing the component.
Component
Policy
Storage drives and boot drives
(CRU)
Hot-swappable – Can be removed and replaced when the system is powered
on.
Fan modules (CRU)
Hot-swappable – Can be removed and replaced when the system is powered
on.
Power supplies (CRU)
Hot-swappable – Can be removed and replaced when the system is powered
on.
Air duct (FRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
DIMMs (CRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
PCIe risers (CRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
PCIe cards (CRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
Boot disk backplane (FRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
Server node battery (CRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
Processors (CPUs) (FRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
Motherboard (FRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
Server node internal cables (FRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
Power distribution board (FRU)
Cold service, system chassis – Servicing this component requires that the
power be completely removed from the system chassis (both server nodes
powered off).
Disk midplane module (FRU)
Cold service, system chassis – Servicing this component requires that the
power be completely removed from the system chassis (both server nodes
powered off).
Disk midplane module HDD cable
(FRU)
Cold service, server node – Can only be removed and replaced when the
server node is powered off. The other server node and the system chassis can
remain on.
Chapter 2 • Preparing Oracle Database Appliance for Service
29
Preparing Oracle Database Appliance (Original Version) for Service
Component
Policy
Front indicator panels (FRU)
Cold service, system chassis – Servicing this component requires that the
power be completely removed from the system chassis (both server nodes
powered off).
Safety Information
This section provides important safety information. Read it before servicing Oracle Database
Appliance.
Caution - Hazardous voltage present. Never run the system with the top cover removed.
Caution - Equipment damage. Install the system top cover properly before starting the system.
For your protection, observe the following safety precautions when setting up your equipment:
■
■
■
Follow all cautions, warnings, and instructions marked on the equipment and described in
Important Safety Information for Sun Hardware Systems and Oracle Database Appliance
Safety and Compliance Guide.
Ensure that the voltage and frequency of your power source match the voltage and
frequency inscribed on the equipment's electrical rating label.
Follow the electrostatic discharge safety practices as described in this chapter.
Required Tools
Oracle Database Appliance can be serviced with the following tools:
■
■
■
■
■
Antistatic wrist strap
Antistatic mat
No. 2 10-inch Phillips screwdriver (magnetic tip recommended)
Flat blade screwdriver
Stylus or pencil (to press the Clear CMOS button)
Obtaining the Chassis Serial Number
To obtain support for Oracle Database Appliance (original version), you need to report your
product serial number. The product serial number is located on an RFID tag on the front of the
system and on the Customer Information Sheet that is included with the system.
30
Oracle Database Appliance Service Manual • March 2015
Shut Down a Server Node
Shutting Down a Server Node and Powering Off
the System
You can shut down either Oracle Database Appliance (original version) server node using the
front panel power button, or Oracle ILOM. Each method provides a graceful shutdown and an
emergency shutdown option.
Caution - Data loss. To avoid data loss and file system corruption, always use a graceful
shutdown unless it is an emergency.
Note - To use Oracle ILOM to shut down a server node, ensure that you have performed its
initial configuration as described in "Connecting and Configuring Oracle ILOM" in the Oracle
Database Appliance Getting Started Guide.
After you have shut down the server nodes, you can power off the system.
See the following topics in this section to shut down a server node and power off the system
chassis:
■
■
“Shut Down a Server Node” on page 31
“Power Off the System” on page 33
Shut Down a Server Node
You must shut down the server node before you remove it from the system chassis.
1.
To shut down a server node using the power button, perform one of the
following:
■
■
Graceful shutdown: Press and release the recessed Power button on the lower left-hand
corner of the server node's front panel (see the following figure [1]). This causes Advanced
Configuration and Power Interface (ACPI) to perform an orderly shutdown of the system.
Emergency shutdown: Press and hold the recessed Power button on the lower left-hand
corner of the server node's front panel for at least five seconds until the main power is off
and the server node enters standby power mode (see the following figure [1]).
Caution - Data loss. To avoid data loss and file system corruption, always use a graceful
shutdown unless it is an emergency.
When the server node is shut down, the Power/OK LED [2] on the server node's front panel
flashes, indicating that the server node is in standby power mode.
Chapter 2 • Preparing Oracle Database Appliance for Service
31
Shut Down a Server Node
2.
To shut down a server node using the Oracle ILOM, perform one of the following:
■
Using the Oracle ILOM web interface:
a. Open a browser and enter the server node's service processor IP
address in the browser's address field.
b. At the log in page, type a user name (the account must have Reset and
Host Control (r) privileges) and password, and click the Log In button.
c. Go to Remote Power Control and do one of the following:
■
■
Select Graceful Shutdown and Power Off from the Select Action list box and
then click Save and OK.
The server node shuts down gracefully.
Select Immediate Power Off from the Select Action list box and then click Save
and OK.
The server node shuts down immediately.
Caution - Data loss. To avoid data loss and file system corruption, use graceful shutdown
unless it is an emergency.
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Oracle Database Appliance Service Manual • March 2015
Power Off the System
■
Using the Oracle ILOM CLI:
a. Log in to Oracle ILOM using an ssh client. Type:
$ssh [email protected]_ip_address
Where username is a user account name with Reset and Host Control (r) privileges
and sp_ip_address is the IP address of the server node service processor.
b. When prompted, enter the user account password.
c. Enter the command to shut down the server node:
■
For a graceful shutdown, type:
-> stop /SYS
■
The server node shuts down gracefully.
For an emergency shutdown, type:
-> stop -f /SYS
The server node shuts down immediately.
Caution - Data loss. To avoid data loss and file system corruption, use graceful shutdown
unless it is an emergency.
Power Off the System
The appliance database must be shut down before powering off the system chassis.
1.
Shut down both server nodes.
Shutting down both server nodes places the system in standby power mode.
See “Shut Down a Server Node” on page 31.
2.
Disconnect the AC power cords from the system.
Disconnecting the power cords from the system removes all power from the system.
Chapter 2 • Preparing Oracle Database Appliance for Service
33
Remove a Server Node From the System Chassis
Performing Electrostatic Discharge and Antistatic
Prevention Measures
Electrostatic discharge (ESD) sensitive devices, such as the motherboards, PCIe cards, storage
drives, and memory cards, require special handling.
Caution - Equipment damage. Follow antistatic precautions and do not touch the components
along their connector edges.
When handling components such as storage drive assemblies, circuit boards, or PCIe cards:
■
Attach an antistatic strap to your wrist and then to a metal area on the chassis. Following
this practice equalizes the electrical potential between you and the system.
Note - An antistatic wrist strap is not included in the system Accessory Kit. However, antistatic
wrist straps are included with some options and components.
■
Place ESD-sensitive components on an antistatic mat. The following items can be used as
an antistatic mat:
■
■
■
Antistatic bag used to wrap a replacement part
ESD mat
Disposable ESD mat (shipped with some replacement parts or optional system
components)
Removing Server Nodes From the System Chassis
You must remove the Oracle Database Appliance (original version) server node from the
chassis to remove or replace internal server node components.
Remove a Server Node From the System Chassis
The removal procedure is the same for both server nodes. Note that you do not need to remove
the entire system chassis from the rack to perform service procedures on a server node.
Note - Replacing a server node FRU with a new server node is a service activity that must be
performed by an Oracle-qualified service technician. The customer may remove the server node
to service other CRU components in the server node.
34
Oracle Database Appliance Service Manual • March 2015
Remove the Server Node Top Cover
1.
Shut down the server node.
See “Shut Down a Server Node” on page 31.
Caution - Data loss. To avoid data loss and file system corruption, always use a graceful
shutdown unless it is an emergency.
2.
To unseat the server node from the system chassis, pull the two latches on the
rear of the server node down [1].
The latches are marked by green tabs. Pull the latches down and away from the rear to the
system.
3.
Slide the server node to the rear and lift it out of the system [2].
Removing the Server Node Top Cover
To gain access to a most of Oracle Database Appliance (original version) server node's internal
components, you must remove the server node's top cover.
Remove the Server Node Top Cover
1.
Remove the server node from the system chassis.
See “Shut Down a Server Node” on page 31.
Chapter 2 • Preparing Oracle Database Appliance for Service
35
Remove the Middle Section of System Top Cover
2.
Remove the top cover.
a. To unlatch the server node top cover, press and hold the green release
button on the top of the server node cover [1].
b. Using the indented area near the green release button, slide the cover
toward the front of the server node about 0.5 inches (12.7 mm) [1].
c. Lift the cover up and remove it [2].
Removing the Middle Section of the System Top
Cover
To gain access to the Oracle Database Appliance (original version) power distribution board
and the disk midplane board you must remove the middle section of the system's top cover.
Remove the Middle Section of System Top Cover
1.
Power down the server nodes and remove the power cords from the power
supplies.
For instructions, see “Shut Down a Server Node” on page 31.
Caution - System fault. Do not remove the middle section of the system cover while the AC
power cords are connected. Otherwise the fault LEDs light and a system fault is logged.
2.
36
Remove the middle section of the system top cover.
Oracle Database Appliance Service Manual • March 2015
Remove the Middle Section of System Top Cover
To remove the middle section of the system's top cover, remove the captive Phillips screws that
secure it to the system.
Caution - Hazardous voltage present. Never run the system with the middle section of the
system top cover removed.
Caution - Equipment damage. Install the system top cover properly before starting the system.
Chapter 2 • Preparing Oracle Database Appliance for Service
37
38
Oracle Database Appliance Service Manual • March 2015
3
♦ ♦ ♦ C H A P T E R 3 Servicing CRUs That Do Not Require System
Power Off
This chapter describes how to remove and replace the hot-swappable components in Oracle
Database Appliance. Hot-swappable means that these components can be replaced with the
system powered on.
Note - Hot-swappable components can also be replaced with the system powered off. If you
choose this method, first power off the system as described in Chapter 2, “Preparing Oracle
Database Appliance for Service”.
The following topics are covered:
■
■
■
“Oracle Database Appliance X3-2/X4-2/X5-2 Server Node Hot-Swappable
Components” on page 39
“Oracle Database Appliance X3-2/X4-2/X5-2 Storage Shelf Hot-Swappable
Components” on page 40
“Oracle Database Appliance (Original Version) Hot-Swappable
Components” on page 47
Oracle Database Appliance X3-2/X4-2/X5-2 Server Node HotSwappable Components
This section describes replacing hot-swappable components for the Oracle Database Appliance
X3-2, Oracle Database Appliance X4-2, and Oracle Database Appliance X5-2 for service. If
you have Oracle Database Appliance (original version), go to “Oracle Database Appliance
(Original Version) Hot-Swappable Components” on page 47.
Hot-swappable components are those that can be removed and installed while the system and
the server nodes are running without requiring any administrative tasks. These are designated as
Customer Replaceable Units (CRUs).
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
39
Oracle Database Appliance X3-2/X4-2/X5-2 Storage Shelf Hot-Swappable Components
Refer to the following table for hot-swap component instructions for your appliance.
Note - The links in the following table take you to instructions outside of the Oracle Database
Appliance library to the Sun Server X3-2, Sun Server X4-2, and Oracle Server X5-2
documentation libraries. Use your browser's Back button to return to the Oracle Database
Appliance library.
ODA X3-2
ODA X4-2
ODA X5-2
Servicing Storage Drives (CRU)
Servicing Storage Drives (CRU)
Servicing Storage Drives (CRU)
Servicing Fan Modules (CRU)
Servicing Fan Modules (CRU)
Servicing Fan Modules (CRU)
Servicing Power Supplies (CRU)
Servicing Power Supplies (CRU)
Servicing Power Supplies (CRU)
Oracle Database Appliance X3-2/X4-2/X5-2 Storage Shelf
Hot-Swappable Components
This section describes replacing hot-swappable components for the Oracle Database Appliance
X3-2, Oracle Database Appliance X4-2, and Oracle Database Appliance X5-2 for service. If
you have Oracle Database Appliance (original version), go to “Oracle Database Appliance
(Original Version) Hot-Swappable Components” on page 47.
Hot-swappable components are those that can be removed and installed while the system and
the server nodes are running without requiring any administrative tasks. These are designated as
Customer Replaceable Units (CRUs).
Caution - Data loss. Do not remove power from both power supplies of the storage shelf or
storage expansion shelf (if equipped) while the database is running. If you must power off the
storage shelf or expansion storage shelf, stop the database first.
Note - After a physical insertion or removal action of a storage shelf component (such as a disk
or SAS cable), you should wait before performing the next action to allow the system software
to fully process the event. This could take up to 3 minutes to complete.
Replacement Procedures (CRU)
Oracle Database Appliance X3-2/X4-2 (DE2-24P) and Oracle Database Appliance X5-2
(DE2-24C) storage shelf components can all be replaced while the storage shelf is powered-on
and running. They include:
40
Oracle Database Appliance Service Manual • March 2015
Replace a Storage Shelf HDD or SSD
■
■
■
“Replace a Storage Shelf HDD or SSD” on page 41
“Replace a Storage Shelf Power Supply” on page 43
“Replace a Storage Shelf I/O Module” on page 45
Replace a Storage Shelf HDD or SSD
1.
Locate the failed drive on the front of the chassis.
Caution - Equipment damage. Do not remove a drive unless you have an immediate
replacement.
2.
Press the latch to release the drive lever.
3.
Pull the drive lever to the open position.
4.
Grasp the middle of the drive body and pull it toward you to remove it from the
chassis.
Example showing the DE2-24P:
Example showing the DE2-24C:
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
41
Replace a Storage Shelf HDD or SSD
5.
Open the drive lever on the replacement drive.
6.
While constantly pushing toward the pivot point of the lever, slide the drive fully
into the chassis slot.
Example showing the DE2-24P:
Example showing the DE2-24C:
42
Oracle Database Appliance Service Manual • March 2015
Replace a Storage Shelf Power Supply
Replace a Storage Shelf Power Supply
The storage shelf and the storage expansion shelf each have two power supplies. Indicators
(LEDs) on the power supplies indicate their operation state.
The power supplies are redundant and one can be replaced while the appliance is running.
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
43
Replace a Storage Shelf Power Supply
Callout
Description
1
Fan fail indicator
2
AC power fail indicator
3
Power supply status indicator
4
DC power fail indicator
5
On/Off switch
6
AC connector
If any of the LEDs [1 - 4] are amber, or if the power supply status indicator does not light,
replace the power supply.
1.
Ensure the power supply on/off switch is in the "O" off position.
2.
Disconnect the power cord tie strap from the power cord, and unplug the power
cord from the power supply.
3.
Release the lever/ejection arms.
4.
Pull the power supply module out of the chassis.
5.
Open the lever/ejection arms on the replacement power supply.
6.
Slide the replacement power supply module into the chassis.
Be careful to not bend the pins.
44
Oracle Database Appliance Service Manual • March 2015
Replace a Storage Shelf I/O Module
7.
Close the lever/ejection arms.
Push the lever fully closed until you hear or feel a click.
Replace a Storage Shelf I/O Module
Storage Shelf SAS I/O modules are fully redundant and can be replaced while the appliance is
running.
1.
Disconnect the cables from the I/O module.
Be sure to mark the cables so you can return them to their proper connectors.
Example showing the DE2-24P:
Example showing the DE2-24C:
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
45
Replace a Storage Shelf I/O Module
Callout
Description
1
I/O module 1 (top)
2
I/O module 0 (bottom)
2.
Using your thumb and forefinger, squeeze the release button [1] toward the lever
hole to release the lever [2].
3.
Grasp the lever and remove the I/O module.
Caution - Equipment damage. Be careful not to damage the connector pins at the back of the
I/O module.
4.
Open the lever in the new I/O module if it is not already open.
5.
Slide the new I/O module into the disk shelf.
6.
Reconnect the cables.
7.
Verify that the new I/O module is working correctly.
■
■
46
After approximately 60 seconds, the power LED should be solid green and the Fault/Locate
LED should be off.
For each port that has a cable connected, all four activity LEDs should be solid green.
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance (Original Version) Hot-Swappable Components
Oracle Database Appliance (Original Version) HotSwappable Components
This section describes replacing hot-swappable components for the Oracle Database Appliance
(original version) for service. If you have Oracle Database Appliance X3-2, Oracle Database
Appliance X4-2, or Oracle Database Appliance X5-2, go to “Oracle Database Appliance X3-2/
X4-2/X5-2 Server Node Hot-Swappable Components” on page 39 or “Oracle Database
Appliance X3-2/X4-2/X5-2 Storage Shelf Hot-Swappable Components” on page 40.
Hot-swappable components are those that can be removed and installed while the system and
the server nodes are running without requiring any administrative tasks.
Note - After a physical insertion or removal action of a storage shelf component (such as a disk
or SAS cable), you should wait before performing the next action to allow the system software
to fully process the event. This could take up to 3 minutes to complete.
In Oracle Database Appliance (original version), the following devices are hot-swappable:
■
■
■
Storage and Boot Drives. See “Servicing Storage Drives and Boot Drives
(CRU)” on page 47.
Fan modules. See “Servicing Fan Modules (CRU)” on page 53.
Power supplies. See “Servicing Power Supplies (CRU)” on page 56.
Servicing Storage Drives and Boot Drives (CRU)
Oracle Database Appliance (original version) has 24 storage drives, located in the front of the
chassis, and each server node has 2 boot drives, located in the rear. All storage drives and boot
drives are hot-swappable.
See “Storage and Boot Drive Status Indicators” on page 21 for specific information about drive
status LEDs.
This section includes:
■
■
■
■
■
“Storage and Boot Drive Locations” on page 48
“Remove a Storage Drive” on page 49
“Install Storage Drive” on page 50
“Remove a Boot Drive” on page 51
“Install a Boot Drive” on page 52
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
47
Oracle Database Appliance (Original Version) Hot-Swappable Components
Storage and Boot Drive Locations
Appliance storage drives. Appliance storage drives are installed at the front of Oracle
Database Appliance (original version). Drive numbering is listed on the drive label on the right
side of the appliance [1].
The following table shows slot numbering and the type of the storage drive supported in each
slot.
Note - The appliance might include both mechanical hard disk (HDD) and solid state (SSD)
drives. Both use the same 2.5 inch disk drive bracket. An SSD has a smaller footprint inside of
the bracket than an HDD.
Drive Slot Numbers and
Types Supported
Drive Slot Numbers and
Types Supported
Drive Slot Numbers and
Types Supported
Drive Slot Numbers and
Types Supported
SSD20
SSD21
SSD22
SSD23
HDD16
HDD17
HDD18
HDD19
HDD12
HDD13
HDD14
HDD15
HDD8
HDD9
HDD10
HDD11
HDD4
HDD5
HDD6
HDD7
HDD0
HDD1
HDD2
HDD3
Server Node boot drives. Each appliance server node contains two boot drives that are
installed in the back of Oracle Database Appliance and identified on the rear drive panel label.
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The following table shows the location and numbering of the boot drives.
Callout
Drive Locations and Identification
1
Boot Drives at the back of server node 1. Location and identification of the server node 1 boot drives as
listed in Oracle ILOM:
■ /SYS/MB/RHDD1
■ /SYS/MB/RHDD0
2
Boot Drives at the back of server node 0. Location and identification of the server node 0 boot drives as
listed in Oracle ILOM:
■ /SYS/MB/RHDD1
■ /SYS/MB/RHDD0
Remove a Storage Drive
1.
Identify the storage drive that you want to remove.
If a drive has failed, its amber Service Required LED will be lit. For information on drive status
LEDs, see “Storage and Boot Drive Status Indicators” on page 21. For specific drive locations,
see “Storage and Boot Drive Locations” on page 48.
2.
Remove a storage drive.
a. On the drive you plan to remove, push the storage drive release button to
open the latch [1].
b. Grasp the latch and open it to a 45 degree angle [2].
c. Using the latch, slowly pull the drive straight out of the drive slot, not
sideways or vertically.
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
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Install Storage Drive
Do not use much force on the latch when removing the drive.
Caution - Equipment damage. Do not use the latch as an ejector. Do not bend it too far to the
right.
Caution - Equipment damage. Always replace a drive with another drive to maintain proper
airflow.
Install Storage Drive
1.
Determine the drive slot location for the replacement drive.
Drives are physically addressed according to the slot in which they are installed. See “Storage
and Boot Drive Locations” on page 48 for drive locations.
2.
50
Slide the drive into the drive slot until it is fully seated.
Oracle Database Appliance Service Manual • March 2015
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3.
Close the latch to lock the drive in place.
4.
Run the fwupdate command and verify that it lists all the disks under the DISKS
section.
Remove a Boot Drive
1.
Identify the boot drive that you want to remove.
The amber Service Required LED might be lit. For specific drive locations, see “Storage and
Boot Drive Locations” on page 48.
2.
Remove the boot drive.
a. To open the drive door, slide the latch to the left.
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
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Install a Boot Drive
b. Pull the door open [2].
c. On the drive you plan to remove, push the storage drive release button to
open the latch [2].
d. Grasp the latch and open it to a 45 degree angle [2].
e. Using the latch, slowly pull the drive straight out of the drive slot, not
sideways or vertically [2].
Do not use much force on the latch when removing the drive.
Caution - Equipment damage. Do not use the latch as an ejector. Do not bend it too far to the
right.
Caution - Equipment damage. Close the door after removing a boot drive to prevent
overheating due to improper airflow.
Install a Boot Drive
1.
52
Determine the drive slot location for the replacement drive.
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Drives are physically addressed according to the slot in which they are installed. See “Storage
and Boot Drive Locations” on page 48 for drive locations.
2.
Pull open the rear drive door.
3.
Slide the drive into the drive slot until it is fully seated [1].
4.
Close the drive latch to lock the drive in place.
5.
Close the drive door and ensure that the door latch engages [2].
Caution - Equipment damage. Close the door after removing a boot drive to prevent
overheating due to improper airflow.
6.
Run the following command to ensure that the OS sees the replacement disk.
# lsscsi -v | grep ATA
[0:0:0:0]
disk
ATA
[1:0:0:0]
disk
ATA
SEAGATE ST95001N n/a
SEAGATE ST95001N n/a
/dev/sda
/dev/sdb
Servicing Fan Modules (CRU)
Each Oracle Database Appliance (original version) server node contains two fan modules. Each
fan module contains a single, dual-motor, 80 mm, counter-rotating fan assembly that contains
two fans. Each fan module is hot-swappable. For specific information about fan status LEDs,
see “Server Node Fan Indicators” on page 20.
When a server node is removed from the system, the fans provide sufficient cooling for all 24
front disks and the server node. A door automatically closes off the vacant server node slot to
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
53
Remove a Fan Module
ensure proper cooling. When the server node is replaced, its two fans also cool the 24 front
disks and provide cooling to the second server node.
Caution - Equipment damage. If a fan module fails, replace it as soon as possible.
The following topics are covered in this section:
■
“Detecting a Fan Module Failure” on page 54
“Remove a Fan Module” on page 54
■
“Install a Fan Module” on page 55
■
Detecting a Fan Module Failure
The following LEDs are lit when a fan module fault is detected:
■
■
■
Front and rear Service Required LEDs located on each server node
REAR HDD/PS/FAN LED located on the front of each server node
Fan Fault Status LED located on the faulty fan module
The system over-temperature LED for a server node might light if a fan fault causes an increase
in server node operating temperature. See “Server Node Status Indicators” on page 17 for more
information about server node LEDs.
Remove a Fan Module
1.
Identify the faulty fan module with its amber LED.
When a fan fails, the Service Required LED lights amber. For information about fan status
LEDs, see “Server Node Fan Indicators” on page 20.
2.
To remove the faulty fan module, press down on the fan release lever [1].
3.
While holding the release lever down, use the handle on the fan module to pull it
out of the server node [2].
The fan door swings shut to ensure proper cooling.
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Install a Fan Module
1.
Align the fan module in the fan door and slide it into the server node.
The extender on the side of the fan module pushes the fan door open, allowing the fan module
to enter.
2.
Apply firm pressure to fully seat the fan module.
The fan release lever engages when the fan is fully seated.
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
55
Install a Fan Module
3.
Verify that the Fan Fault Status LED on the replacement fan module is lit green.
4.
Verify that the following fault LEDs on the applicable server node are off.
■
Front and rear Service Required LEDs located on the applicable server node
■
REAR HDD/PS/FAN LED located on the front of the applicable server node
See “Server Node Status Indicators” on page 17 for more information about system LEDs.
Servicing Power Supplies (CRU)
Oracle Database Appliance (original version) is equipped with two hot swappable power
supplies. They are redundant, meaning that the system can operate with a single power supply.
This allows you to remove and replace a power supply without shutting the system down.
If a power supply fails and you do not have a replacement available, to ensure proper airflow,
leave the failed power supply installed in the system.
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For information about power supply status LEDs, see “Power Supply Status
Indicators” on page 21.
This section includes:
■
■
■
“Detecting a Power Supply Failure” on page 57
“Remove a Power Supply” on page 57
“Install a Power Supply” on page 58
Detecting a Power Supply Failure
The following LEDs light up when the system detects a power supply fault:
■
■
■
Front and rear Service Required LEDs located on each server node
REAR HDD/PS/FAN LED located on the front of each server node
Service Required LED located on the faulty power supply
See “Server Node Status Indicators” on page 17 on page 1-6 for information about these LEDs.
Remove a Power Supply
Caution - Hazardous voltages. To reduce the risk of electric shock and danger to personal
health, follow the instructions.
1.
Identify which power supply (0 or 1) requires replacement.
A lit Service Required LED on a power supply indicates that a failure was detected. For
information about power supply status LEDs, see “Power Supply Status Indicators” on page 21.
2.
Disconnect the power cord from the faulty power supply.
3.
Grasp the power supply handle and press the release latch [1]).
4.
Pull the power supply out of the chassis [2].
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
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Install a Power Supply
Install a Power Supply
1.
Align the replacement power supply with the empty power supply chassis bay.
2.
Slide the power supply into the bay until it is fully seated.
The release latch engages when the power supply is fully seated.
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3.
Reconnect the power cord to the power supply and verify the following:
■
■
4.
The power supply AC Present LED is lit
The power supply Service Required LED is off.
Verify that the following LEDs are off:
■
■
Service Required LEDs located on the front of both server nodes
REAR HDD/PS/FAN LED located on the front of both server nodes
See “Storage and Boot Drive Locations” on page 48 for more information about system
LEDs.
Chapter 3 • Servicing CRUs That Do Not Require System Power Off
59
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4
♦ ♦ ♦ C H A P T E R 4 Servicing CRUs That Require Server Node
Power Off
These sections describe how to service customer-replaceable units (CRUs) for the Oracle
Database Appliance that require you to power off the server node. All of these CRUs are
located on the server nodes.
Note - The servicing of hot-swap components such as the HDDs, SDDs, power supplies, and
fans is described in Chapter 3, “Servicing CRUs That Do Not Require System Power Off”.
■
■
“Servicing Oracle Database Appliance X3-2/X4-2/X5-2 CRUs” on page 61
“Servicing Oracle Database Appliance (Original Version) CRUs” on page 62
Servicing Oracle Database Appliance X3-2/X4-2/X5-2 CRUs
This section describes how to service customer-replaceable units (CRUs) for Oracle Database
Appliance X3-2, Oracle Database Appliance X4-2, and Oracle Database Appliance X5-2. If you
have Oracle Database Appliance (original version), go to “Servicing Oracle Database Appliance
(Original Version) CRUs” on page 62.
This section describes how to service customer-replaceable units (CRUs) that require you to
power off the server.
Note - All of the CRUs on the storage shelf and the storage expansion shelf can be replaced
while the power is on. See “Oracle Database Appliance X3-2/X4-2/X5-2 Storage Shelf HotSwappable Components” on page 40 for storage shelf component replacement procedures.
Note - The links in the following table take you to instructions outside of the Oracle Database
Appliance library to the Sun Server X3-2, Sun Server X4-2, and Oracle Server X5-2
documentation libraries. Use your browser's Back button to return to the Oracle Database
Appliance library.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
61
Servicing Oracle Database Appliance (Original Version) CRUs
ODA X3-2
ODA X4-2
ODA X5-2
CRU Locations
CRU Locations
CRU Locations
Servicing DIMMs
Servicing DIMMs
Servicing DIMMs
Servicing PCIe Risers
Servicing PCIe Risers
Servicing PCIe Risers
Servicing PCIe Cards
Servicing PCIe Cards
Servicing PCIe Cards
Servicing the DVD Drive
Servicing the DVD Drive
Servicing the DVD Drive
Servicing the Internal USB
Flash Drives
Servicing the Internal USB
Flash Drives
Note - A factory installed flash drive
is reserved for future use.
Servicing the Internal USB
Flash Drives
Note - A factory installed flash drive
is reserved for future use.
Servicing the Battery
Servicing the Battery
Servicing the Battery
Servicing Oracle Database Appliance (Original Version)
CRUs
This section describes how to service customer-replaceable units (CRUs) for Oracle Database
Appliance (original version). If you have Oracle Database Appliance X3-2, Oracle Database
Appliance X4-2, or Oracle Database Appliance X5-2, go to “Servicing Oracle Database
Appliance X3-2/X4-2/X5-2 CRUs” on page 61.
This section includes information on how to service the following Oracle Database Appliance
(original version) CRUs:
■
■
■
■
■
“Server Node CRU Component Locations” on page 62
“Servicing Memory Modules (DIMMs) (CRU)” on page 63
“Servicing PCIe Risers (CRU)” on page 71
“Servicing PCIe Cards (CRU)” on page 75
“Servicing the Server Node Battery (CRU)” on page 82
Server Node CRU Component Locations
Each server node (also called a system controller) in Oracle Database Appliance (original
version) includes the following replaceable components.
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Callout
Description
1
DDR3 Memory DIMMs (12)
2
PCIe Cards Mounted on PCIe Riser
3
PCIe Riser
4
Internal HBA PCIe Card
5
Battery
Servicing Memory Modules (DIMMs) (CRU)
Each server node in Oracle Database Appliance (original version) is provisioned with twelve
1333 MHz or 1600 MHz DDR3, 8GB dual rank DIMMs, for a total of 96GB.
The server node supports a maximum memory speed of 1333 MHz, even if 1600 MHz DIMMs
are installed.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
63
Servicing Oracle Database Appliance (Original Version) CRUs
Before replacing a DIMM see the following:
■
DIMM and CPU physical layout.
■
For details, see “DIMM and CPU Physical Layout” on page 64.
Instructions for removing a faulty DIMM.
■
For details, see “Remove Faulty DIMMs” on page 65.
Instructions for installing a DIMM.
■
For details, see “Install DIMMs” on page 68.
Memory Error Correction and Parity
For details, see “Error Correction and Parity Protection” on page 71.
Caution - These procedures require you to handle components that are sensitive to static
discharge. This sensitivity can cause the component to fail. To avoid damage, ensure that you
follow antistatic practices as described in “Performing Electrostatic Discharge and Antistatic
Prevention Measures” on page 34.
DIMM and CPU Physical Layout
Each processor in Oracle Database Appliance (original version) has six DIMM slots numbered
D0 through D5. D0 is the closest to the processor and D5 is the farthest.
Each slot should contain a 1333 MHz or 1600 MHz DDR3, 8GB dual rank DIMM. No other
configurations are supported.
The server node supports a maximum memory speed of 1333 MHz, even if it is configured with
1600 MHz DIMMs.
If the system contains a mixture of 1333 MHz and 1600 MHz DIMMs, then P0 and P1 should
be configured the same, so that both sides are symmetrical. For example, if you install only two
1600 MHz DIMMs, they should go into P0, D0 and P1, D0.
The following picture shows the physical layout of the DIMMs and CPUs. When viewing the
server node from the front, CPU0 (P0) is on the right.
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Each processor socket supports three independent memory channels labeled channel A, B,
and C, where channel A is closest to the processor socket. Each channel supports two DIMM
slots, is controlled by an independent memory controller, and operates independent of the other
channels.
Remove Faulty DIMMs
Note - The DDR3 memory modules (DIMMs) are customer-replaceable units (CRUs) and do
not require an Oracle-qualified service person for replacement.
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
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Remove Faulty DIMMs
2.
Identify the faulty DIMM(s).
a. To identify the location of a faulty DIMMs, press the Fault Remind button on
the motherboard.
Note - When the Fault Remind button is pressed, the Fault Remind Power Good LED lights
green to indicate that there is sufficient voltage present in the fault remind circuit to light the
fault LEDs. If this LED fails to light when you press the Fault Remind button, the capacitor
powering the fault remind circuit has lost its charge. This can happen if the Fault Remind button
is pressed for a long time with fault LEDs lit or if the server node has been out of the chassis for
more then 15 minutes.
Callout
Description
1
Fault Remind Button
2
Fault Remind Power Good LED (green)
b. Note the location of faulty DIMMs.
The amber DIMM fault LEDs light if the adjacent DIMM is faulty.
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3.
■
If the DIMM fault LED is off, the DIMM is operating properly.
■
If the DIMM fault Required LED is on (amber), the DIMM is faulty and
should be replaced.
To remove the faulty DIMM(s), do the following:
a. Rotate both DIMM slot ejectors outward as far as they go.
The ejectors push the DIMM partially up.
b. Carefully lift the DIMM straight up to remove it from the socket.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
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Install DIMMs
4.
Callout
Description
1
DIMM connector slot
2
DIMM connector key
3
DIMM ejector lever
Replace each faulty DIMM with either another DIMM of the same rank size.
For DIMM replacement instructions, see “Install DIMMs” on page 68.
Caution - Do not operate the system with an empty DIMM slot. If you remove a DIMM, you
must replace it before starting the server.
Install DIMMs
1.
Unpack the replacement DIMMs and place them on an antistatic mat.
2.
Ensure that the replacement DIMMs match the system requirements.
The system supports only 1333 MHz or 1600 MHz DDR3, 8GB, dual rank DIMMs obtained
from Oracle.
For the best performance, if you combine 1333 MHz and 1600 MHz DIMMs in a single system,
they should be configured so that P0 and P1 have the same mixture, in the same DIMM slots.
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For example, in a 1333 MHz system, if you replace P0, D0 with a 1600 MHz DIMM, you
should also replace P1, D0 with a 1600 MHz DIMM.
The server node supports a maximum memory speed of 1333 MHz, even if 1600 MHz DIMMs
are installed.
3.
Ensure that the ejector tabs are in the open position.
4.
Align the replacement DIMM with the connector.
Align the notch in the DIMM with the key in the connector. The notch ensures that the DIMM
is oriented correctly.
5.
Push the DIMM into the connector until the ejector tabs lock the DIMM in place.
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Install DIMMs
If the DIMM does not easily seat into the connector, verify that the notch in the DIMM is
aligned with the key in the connector as shown above. If the notch is not aligned, damage to the
DIMM might occur.
6.
Repeat Step 3 through Step 5 until all replacement DIMMs are installed.
7.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
8.
Clear the DIMM faults.
a. Log in to the server node Oracle ILOM CLI as root.
b. To view server node faults, type the following command:
-> show /SP/faultmgmt
Oracle ILOM lists all known faults. For example:
SP/faultmgmt
Targets:
0 (/SYS/MB/P0/D2)
Properties:
Commands:
cd
show
c. To clear the DIMM fault, type the following command:
-> set /SYS/MB/Px/Dn clear_fault_action=true
For example, to clear a fault on the DIMM in location D2 on CPU0:
-> set /SYS/MB/P0/D2 clear_fault_action=true
Are you sure you want to clear /SYS/MB/P0 (y/n)? y
Set 'clear_fault_action' to 'true'
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Error Correction and Parity Protection
The server node's processor provides parity protection on its internal cache memories, and
error-correcting code (ECC) protection of the data. The server node detects and posts the
following errors to the Oracle ILOM event log:
■
■
Correctable and uncorrectable memory ECC errors
Uncorrectable CPU internal errors
Advanced ECC corrects up to 4 bits in error on nibble boundaries, as long as they are all in the
same DRAM. If a DRAM fails, the DIMM continues to function.
To clear a fault once the faulty DIMM has been replaced, type the following in the Oracle
ILOM CLI:
-> set clear_fault_action=true
For more information on clearing DIMM faults, see the Oracle Integrated Lights Out Manager
(Oracle ILOM) 3.0 Documentation Collection: http://www.oracle.com/goto/ILOM/docs.
Servicing PCIe Risers (CRU)
PCIe cards in Oracle Database Appliance (original version) are installed on a vertical riser. You
must remove the riser to remove and replace a PCIe card. Also, you must remove the PCIe riser
when replacing the motherboard.
This section includes:
■
■
“Remove PCIe Riser From Server Nodes” on page 71
“Install PCIe Riser in Server Nodes” on page 73
Caution - These procedures require that you handle components that are sensitive to static
discharge. This sensitivity can cause the component to fail. To avoid damage, ensure that you
follow antistatic practices as described in“Performing Electrostatic Discharge and Antistatic
Prevention Measures” on page 34.
Remove PCIe Riser From Server Nodes
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
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Remove PCIe Riser From Server Nodes
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
If you are servicing a PCIe card, locate its position on the riser.
3.
Disconnect any data cables connected to the cards on the PCIe riser being
removed.
To disconnect a cable from a PCIe card, press the latch, push in toward the connector, and then
pull out to remove the cable.
Note the location of all cables for reinstallation later.
4.
Ensure that the latch adjacent to the location where PCIe riser is installed is in
the open (down) position [1].
If the latch is in the closed position, it prevents you from removing the PCIe riser.
5.
Loosen the three green captive Phillips screws that secure the PCIe riser to the
server node [1].
Access these screws from the rear of the server node.
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6.
Loosen the green captive Phillips screw that secures the PCIe riser to the
motherboard [2].
7.
To lift the PCIe riser out of the server node, grasp the front-most side plastic tab
with one hand and the rear of the riser with the other hand, and lift it straight up
and out of the server node [2].
8.
Place the PCIe riser and any cards attached to it on an antistatic mat.
Install PCIe Riser in Server Nodes
1.
Before installing the PCIe riser, ensure that the latch adjacent to the location
where PCIe riser is to be installed is in the open (down) position [2].
2.
Install the PCIe riser.
a. Ensure that any PCIe cards installed in the PCIe riser are properly seated,
and that the card's locking bracket is flush with the recess in the riser and is
engaging the locking tab.
For instructions for installing a PCIe card into a PCIe riser, see “Install PCIe Card in PCIe
Riser” on page 77.
b. Lower the PCIe riser and any cards attached to it, into the server node [1].
c. Push the PCIe riser down until its connector is seated into the connector on
the motherboard.
d. Tighten the green captive Phillips screw that secures the riser to the
motherboard [1].
Chapter 4 • Servicing CRUs That Require Server Node Power Off
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Install PCIe Riser in Server Nodes
e. Tighten the three green captive Phillips screws that secure the PCIe riser to
the chassis [2].
Access these screws from the rear of the server node.
3.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Reconnect any data cables to the PCIe card connectors on the system rear
panel.
d. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
4.
Clear PCIe riser faults.
a. Log in to the Oracle ILOM CLI as root.
b. Type:
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-> show /SP/faultmgmt
Oracle ILOM lists all known faults. For example:
SP/faultmgmt
Targets:
0 (/SYS/MB/RISER)
Properties:
Commands:
cd
show
c. To clear PCIe riser faults, use the set command. For example:
-> set /SYS/MB/RISER clear_fault_action=true
Are you sure you want to clear /SYS/MB/RISER (y/n)? y
Set 'clear_fault_action' to 'true'
Servicing PCIe Cards (CRU)
This section describes servicing PCIe cards in Oracle Database Appliance (original version).
■
■
■
■
■
“PCIe Card Configuration” on page 75
“Remove PCIe Card From PCIe Riser” on page 76
“Install PCIe Card in PCIe Riser” on page 77
“Remove Primary HBA PCIe Card From Motherboard” on page 79
“Install Primary HBA PCIe Card in Motherboard” on page 81
PCIe Card Configuration
The Oracle Database Appliance (original version) PCIe expansion system includes one
standalone low-profile slot on the motherboard and a PCIe riser with three slots. These are
provisioned as follows:
■
■
■
■
Motherboard slot – A low-profile, dual-port SAS-2 HBA used internally
PCIe slot 2 – Dual-port SAS-2 HBA used internally
PCIe slot 1 – Quad-port 1-Gb Ethernet NIC
PCIe slot 0 – Dual-port 10-Gb Ethernet NIC
Caution - If you replace a PCIe card, ensure the replacement is identical to the card you are
replacing.
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Remove PCIe Card From PCIe Riser
Remove PCIe Card From PCIe Riser
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Locate the PCIe card in the PCIe riser that you want to remove.
See the "Oracle Database Appliance (Original Version) Back Panel" section of the Oracle
Database Owner's Guide for the location of the PCIe slots.
3.
If necessary, make a note of where the PCIe cards are installed.
4.
Disconnect all data cables from the PCIe card.
To disconnect a cable from the PCIe card, press the latch, push in toward the connector, and
then pull out to remove the cable.
Note the location of all cables for reinstallation later.
5.
Remove the PCIe riser.
See “Remove PCIe Riser From Server Nodes” on page 71.
6.
Remove the PCIe card from the riser.
a. Carefully disconnect the PCIe card from the riser connector and remove it
from the riser board connector.
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b. Place the PCIe card on an antistatic mat.
Install PCIe Card in PCIe Riser
1.
Unpack the replacement PCIe card and place it on an antistatic mat.
2.
Locate the proper PCIe slot for the card you are replacing.
3.
Remove the PCIe riser.
See “Remove PCIe Riser From Server Nodes” on page 71.
4.
Insert the PCIe card into the correct slot on the riser.
a. Press the PCIe card until the locking bracket on the PCIe card is flush with
the recessed area on the PCIe riser.
b. Slide the locking bracket down until it engages the PCIe riser locking tab.
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Install PCIe Card in PCIe Riser
5.
Callout
Description
1
Recessed area on the PCIe riser
2
PCIe riser locking tab
3
PCIe card locking bracket
Install the PCIe riser.
See “Install PCIe Riser in Server Nodes” on page 73.
6.
Reconnect any cables to the PCIe card that you unplugged during the removal
procedure.
7.
Return the server node to operation.
a. Install the server node top cover.
See “Install Server Node Top Cover” on page 139.
b. Install the server node into the system.
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Remove Primary HBA PCIe Card From Motherboard
See “Install Server Node Into System Chassis” on page 140.
c. Reconnect any data cables to the PCIe card connectors on the system rear
panel.
d. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
8.
Clear the PCIe card fault.
a. Log in to the server node as root using the Oracle ILOM CLI.
b. To view server node faults, type the following command to list all known
faults on the system:
-> show /SP/faultmgmt
Oracle ILOM lists all known faults, for example:
SP/faultmgmt
Targets:
0 (/SYS/MB/RISER/PCIE2)
Properties:
Commands:
cd
show
c. To clear PCIe riser faults, use the set command. For example:
-> set /SYS/MB/RISER clear_fault_action=true
Are you sure you want to clear /SYS/MB/RISER (y/n)? y
Set 'clear_fault_action' to 'true'
d. To clear a PCIe card fault, use the set command. For example, to clear a fault
on PCIe 2:
-> set /SYS/MB/RISER/PCIE2 clear_fault_action=true
Are you sure you want to clear /SYS/MB/RISER/PCIE2 (y/n)? y
Set 'clear_fault_action' to 'true'
Remove Primary HBA PCIe Card From Motherboard
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
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Remove Primary HBA PCIe Card From Motherboard
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Remove the primary PCIe card.
a. Locate the internal PCIe card [1].
The internal PCIe card is located next to the rear-mounted disk drives.
b. Disconnect the data cables from the PCIe card [1].
There are two data cables that connect the PCIe card to the server node connector that
connects to disk drive backplane.
Note the location of all cables for reinstallation later.
To disconnect the cables from the internal PCIe card, press the latch, push in toward the
connector, and then pull out to remove the cable.
c. Grasp the PCIe card and lift it up and out of the server node [2].
d. Place the PCIe card on an antistatic mat.
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Install Primary HBA PCIe Card in Motherboard
Install Primary HBA PCIe Card in Motherboard
1.
Unpack the replacement PCIe card and place it on an antistatic mat.
2.
Install the internal PCIe card.
a. Locate the connector for the internal PCIe card [1].
The internal PCIe connector is located next to the rear-mounted disk drives.
b. Align the notch on the PCIe card with the key on the motherboard connector
[1].
c. Align the rear of the PCIe card with the support bracket located on the rear
of the server node [1].
d. Press down on the PCIe to seat it into the connector [1].
Caution - If the notch and key are not aligned, damage to the PCIe card might occur.
Note - To install the primary HBA into the HBA slot on the motherboard, a special PCI metal
bracket is required. The standard low-profile metal bracket or full-height metal bracket must be
removed from the PCIe card and replaced with the unique metal bracket that is provided with
the system.
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81
Install Primary HBA PCIe Card in Motherboard
e. Reconnect the cables to the PCIe card that you disconnected during the
removal procedure [2].
3.
Return the server node to operation.
a. Install the server node top cover.
See “Install Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Install Server Node Into System Chassis” on page 140.
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
4.
Clear the primary HBA card fault.
a. Log in to the server node as root using the Oracle ILOM CLI.
b. To view server node faults, type the following command to list all known
faults on the server node:
-> show /SP/faultmgmt
Oracle ILOM lists all known faults, for example:
SP/faultmgmt
Targets:
0 (/SYS/MB/HBA)
Properties:
Commands:
cd
show
c. To clear the internal PCIe card fault, use the set command. For example:
-> set /SYS/MB/HBA clear_fault_action=true
Are you sure you want to clear /SYS/MB/HBA (y/n)? y
Set 'clear_fault_action' to 'true'
Servicing the Server Node Battery (CRU)
The Oracle Database Appliance (original version) battery maintains the date and time for
the Oracle ILOM service processor when the server node is removed from the system and,
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therefore, is powered off. If the server node fails to maintain the proper time when powered off,
replace the battery.
Caution - These procedures require that you handle components that are sensitive to static
discharge. This sensitivity can cause the component to fail. To avoid damage, ensure that you
follow antistatic practices as described in “Performing Electrostatic Discharge and Antistatic
Prevention Measures” on page 34.
Remove Battery
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Remove the battery.
a. Place you finger between the battery and the server node side wall and push
the battery away from the side wall.
b. Twist the battery (either clockwise or counter-clockwise) and lift it out.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
83
Install Battery
Install Battery
1.
Unpack the replacement battery.
2.
Press the new battery into the battery holder with the positive side (+) facing the
server node side wall.
3.
If the service processor is configured to synchronize with a network time server
using the Network Time Protocol (NTP), the Oracle ILOM clock is reset as soon
as the server node is powered on and connected to the network. Otherwise,
proceed to the next step.
4.
If the service processor is not configured to use NTP, you must reset the Oracle
ILOM clock using the Oracle ILOM CLI or the web interface.
For instructions, see the Oracle Integrated Lights Out Manager (Oracle ILOM) 3.0
Documentation Collection.
5.
Return the server node to operation.
a. Install the server node top cover.
See “Install Server Node Top Cover” on page 139.
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b. Install the server node into the system.
See “Install Server Node Into System Chassis” on page 140.
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Chapter 4 • Servicing CRUs That Require Server Node Power Off
85
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5
♦ ♦ ♦ C H A P T E R 5 Servicing FRUs
The following topics describe how to service field-replaceable units (FRUs) for the Oracle
Database Appliance. You must power down the system and disconnect the AC power cords
from the server before servicing any of these components.
Only Oracle authorized service personnel should service FRU components.
■
■
“Servicing Oracle Database Appliance X3-2/X4-2/X5-2 FRUs” on page 87
“Servicing Oracle Database Appliance (Original Version) FRUs” on page 94
Servicing Oracle Database Appliance X3-2/X4-2/X5-2 FRUs
This section describes how to service server node FRUs for Oracle Database Appliance X3-2,
Oracle Database Appliance X4-2, and Oracle Database Appliance X5-2. If you have Oracle
Database Appliance (original version), go to “Servicing Oracle Database Appliance (Original
Version) FRUs” on page 94.
Only Oracle authorized service personnel should service FRU components.
Note - Most of the links in the following table take you to instructions outside of the Oracle
Database Appliance library to the Sun Server X3-2, Sun Server X4-2, and Oracle Server X5-2
documentation libraries. Use your browser's Back button to return to the Oracle Database
Appliance library.
ODA X3-2
ODA X4-2
ODA X5-2
FRU Locations
FRU Locations
FRU Locations
Servicing Processors
Servicing Processors
Servicing Processors
Servicing the Disk Backplane
Servicing the Disk Backplane
Servicing the Disk Backplane
Servicing the Front Indicator
Module
Servicing the Front Indicator
Module
Servicing the Front Indicator
Module
Chapter 5 • Servicing FRUs
87
Servicing Oracle Database Appliance X3-2/X4-2/X5-2 FRUs
ODA X3-2
ODA X4-2
ODA X5-2
Servicing the Motherboard
Servicing the Motherboard
Servicing the Motherboard
Servicing the SAS Cables
Servicing the SAS Cables
Servicing the SAS Cables
“Updating System_Identifier
and/or FRU ID Information for a
Replacement Motherboard or Disk
Backplane” on page 88
“Updating System_Identifier
and/or FRU ID Information for a
Replacement Motherboard or Disk
Backplane” on page 88
“Updating System_Identifier
and/or FRU ID Information for a
Replacement Motherboard or Disk
Backplane” on page 88
“Component Fault
Management” on page 93
“Component Fault
Management” on page 93
“Component Fault
Management” on page 93
Updating System_Identifier and/or FRU ID
Information for a Replacement Motherboard or
Disk Backplane
This section is for Oracle field service personnel who replace FRU components, such as
the motherboard and disk backplane, that contain special FRU ID information. This FRU
ID information includes the System_Identifier and Top Level Identifier (TLI). Maintaining
the correct System_Identifier and TLI information in the system is important for the correct
operation of the Oracle Database Appliance software and for warranty service.
System_Identifier:
This is an Oracle ILOM setting maintained in the service processor. By logging in to the Oracle
ILOM CLI as root, you can reset this value after replacing a server node's motherboard.
FRU ID information:
There are two levels of FRU ID information in Oracle Database Appliance:
■
■
Oracle Database Appliance TLI product and serial number
The component server node product and serial number
The FRU ID information is maintained in the motherboard (MB), disk backplane (DBP0) and
power supply (PS0).
An Oracle Database Appliance assembled at the factory has the same appliance TLI
product and TLI serial number for each bundled component (server nodes, storage shelves).
Components added later, such as the optional storage expansion shelf, might have a different
TLI.
Additionally, each server node has its own component-level product number and serial number
maintained in the FRU ID.
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The appliance TLI and server component numbers can be found on labels attached to the top of
each appliance server node near the front and look similar to the following illustration:
Callout
Description
1
Server serial label
2
Oracle Database Appliance TLI label
If the appliance is in a rack where you cannot see the labels, slide a server node partway out on
its rails, just far enough to see the information. Refer to “Preparing Oracle Database Appliance
X3-2/X4-2/X5-2 for Service” on page 27.
Note - You only need to extend the server node a couple of inches on its slide rails to see the
TLI. You do not need to release any cables, or slide it to the extended maintenance position.
Choose a task to perform:
■
■
“Update System_Identifier Information” on page 89
“Update Disk Backplane or System FRU TLI Information” on page 91
Update System_Identifier Information
Perform the following steps to update the System_Identifier information after replacing a
motherboard.
1.
Log in as root to the service processor of the new motherboard using the Oracle
ILOM command line interface.
2.
Set the system_identifier. For example, if you have a ODA X3-2, enter the
following command:
set /SP system_identifier="Oracle Database Appliance X3-2 TLI serial number"
Chapter 5 • Servicing FRUs
89
Update System_Identifier Information
Where TLI serial number is the Oracle Database Appliance TLI serial number used in common
for both nodes of the appliance. Information stored in the system_identifier is used by the
appliance software to confirm the server nodes are a matched pair. You can find the TLI serial
number on the top of the server (left front). See “Updating System_Identifier and/or FRU ID
Information for a Replacement Motherboard or Disk Backplane” on page 88 for label
location.
3.
Confirm that the information has been successfully updated by viewing the
system_identifier field. Enter the following command:
show /System
The system information is displayed. For example:
/System
Targets:
Open_Problems (0)
Processors
Memory
Power
Cooling
Storage
Networking
PCI_Devices
Firmware
BIOS
Properties:
health = OK
health_details = open_problems_count = 0
type = Rack Mount
model = ODA X3-2
part_number = 12341003+2+1
serial_number = 5678FM0001
component_model = SUN FIRE X4170 M3
component_part_number = 7064195
component_serial_number = 1150FML00J
system_identifier = Oracle Database Appliance X3-2 5678FM0001
system_fw_version = 3.1.2.10.a
4.
90
Confirm that the FRU TLI information is also correct for the system, as follows:
■
model: should list the appliance model.
■
part_number: should list the appliance TLI part number.
■
serial_number: should list the appliance TLI serial number.
■
component_model: should list the server node model.
■
component_part_number: should list the server node part number.
Oracle Database Appliance Service Manual • March 2015
Update Disk Backplane or System FRU TLI Information
■
5.
component_serial_number: should list the server node serial number.
If the information is correct, you are done and can log out. If the information
is not correct, proceed to “Update Disk Backplane or System FRU TLI
Information” on page 91.
Update Disk Backplane or System FRU TLI Information
Perform the following steps to confirm or update the Oracle Database Appliance TLI and server
FRU ID information. This procedure must be performed when replacing the disk backplane
board or when TLI or FRU ID information on the motherboard is not automatically updated
after replacement.
1.
Log in using the sunservice account (enabled through Escalation mode) to the
service processor using the Oracle ILOM command line interface.
Upon successful log in, the Service Mode prompt is displayed:
#
2.
Check the Oracle Database Appliance TLI information, enter the following
command:
setsvcid
The setsvcid command obtains backup TLI information stored in the system and displays it for
confirmation. For example, on Oracle Database Appliance X3-2 you might see:
Reading fruid:///SYS/DBP0...
Top Level Product Name ['ODA X3-2']:
Top Level PPN ['12341003+2+1']:
Top Level PSN ['5678FM0001']:
Top Level Product Name:
ODA X3-2
Top Level PPN:
12341003+2+1
Top Level PSN:
5678FM0001
Is the above correct? (y|n) [n]:
3.
If the information displayed is correct, type Y and press Enter. If the information
is not correct, type N and enter the correct information found on the Oracle
Database Appliance TLI label on the top left of the server (see “Updating
System_Identifier and/or FRU ID Information for a Replacement Motherboard or Disk
Backplane” on page 88).
The following message is displayed:
Writing fruid:///SYS/DBP0... You will need to reboot the SP for these changes to take full
effect.
4.
Check the component server FRU information, enter the following command:
Chapter 5 • Servicing FRUs
91
Update Disk Backplane or System FRU TLI Information
setpsnc
The setpsnc command obtains backup component server FRU information stored in the system
and displays it for confirmation. For example, on Oracle Database Appliance X3-2 which
contains two Sun Server X3-2 (formerly known as Sun Fire X4170 M3) nodes you might see:
Reading fruid:///SYS/DBP0...
PPN ['7064195']:
PSN ['1150FML00J']:
Product Name ['SUN FIRE X4170 M3']:
PPN:
7064195
PSN:
1150FML00J
Product Name:
SUN FIRE X4170 M3
Is the above correct? (y|n) [n]:
5.
If the information displayed is correct, type Y and press Enter. If the information
is not correct, type N and enter the correct information found on the server serial
label on the top left of the server (see “Updating System_Identifier and/or FRU ID
Information for a Replacement Motherboard or Disk Backplane” on page 88).
The following message is displayed:
Writing fruid:///SYS/DBP0... You will need to reboot the SP for these changes to take full
effect.
6.
Reboot the SP using the following command:
reboot
Rebooting the SP will automatically log you off.
7.
After the service processor reboots, log back in to sunservice account using the
command line interface.
Upon successful log in, the Service Mode prompt is displayed:
#
8.
Confirm that the Oracle Database Appliance TLI information is correct. Enter the
following command:
showsvcid
The system information is displayed. For example:
Top Level Product Manufacturer: Oracle Corporation
Top Level Product Name: ODA X3-2
Top Level PPN: 12341003+2+1
Top Level PSN: 5678FM0001
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9.
Confirm that the component server FRU information is correct. Enter the
following command:
showpsnc
The system information is displayed. For example:
Primary: fruid:///SYS/DBP0
Backup 1: fruid:///SYS/MB
Backup 2: fruid:///SYS/PS0
Element
| Primary
| Backup1
| Backup2
------------------+-------------------+-------------------+------------------PPN
7064195
7064195
7064195
PSN
1150FML00J
1150FML00J
1150FML00J
Product Name
SUN FIRE X4170 M3 SUN FIRE X4170 M3 SUN FIRE X4170 M3
10.
If the information is correct, log out. If the information is not correct (does not
match the information on the Oracle Database Appliance TLI or server serial
labels), repeat the process for information that is missing or incorrect.
Component Fault Management
Typically, when a faulty component is replaced and the server returned to service, the fault state
of the component in Oracle ILOM is automatically cleared and the component Service Required
indicator will turn off. This is the default behavior for all components that have an embedded
FRU serial number in the component firmware.
For replaced components that do not have an embedded FRU serial number, or do not
automatically clear their fault state after the component has been repaired and the server is
returned to service, you can use Oracle ILOM command line interface to manually clear the
fault state. Use the following syntax:
set /path_to_target clear_fault_action=true
Where path_to_target is the path to the component (such as a DIMM) that had the fault.
In addition, the Fault Management shell can also be used. Use of the Fault Management shell
is reserved for Oracle Service. For more information on component fault management, see:
Using fmadm to Administer Active Sun Hardware Faults (http://docs.oracle.com/cd/
E24707_01/html/E24528/z400390c1426287.html#scrolltoc) in the Oracle Integrated Lights
Out Manager Documentation Library.
Chapter 5 • Servicing FRUs
93
Servicing Oracle Database Appliance (Original Version) FRUs
Servicing Oracle Database Appliance (Original Version)
FRUs
This section describes how to service server node FRUs for Oracle Database Appliance
(original version). If you have Oracle Database Appliance X3-2, Oracle Database Appliance
X4-2, or Oracle Database Appliance X5-2, go to “Servicing Oracle Database Appliance X3-2/
X4-2/X5-2 FRUs” on page 87.
Note - Only Oracle authorized service personnel should service FRU components.
■
■
■
■
■
■
■
■
■
“Removing and Installing the Air Duct (FRU)” on page 94
“Servicing Processors (CPUs) (FRU)” on page 96
“Servicing the Boot Disk Backplane (FRU)” on page 103
“Servicing the Power Distribution Board (FRU)” on page 105
“Servicing the Disk Midplane Module (FRU)” on page 109
“Servicing the Disk Midplane Module HDD Cable (FRU)” on page 115
“Servicing the Front Indicator Panels (FRU)” on page 117
“Servicing Server Node Cables” on page 122
“Servicing the Motherboard Assembly (FRU)” on page 131
Removing and Installing the Air Duct (FRU)
The air duct for the Oracle Database Appliance (original version) must be removed to service
the CPUs.
The air duct is a FRU and can only be replaced by an Oracle-qualified service technician.
Caution - Equipment overheating. Ensure that the air duct is installed correctly before
powering on the server.
This section includes the following topics:
■
■
“Remove Air Duct” on page 94
“Install Air Duct” on page 96
Remove Air Duct
1.
94
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Oracle Database Appliance Service Manual • March 2015
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a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
See “Removing Server Nodes From the System Chassis” on page 34.
Power is removed from the server node when you remove it from the system.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Remove the air duct.
a. From the rear of the server node, grasp the middle/rear of the air duct with
your right hand and lift it up to a 45 degree angle [1].
The air duct swings up and away from the rear of the system.
b. Grasp the left end of the plastic air duct with your left hand to hold it at a 45
degree angle, and with your right hand press gently down on the middle of
the air duct until it bends enough to disengage its left hinge from its socket
[2].
c. Remove the air duct's right hinge from its socket and set the air duct aside
[2].
Chapter 5 • Servicing FRUs
95
Install Air Duct
Install Air Duct
Caution - Equipment overheating. Ensure that the air duct is installed correctly before
powering on the server.
1.
Install the air duct into the chassis.
a. From the rear of the server node, insert the air duct's right hinge into the
right-side socket [2], and place the left hinge on top of the left-side socket.
b. Grasp the left end of the air duct with your left hand to hold it at a 45 degree
angle, and, with your right hand, press gently down on the middle of the air
duct until it bends enough to insert the left hinge into the left-side socket [2].
c. Carefully lower the air duct to its closed position, with particular attention
given to the SAS cables [1].
Ensure that the openings on each side of the air duct fit around the cables and not on top of
them.
Caution - Equipment overheating. Verify that the air duct is fully closed.
2.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing Processors (CPUs) (FRU)
This section includes information on servicing CPUs in Oracle Database Appliance (original
version).
The CPU is a FRU and can only be replaced by an Oracle-qualified service technician.
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Caution - Equipment damage. These procedures require that you handle components that are
sensitive to static discharge. This sensitivity can cause the component to fail. To avoid damage,
ensure that you follow antistatic practices as described in “Performing Electrostatic Discharge
and Antistatic Prevention Measures” on page 34.
This section includes the following topics:
■
■
“Remove Processor (CPU)” on page 97
“Install Processor (CPU)” on page 100
Remove Processor (CPU)
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
d. Remove the air duct.
See “Remove Air Duct” on page 94.
2.
Remove the CPU.
a. Identify which CPU to remove.
b. To identify the location of the faulty CPU, press the Fault Remind button on
the motherboard.
Note - When the Fault Remind button is pressed, the Fault Remind Power Good indicator
(LED) lights green to indicate that there is sufficient voltage present in the fault remind circuit
to light the fault indicators. If this indicator fails to light when you press the Fault Remind
button, the capacitor powering the fault remind circuit has lost its charge. This can happen if the
Fault Remind button is pressed for a long time with fault indicators lit or if the server node has
been out of the chassis for more then 15 minutes.
c. The fault LED for the faulty CPU lights.
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The fault LED is located next to the CPU.
■
If CPU fault LED is off: CPU is operating properly.
■
If CPU fault LED is on (amber): CPU is faulty and should be replaced.
Viewing the server node from the front, CPU0 (P0) is on the right side of the server node.
d. Using a Phillips screwdriver, turn one captive screw on the heatsink
counterclockwise two full turns, then turn the other screw two full turns, and
keep alternating between the two screws until they are removed [2].
e. Twist the heatsink slightly to break the grease seal, then lift it off and
place it upside down on a flat surface to prevent the thermal grease from
contaminating other components.
f. Using the wipes supplied with the replacement CPU, carefully clean the
thermal grease from both the bottom of the heatsink and the top of the CPU.
Caution - Equipment damage. When cleaning the top of the CPU, be careful not to get the
thermal grease on the CPU socket and associated components.
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Caution - Equipment damage. Failure to clean the heatsink and CPU prior to removing the
CPU could result in the accidental contamination of the CPU socket or other components.
Also, be careful not to get the grease on your fingers as this could result in contamination of
components.
g. Disengage the CPU release lever by pushing down and moving it to the side
away from the CPU, and then rotating the lever upward [3].
h. Raise the pressure frame on the CPU to the open position [3].
i. Use your index finger to carefully lift up the edge of the CPU or protective
cap that is farthest from the socket alignment slots [4], then firmly grasp
both sides of the CPU or protective cap with your thumb and index finger on
your other hand [4], and carefully lift the CPU or protective cap up and out of
the socket [5].
Caution - Equipment overheating.Whenever you remove a heatsink, you should replace it
or install a CPU filler before you return the server to operation; otherwise, the system might
overheat due to improper airflow.
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Install Processor (CPU)
1.
Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
2.
Unpack the replacement CPU.
The CPU replacement kit includes a new CPU, wipes, and a tube of thermal grease.
3.
Install the CPU.
a. Grasp the sides of the CPU firmly with your thumb and index finger, tilt it at
a 45 degree angle, orient it with the socket alignment tabs [2], carefully lower
the end of the CPU with the alignment tabs into the socket [3], support the
raised end of the CPU with the index finger on your other hand, and lower
the CPU into the socket [3].
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b. Lower the pressure frame to the closed position [4].
Ensure that the pressure frame sits flat around the periphery of the CPU.
c. Engage the release lever by rotating it downward and slipping it under the
catch [4].
d. Ensure that there is no debris on the top of the CPU die.
e. Use the syringe (supplied with the new or replacement CPU) to apply
approximately 0.1 ml of thermal grease to the center of the top of the CPU.
Do not distribute the grease.
f. Orient the heatsink so that the DIMM SIDE label on the top of the heatsink
is facing the memory modules (DIMMs) and the two captive Phillips screws
align with the mounting studs.
Each heatsink is labeled to indicate which side of the heatsink faces the memory modules
(DIMMs) when the heatsink is properly oriented.
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g. Tighten the two Phillips screws alternately two full turns at a time until the
screws are fully seated [5].
4.
Return the server node to operation.
a. Install the air duct.
See “Install Air Duct” on page 96.
b. Install the server node top cover.
See “Install Server Node Top Cover” on page 139.
c. Install the server node into the system.
See “Install Server Node Into System Chassis” on page 140.
d. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
5.
Clear the CPU faults.
a. Log in to the server node as root using the Oracle ILOM CLI.
b. To view server node faults, type the following command to list all known
faults on the system:
-> show /SP/faultmgmt
Oracle ILOM lists all known faults, for example:
SP/faultmgmt
Targets:
0 (/SYS/MB/P0)
Properties:
Commands:
cd
show
c. To clear the fault, type the following command:
-> set /SYS/MB/Pn clear_fault_action=true
For example, to clear a fault on P0:
-> set /SYS/MB/P0 clear_fault_action=true
Are you sure you want to clear /SYS/MB/P0 (y/n)? y
Set 'clear_fault_action' to 'true'
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Servicing the Boot Disk Backplane (FRU)
The Oracle Database Appliance (original version) boot disk backplane (BDB) serves as an
interface between the motherboard and the rear-mounted disk drives.
The boot disk backplane is a FRU and can only be replaced by an Oracle-qualified service
technician.
Caution - Equipment damage. These procedures require that you handle components that are
sensitive to static discharge. This sensitivity can cause the component to fail. To avoid damage,
ensure that you follow antistatic practices as described in “Performing Electrostatic Discharge
and Antistatic Prevention Measures” on page 34.
This section includes:
■
■
“Remove Boot Disk Backplane” on page 103
“Install Boot Disk Backplane” on page 104
Remove Boot Disk Backplane
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Unseat the boot disk drives.
See “Remove a Boot Drive” on page 51.
3.
Remove the boot disk backplane.
a. Disconnect the power and data cables [1].
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b. Remove the four Phillips screws that secure the boot disk backplane to the
rear-mounted disk drives assembly and remove the backplane [2].
4.
Place the boot disk backplane on an antistatic mat.
Install Boot Disk Backplane
1.
Install the boot disk backplane.
a. Position the boot disk backplane on the rear-mounted disk drives assembly
and install and tighten the four Phillips screws to secure the backplane [2].
b. Reconnect the power cable and the data cables [1].
2.
Return the server node to operation.
a. Re-seat the boot disk drives.
See “Install a Boot Drive” on page 52.
b. Install the server node top cover.
See “Install Server Node Top Cover” on page 139.
c. Install the server node into the system.
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See “Install Server Node Into System Chassis” on page 140.
d. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the Power Distribution Board (FRU)
The Oracle Database Appliance (original version) power distribution board (PDB) distributes
power from the power supplies to all system components.
The power distribution board is a FRU and can only be replaced by an Oracle-qualified service
technician.
Caution - Equipment damage. Follow antistatic precautions as described in “Performing
Electrostatic Discharge and Antistatic Prevention Measures” on page 34. Do not touch the
components along their connector edges.
Caution - Equipment damage. Remove all power from the system before removing or
installing the power distribution board. Power down both server nodes (also called system
controllers) and disconnect the power cords from the system before performing these
procedures. For instructions, see “Shutting Down a Server Node and Powering Off the
System” on page 31.
This section includes:
■
■
“Remove Power Distribution Board” on page 105
“Install Power Distribution Board” on page 107
Remove Power Distribution Board
1.
Prepare the system for service.
a. Power off the system.
See “Shutting Down a Server Node and Powering Off the System” on page 31.
b. Disconnect the power cords from the system.
c. If the system is installed in a rack, remove it.
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For information on racking the system chassis, see the Oracle Database Appliance
Owner's Guide.
d. Remove both power supplies from the system.
See “Remove a Power Supply” on page 57.
e. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
2.
Remove both server nodes from the system.
See “Removing Server Nodes From the System Chassis” on page 34.
3.
Remove the middle section of the system top cover.
See “Removing the Middle Section of the System Top Cover” on page 36.
4.
Remove the power distribution board.
a. Disconnect the ribbon cable connector on the power distribution board [1].
The ribbon cable is located between the power distribution board and the chassis side wall.
It connects the power distribution board to the disk midplane.
b. Remove the two Phillips screws that secure the power distribution board to
the chassis [2].
You access the screws through two holes in the side of the chassis.
c. Carefully remove the chassis interlock switch connector from the power
distribution board [3].
To gain access to the chassis interlock switch connector, grasp the power distribution
board with both hands, slide it to the rear of the system chassis to unplug it from the disk
midplane module, and lift it up until you can grasp and remove the connector.
d. Lift the power distribution board out of the system chassis [4] and place it
on the antistatic mat.
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Install Power Distribution Board
1.
Install the power distribution board into the system chassis.
a. Lower the power distribution board partially into the system [1].
b. Reconnect the chassis interlock switch cable [2].
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c. Align the power distribution board with the two power connectors on the
disk midplane module and slide the power distribution board forward until
the connectors seat.
d. To secure the power distribution board to the system, use the holes in the
system side wall to access and tighten the two Phillips screws [3].
e. Reconnect the power distribution board ribbon cable [4].
2.
Return the system to operation.
a. Install both server nodes into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
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b. Install the middle section of the top cover.
Install and tighten the Phillips screws that secure the middle section of the top cover to the
system chassis.
c. Install both power supplies into the system.
See “Install a Power Supply” on page 58.
d. If the system was installed in a rack, reinstall it into the rack.
See the Oracle Database Appliance Owner's Guide for instructions.
e. Reconnect the power cords to the system and power on the system.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the Disk Midplane Module (FRU)
The Oracle Database Appliance (original version) disk midplane interconnects the front disk
drives to the server nodes, the front indicator modules, and the power distribution board (PDB).
The disk midplane board is a FRU and can only be replaced by an Oracle-qualified service
technician.
Caution - Equipment damage. Follow antistatic precautions as described in “Performing
Electrostatic Discharge and Antistatic Prevention Measures” on page 34. Do not touch the
components along their connector edges.
Caution - Equipment damage. Remove all power from the system before removing or
installing the power distribution board. Power down both server nodes (also called system
controllers) and disconnect the power cords from the system before performing these
procedures. For instructions, see “Shutting Down a Server Node and Powering Off the
System” on page 31.
This section includes:
■
■
“Remove Disk Midplane Module” on page 109
“Install Disk Midplane Module” on page 113
Remove Disk Midplane Module
1.
Prepare the system for service.
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Remove Disk Midplane Module
a. Power off the system.
See “Shutting Down a Server Node and Powering Off the System” on page 31.
b. Disconnect the power cords from the system.
c. If the system is installed in a rack, remove it.
See the Oracle Database Appliance Owner's Guide for information on racking the system
chassis.
d. Remove both power supplies from the system.
See “Remove a Power Supply” on page 57.
e. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
2.
Remove all of the front storage drives.
See “Remove a Storage Drive” on page 49.
3.
Remove both server nodes from the system.
See “Removing Server Nodes From the System Chassis” on page 34.
4.
Remove the middle section of the system top cover.
See “Removing the Middle Section of the System Top Cover” on page 36.
5.
Loosen the two captive Phillips screws that secure the side-wall cover to the
chassis and remove the cover.
The side-wall cover is positioned under the middle section of the system top cover. Before you
can remove the side-wall cover, you must remove the middle section of the system top cover.
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6.
Remove the power distribution board.
See “Remove Power Distribution Board” on page 105.
7.
Remove the disk midplane module.
a. Before disconnecting the two front indicator module (FIM) cable connectors
from the disk midplane module, label them [1].
The lower connector on the disk midplane is for SN0 and the upper connector is for SN1.
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b. Disconnect the two FIM cable connectors from the disk midplane module [1].
c. Remove the Phillips screw that secures the disk midplane module to the
disk drive cage [2].
d. To remove the disk midplane module from the system chassis, lift the board
up about 0.25 inches (6.35 mm) to clear the standoffs that hold it in place [3].
To remove the board, you might need to move the bottom of the board away from the disk
drive cage to disengage the standoff located at the top left corner of the board. Then, you
should be able to lift the board up and out of the system.
There are four columns of standoffs, four in the left-most column and three in each of the
remaining columns.
e. Lift the disk midplane module up and out of the system [4].
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f. Place the board on an antistatic mat.
Install Disk Midplane Module
1.
Install the disk midplane module.
a. Move the front indicator module (FIM) cable connectors toward the rear of
the system so that the disk midplane module is not installed over them.
b. Lower the disk midplane module in the system chassis [1].
c. Position the disk midplane module against the disk drive cage, tilting the top
slightly forward so that it fits over the top-most standoff on the left side and
then position board so that it fits over the remaining 12 standoffs, then push
downward on the board to engage the standoffs [2].
d. To secure the disk midplane module to the disk drive cage, install the
Phillips screw [3].
e. Reconnect the two FIM cable connectors to the receptacles on the disk
midplane module [4].
Ensure that the FIM connectors are properly connected. The lower connector on the disk
midplane is for SN0 and the upper connector is for SN1.
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Install Disk Midplane Module
2.
Install the power distribution board into the system.
See “Install Power Distribution Board” on page 107.
3.
Position the side-wall cover into the chassis and tighten the two captive Phillips
screws to secure the side-wall cover to the chassis.
4.
Install the middle section of the system's top cover.
Install and tighten the Phillips screws that secure the middle section of the top cover to the
system chassis.
5.
Reinstall all of the front storage drives.
See “Install Storage Drive” on page 50.
6.
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See “Installing a Server Node Into the System Chassis” on page 140.
7.
Return the system to operation.
a. Install both power supplies into the system.
See “Install a Power Supply” on page 58.
b. If the system was installed in a rack, reinstall it into the rack.
See the Oracle Database Appliance Owner's Guide for instructions.
c. Reconnect the power cords to the system and power on the system.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the Disk Midplane Module HDD Cable
(FRU)
The Oracle Database Appliance (original version) HDD cable connects the power distribution
board to the disk midplane module.
The disk midplane module HDD cable is a FRU and can only be replaced by an Oraclequalified service technician.
Caution - Equipment damage. Remove all power from the system before removing or
installing the disk midplane module HDD cable. Power down both server nodes (also called
system controllers) and disconnect the power cords from the system before performing
these procedures. For instructions, see “Shutting Down a Server Node and Powering Off the
System” on page 31.
The following topics are covered in this section:
■
■
“Remove Disk Midplane Module HDD Cable” on page 115
“Install Disk Midplane Module HDD Cable” on page 116
Remove Disk Midplane Module HDD Cable
1.
Prepare the system for service.
a. Power off the system.
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Install Disk Midplane Module HDD Cable
See “Shutting Down a Server Node and Powering Off the System” on page 31.
b. Disconnect the power cords from the system.
c. If the system is installed in a rack, remove it.
See the Oracle Database Appliance Owner's Guide for instructions.
d. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
2.
Remove the middle section of the system top cover.
See “Removing the Middle Section of the System Top Cover” on page 36.
3.
Disconnect the HDD ribbon cable connector located on the power distribution
board [1]).
4.
Disconnect the HDD ribbon cable connector located on the disk midplane
module [2].
Install Disk Midplane Module HDD Cable
1.
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Reconnect the HDD ribbon cable connector located on the disk midplane module
[2]).
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2.
Reconnect the HDD ribbon cable connector located on the power distribution
board [1].
3.
Return the system to operation.
a. Install the middle section of the system top cover.
Install and tighten the Phillips screws that secure the middle section of the top cover to the
system chassis.
b. If the system was installed in a rack, reinstall it into the rack.
See the Oracle Database Appliance Owner's Guide for instructions.
c. Reconnect the power cords to the system and power on the system.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the Front Indicator Panels (FRU)
The Oracle Database Appliance (original version) front indicator panels contain the LEDs and
indicators on the front of the system. Each server node has its own front indicator panel, which
sits behind the ears on the system chassis.
The front indicator panels are FRUs and can only be replaced by an Oracle-qualified service
technician.
Caution - Equipment damage. Remove all power from the system before removing or
installing the disk midplane module HDD cable. Power down both server nodes (also called
system controllers) and disconnect the power cords from the system before performing
these procedures. For instructions, see “Shutting Down a Server Node and Powering Off the
System” on page 31.
The following topics are covered in this section:
■
■
“Remove Front Indicator Panel” on page 117
“Install Front Indicator Panel” on page 120
Remove Front Indicator Panel
1.
Prepare the system for service.
a. Power off the system (both server nodes).
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See “Shutting Down a Server Node and Powering Off the System” on page 31.
b. Disconnect the power cords from the system.
c. If the system is installed in a rack, remove it.
See the Oracle Database Appliance Owner's Guide for information on racking the system
chassis.
d. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
2.
Remove the adjacent disk drives [1].
Be sure to mark them so that you can return them to the correct drive bays later.
3.
Unscrew the three Phillips screws from the back of the ear bezel [2].
4.
Remove four more Phillips screws from the inside of the drive bays [3].
5.
Remove the ear bezel [4].
The ear bezel and indicator panels remain connected to the ribbon cables.
6.
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Disconnect the ribbon cables from the indicator panel you wish to change [5].
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7.
Remove the screw that holds the indicator panel to the ear bezel [6].
Make sure you remove the correct indicator panel. There are two indicator panels on the ear
bezel.
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Install Front Indicator Panel
1.
Use the Phillips screw to attach the new indicator panel to the ear bezel [1].
2.
Connect the ribbon cable to the indicator panel [2].
3.
Place the ear bezel on the chassis [3].
4.
Fasten the four Phillips screws inside the drive bays [4].
5.
Fasten the three Phillips screws on the back of the ear bezel [5].
6.
Replace the disk drives in the drive bays [6].
Use the marks to ensure that you return each drive to its original bay.
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7.
Return the system to operation.
a. Reinstall the system into the rack.
See the Oracle Database Appliance Owner's Guide for instructions.
b. Reconnect the power cords to the system and power on the system.
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Remove Fan Power Cables
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing Server Node Cables
This section includes information on servicing cables in Oracle Database Appliance (original
version).
The internal server node cables are FRUs and can only be replaced by an Oracle-qualified
service technician.
Caution - Equipment damage. These procedures require that you handle components that are
sensitive to static discharge. This sensitivity can cause the component to fail. To avoid damage,
ensure that you follow antistatic practices as described in “Performing Electrostatic Discharge
and Antistatic Prevention Measures” on page 34.
The following topics are covered in this section:
■
■
■
■
“Servicing the Fan Power Cables (FRU)” on page 122
“Servicing the PCIe Card Cables (FRU)” on page 123
“Servicing the SAS Expander Cable (FRU)” on page 128
“Servicing the Boot Disk Backplane Cables (FRU)” on page 130
Servicing the Fan Power Cables (FRU)
Each Oracle Database Appliance (original version) server node has two fans and each fan has a
separate power cable.
Remove Fan Power Cables
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
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2.
Disconnect the fan power cables and remove them from the server node.
Install Fan Power Cables
1.
Reconnect the fan power cables.
2.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the PCIe Card Cables (FRU)
The Oracle Database Appliance (original version) PCIe card cables are used to connect the
internal PCIe card, the primary HBA and a riser-mounted PCIe card, and the secondary HBA to
the motherboard. See the following sections for instructions.
Chapter 5 • Servicing FRUs
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Remove PCIe Card Cables From Primary HBA PCIe Card
The PCIe card cables are FRUs and can only be replaced by an Oracle-qualified service
technician.
■
■
■
■
“Remove PCIe Card Cables From Primary HBA PCIe Card” on page 124
“Install PCIe Card Cables for Primary HBA PCIe Card” on page 125
“Remove PCIe Card Cables From Secondary HBA PCIe Card” on page 126
“Install PCIe Card Cables for Secondary HBA PCIe Card” on page 127
Remove PCIe Card Cables From Primary HBA PCIe Card
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Disconnect the primary HBA PCIe card cables and remove them from the server
node.
a. Loosen the three green, captive Phillips screws that secure the server
node's front cover and remove the cover [1].
b. Disconnect the two cables from the primary HBA PCIe card and remove the
cables [2].
To remove each cable connector, push the connector inward, press down on the connector
to release it, and pull the connector out.
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Install PCIe Card Cables for Primary HBA PCIe Card
1.
Reconnect the PCIe card cables.
a. Reconnect the two PCIe card cables to the primary HBA PCIe card and the
connectors on the motherboard [2].
Notice that there are two sets of connectors on the motherboard. Be sure to connect the
cables to the connector on the right in each set (looking at the connectors from the rear of
the server node).
b. Position the server node's front cover onto the server node and tighten
the three green, captive Phillips screws that secure the server node's front
cover to the motherboard [1].
2.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Power on the server node.
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Remove PCIe Card Cables From Secondary HBA PCIe Card
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Remove PCIe Card Cables From Secondary HBA PCIe Card
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Disconnect the PCIe card cables and remove them from the server node.
The Secondary HBA PCIe Card sits in the top slot on the PCIe riser (PCIe slot 2)
a. Loosen the three green, captive Phillips screws that secure the server
node's front cover and remove the cover [1].
b. Disconnect the two secondary HBA PCIe card cables and remove the cables
[2].
To remove each cable connector, push the connector inward, press down on the connector
to release it, and pull the connector out.
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Install PCIe Card Cables for Secondary HBA PCIe Card
1.
Reconnect the PCIe card cables.
a. Reconnect the two PCIe card cables between to the secondary PCIe card
and the connectors on the motherboard [2].
The Secondary HBA PCIe Card sits in the top slot on the PCIe riser (PCIe slot 2)
Notice that there are two sets of connectors on the motherboard. Be sure to connect the
cables to connector on the left in each set (looking at the connectors from the rear of the
server node).
b. Position the server node's front cover onto the server node and tighten
the three green, captive Phillips screws that secure the server node's front
cover to the motherboard [1].
2.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
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Remove SAS Expander Cable
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the SAS Expander Cable (FRU)
The Oracle Database Appliance (original version) SAS expander cable runs from a connector
on the front of the motherboard to a connector near the rear of the motherboard. See the
following sections for instructions.
The SAS expander cable is a FRU and can only be replaced by an Oracle-qualified service
technician.
The following topics are covered in this section:
■
■
“Remove SAS Expander Cable” on page 128
“Install SAS Expander Cable” on page 129
Remove SAS Expander Cable
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
d. Remove the PCIe riser.
See “Shutting Down a Server Node and Powering Off the System” on page 31.
2.
Disconnect the SAS expander cable and remove it from the server node.
a. Loosen the three green, captive Phillips screws that secure the server
node's front cover and remove the cover [1].
b. Disconnect both cable connectors from the motherboard and remove the
cable [2].
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Push the connector inward, press down on the connector to release it, and pull the
connector out.
Install SAS Expander Cable
1.
Reconnect the SAS expander cable.
a. Reconnect the SAS expander cable connectors to the motherboard [2].
b. Position the server node's front cover onto the server node and tighten
the three green, captive Phillips screws that secure the server node's front
cover to the motherboard [1].
2.
Return the server node to operation.
a. Install the PCIe riser.
See “Install PCIe Riser in Server Nodes” on page 73.
b. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
c. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
Chapter 5 • Servicing FRUs
129
Remove Boot Disk Backplane Cables
d. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the Boot Disk Backplane Cables (FRU)
The Oracle Database Appliance (original version) boot disk backplane cables connect the boot
disk backplane to the motherboard.
The boot disk backplane cables are FRUs and can only be replaced by an Oracle-qualified
service technician.
The following topics are covered in this section:
■
■
“Remove Boot Disk Backplane Cables” on page 130
“Install Boot Disk Backplane Cables” on page 131
Remove Boot Disk Backplane Cables
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
Disconnect the power cable and hard disk drive (HDD) cables and remove them
from the server node.
a. Disconnect the power cable and HDD cables from the motherboard [1].
b. Disconnect the power cable and HDD cables from the boot disk backplane
[2].
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Install Boot Disk Backplane Cables
1.
Reconnect the power cable and hard disk drive (HDD) cables.
a. Reconnect the power cable and HDD cables to the boot disk backplane [2].
b. Reconnect the power cable and HDD cables to the motherboard [1].
2.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Servicing the Motherboard Assembly (FRU)
Each Oracle Database Appliance (original version) server node has a motherboard assembly.
The service strategy for the motherboard is to remove the replaceable components from the
Chapter 5 • Servicing FRUs
131
Install Boot Disk Backplane Cables
server node and then return the server node with the motherboard in place to Oracle for repair
or replacement.
The motherboard assembly is a FRU and can only be replaced by an Oracle-qualified service
technician.
Caution - Equipment damage. These procedures require that you handle components that are
sensitive to static discharge. This sensitivity can cause the component to fail. To avoid damage,
ensure that you follow antistatic practices as described in “Performing Electrostatic Discharge
and Antistatic Prevention Measures” on page 34.
The following figure shows the components that must be removed from the server node.
132
Callout
Description
Callout
Description
1
CPUs and Heatsinks
6
Internally Mounted PCIe Card
2
Memory modules (DIMMs)
7
Boot Disk Drives (2)
Oracle Database Appliance Service Manual • March 2015
Remove Replaceable Components From Motherboard Assembly
Callout
Description
Callout
Description
3
PCIe Cards mounted on the PCIe Riser
8
Boot Disk Drive Backplane
4
PCIe Riser
9
Battery
5
Fan Modules (2)
The following topics are covered in this section:
■
■
“Remove Replaceable Components From Motherboard Assembly” on page 133
“Install Replaceable Components in Motherboard Assembly” on page 134
Remove Replaceable Components From Motherboard
Assembly
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
With the exception the SAS expander cable, disconnect and remove all internal
cables from the server node.
Note - To identify the SAS expander cable, see “Install SAS Expander Cable” on page 129.
The cables for the fans, the primary and secondary HBA PCIe cards, and the boot disk
backplane must be removed.
■
Fan power cables
■
See Remove “Remove Fan Power Cables” on page 122.
Primary HBA PCIe card data cables
■
See “Remove PCIe Card Cables From Primary HBA PCIe Card” on page 124.
Secondary HBA PCIe card data cables
See “Remove PCIe Card Cables From Secondary HBA PCIe Card” on page 126.
Chapter 5 • Servicing FRUs
133
Install Replaceable Components in Motherboard Assembly
Caution - Equipment damage. The HBA data cables are delicate. Ensure that they are
removed and safely out of the way when servicing the motherboard.
■
Boot disk board cables.
See “Remove Boot Disk Backplane Cables” on page 130.
3.
Remove the following components from the server node.
■
Fan modules
■
“Remove a Fan Module” on page 54.
Boot disk drives
■
“Remove a Boot Drive” on page 51.
Boot disk drive backplane
■
“Remove Boot Disk Backplane” on page 103.
Memory modules (DIMMS)
■
“Remove Faulty DIMMs” on page 65.
PCIe riser and attached PCIe cards
■
“Remove PCIe Riser From Server Nodes” on page 71.
CPUs
■
“Remove Processor (CPU)” on page 97.
Internal PCIe card
■
“Remove PCIe Card Cables From Primary HBA PCIe Card” on page 124.
Battery
“Remove Battery” on page 83.
Install Replaceable Components in Motherboard Assembly
1.
Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
2.
134
Install the following components into the server node.
■
Fan modules
■
See “Install a Fan Module” on page 55.
Boot disk drives
■
See “Install a Boot Drive” on page 52.
Memory modules (DIMMS)
Oracle Database Appliance Service Manual • March 2015
Install Replaceable Components in Motherboard Assembly
■
See “Install DIMMs” on page 68.
PCIe riser and attached PCIe cards
■
See “Install PCIe Riser in Server Nodes” on page 73.
CPUs
■
See “Install Processor (CPU)” on page 100.
Internal PCIe card
See “Install Primary HBA PCIe Card in Motherboard” on page 81.
3.
Reconnect and install the following cables.
■
Fan module power cables.
■
See “Servicing the Fan Power Cables (FRU)” on page 122.
Internal PCIe card data cables.
See “Servicing the PCIe Card Cables (FRU)” on page 123.
Caution - Equipment damage. The disk drive data cables are delicate. Handle them carefully.
■
Boot disk backplane cables.
See “Servicing the Boot Disk Backplane Cables (FRU)” on page 130.
4.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Reconnect all external data cables from the PCIe card(s) that are installed in
the PCIe riser.
d. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
Chapter 5 • Servicing FRUs
135
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6
♦ ♦ ♦ C H A P T E R 6 Returning Oracle Database Appliance to
Operation
This chapter describes how to return Oracle Database Appliance to operation after you have
performed service procedures. It includes:
■
■
“Returning Oracle Database Appliance X3-2/X4-2/X5-2 to Operation” on page 137
“Returning Oracle Database Appliance (Original Version) to Operation” on page 139
Returning Oracle Database Appliance X3-2/X4-2/X5-2 to
Operation
This section describes returning Oracle Database Appliance X3-2, Oracle Database Appliance
X4-2, and Oracle Database Appliance X5-2 to operation after servicing. If you have Oracle
Database Appliance (original version), go to “Returning Oracle Database Appliance (Original
Version) to Operation” on page 139.
Note - The links in the following table take you to instructions outside of the Oracle Database
Appliance library to the Sun Server X3-2, Sun Server X4-2, and Oracle Server X5-2
documentation libraries. Use your browser's Back button to return to the Oracle Database
Appliance library.
ODA X3-2
ODA X4-2
ODA X5-2
Install the Top Cover
Install the Top Cover
Install the Top Cover
Remove Antistatic Measures
Remove Antistatic Measures
Remove Antistatic Measures
Reinstall the Server Chassis
Into the Rack
Reinstall the Server Chassis
Into the Rack
Reinstall the Server Chassis
Into the Rack
Return the Server to the Normal
Rack Position
Return the Server to the Normal
Rack Position
Return the Server to the Normal
Rack Position
Reconnect Data Cables and Power
Cords
Reconnect Data Cables and Power
Cords
Reconnect Data Cables and Power
Cords
Chapter 6 • Returning Oracle Database Appliance to Operation
137
Power On Oracle Database Appliance X3-2/X4-2/X5-2
ODA X3-2
ODA X4-2
ODA X5-2
“Powering On Oracle Database
Appliance X3-2/X4-2/
X5-2” on page 138
“Powering On Oracle Database
Appliance X3-2/X4-2/
X5-2” on page 138
“Powering On Oracle Database
Appliance X3-2/X4-2/
X5-2” on page 138
Powering On Oracle Database Appliance X3-2/
X4-2/X5-2
When powering on the system, each server node is powered on separately.
Perform the following procedure to power on the Oracle Database Appliance.
Power On Oracle Database Appliance X3-2/X4-2/X5-2
This procedure describes how to restore power to Oracle Database Appliance X3-2/X4-2/X5-2
after servicing.
1.
If you powered off and disconnected the power cords from a storage shelf (and
storage expansion shelf if one is present), reconnect the power cords now.
2.
Power on the storage shelf (and storage expansion shelf if one is present) by
switching the power supply On/Off button on each power supply to the On
position.
The disks begin to initialize and the power supply LEDs light green. This can take several
minutes.
Note - Do not power on the server nodes until the disks on the storage shelf and storage
expansion shelf have initialized.
3.
If you powered off a server node, reconnect any unplugged power cords now.
4.
Power on a server node on using one of the following methods:
■
■
■
Press the recessed Power button on the server node front panel.
Log in to the Oracle ILOM web interface, click Host Management > Power Control, and
select Power On from the Select Action list box.
Log in to the Oracle ILOM command-line interface (CLI), and type the following command
at the Oracle ILOM CLI prompt.
-> start /SYS
When the server is powered on and the power-on self-test (POST) code checkpoint tests have
completed, the green Power/OK status indicator on the server node front panel lights and
remains lit.
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Returning Oracle Database Appliance (Original Version) to Operation
Note - If you powered off both server nodes prior to servicing, repeat steps 3 and 4 to power on
the second server node.
5.
Refer to the Getting Started Guide and Administration and Reference Guide for
any instructions or commands required to return the appliance to service.
Returning Oracle Database Appliance (Original Version) to
Operation
This section describes returning Oracle Database Appliance (original version) to operation after
servicing. If you have Oracle Database Appliance X3-2, Oracle Database Appliance X4-2, or
Oracle Database Appliance X5-2, go to “Returning Oracle Database Appliance X3-2/X4-2/
X5-2 to Operation” on page 137.
■
■
■
“Installing the Server Node Top Cover” on page 139
“Installing a Server Node Into the System Chassis” on page 140
“Powering On Oracle Database Appliance (Original Version)” on page 142
Installing the Server Node Top Cover
If you removed the top cover from an Oracle Database Appliance (original version) server
node, perform the following procedure to replace it.
Caution - Hazardous voltage present. Do not run the system with the top cover removed.
Caution - Equipment damage. Install the top cover properly before starting the system.
Install Server Node Top Cover
1.
Place the top cover down on the server node so that it hangs over the front of
the chassis by 0.5 inches (12.7 mm).
2.
Ensure that all six of the standoffs on the underside of the cover (three on each
side) fit into the slots on the top of the chassis side walls.
Chapter 6 • Returning Oracle Database Appliance to Operation
139
Install Server Node Into System Chassis
When the top cover is positioned (as described in previous step), the six standoffs on the
underside of the cover fit into the slots in the top of the chassis sidewalls.
3.
Slide the top cover toward the rear of the server node until it seats [2].
Installing a Server Node Into the System Chassis
If you removed a Oracle Database Appliance (original version) server node from the chassis,
perform the following procedure to reinstall it.
Install Server Node Into System Chassis
Note - Replacing a server node FRU with a new server node is a service activity that must be
performed by an Oracle-qualified service technician. The customer may remove the server node
to service other customer serviceable components in the server node.
1.
140
Before inserting the server node into the system chassis, ensure that both
release latches on the rear of the server node are in the open position.
Oracle Database Appliance Service Manual • March 2015
Install Server Node Into System Chassis
2.
Slide the server node into the rear of the system chassis until the bottom lips of
the release latches touch the chassis [2].
3.
To re-seat the server node in the system chassis, grasp both release latches, one
on each side of the server node, and push them upward simultaneously to the
closed position [3].
Caution - Equipment damage. Always use the release latches to re-seat the server node into
the system chassis as described in this procedure. Failure to do so might damage the connectors
on the front of the server node and/or the connectors on the disk midplane module.
4.
Reinstall the system chassis into the rack.
Follow the instructions listed in the "To Install the System into a Rack" section in the Oracle
Database Appliance Owner's Guide.
Chapter 6 • Returning Oracle Database Appliance to Operation
141
Power On Oracle Database Appliance (Original Version)
Powering On Oracle Database Appliance (Original
Version)
To power on Oracle Database Appliance (original version), follow this procedure.
Each server node is powered on separately.
Note - To use Oracle ILOM to power on a server node, ensure that you have performed its
initial configuration as described in "Connecting and Configuring Oracle ILOM" in the Oracle
Database Appliance Getting Started Guide.
Power On Oracle Database Appliance (Original Version)
1.
Ensure that the power cord (or cords) are connected to the power supplies on
the rear of the server node that was serviced.
Once plugged in, the server node should go into the standby power state. The SP status LED
on the front panel of the server node lights green and goes from slow blink to steady on. The
Power/OK LED on the front panel of the server node lights green and goes to standby blink.
It might take about five minutes for the LED to reach standby blink after the power cord is
inserted.
For the location of the SP status LED and Power/OK LED, see “Server Node Status
Indicators” on page 17.
Standby power state indicates that the server node's service processor is active, but the server
node host is powered off.
2.
Power on a server node by performing one of the following:
If you powered off a single server node without shutting down the appliance, perform this step
only for that server node. If you shut down the appliance completely, then perform this step for
both server nodes.
■
142
Using the server node's Power button. Momentarily press and release the
recessed Power button on the front panel [1].
Oracle Database Appliance Service Manual • March 2015
Power On Oracle Database Appliance (Original Version)
On the server node, the green Power/OK LED [2] blinks while the server node is booting,
and remains steady on when the server node is operational.
■
Using the Oracle ILOM web interface:
a. Open a browser and enter the server node's service processor IP
address in the browser's address field.
b. At the log in page, type a user name (the account must have Reset and
Host Control (r) privileges) and password, and click the Log In button.
c. Go to Remote Power Control and select Power On from the Select
Action list box and then click Save and OK.
On the server node, the green Power/OK LED [2] blinks while the server node is
booting, and remains steady on when the server node is operational.
■
Using the Oracle ILOM CLI:
a. Log in to Oracle ILOM using an ssh client. Type:
$ssh [email protected]_ip_address
Where username is a user account name with Reset and Host Control (r) privileges
and sp_ip_address is the IP address of the server node service processor.
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143
Power On Oracle Database Appliance (Original Version)
b. When prompted, enter the user account password.
c. Enter the command to power on the server node:
-> start /SYS
On the server node, the green Power/OK LED [2] blinks while the server node is
booting, and remains steady on when the server node is operational.
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7
♦ ♦ ♦ C H A P T E R 7 Server Node Diagnostic Tools and Resetting the
Service Processor
This chapter introduces the diagnostic tools available to troubleshoot or monitor the
performance of your server nodes (also called system controllers). It also includes instructions
to reset the service processor (SP) in the event that it hangs or becomes inaccessible.
Note - Most of the tools and procedures described in this chapter are reserved and should not be
run on the appliance unless directed to do so by Oracle Service personnel.
■
■
“Server Node Diagnostic Tools” on page 145
“Resetting the Service Processor” on page 146
Server Node Diagnostic Tools
Oracle provides a wide selection of diagnostic tools for use with your server node. These tools
include lights out management of the system, service processor recovery, power-on self-test
(POST), U-Boot tests, or Pc-Check tests, as well as hardware LEDs that indicate the status of
system components.
The following table summarizes the available diagnostic tools.
Diagnostic Tool
What It Does
Where to Find Information
Oracle Integrated
Lights Out Manager
(ILOM)
Monitors server status, environmental
conditions, generates alerts (SNMP traps,
IPMI PETs, remote syslog), performs fault
isolation, provides remote console access.
Note - All patching/updating of Oracle
Database Appliance is done with the
regular Oracle Database Appliance Patch
Set Bundle. This includes BIOS and SP
firmware. This ensures that all software and
firmware component versions are supported
Refer to the appropriate Oracle Integrated
Lights Out Manager (ILOM) Documentation
Library based on your appliance's supported
version of Oraclel ILOM.
http://www.oracle.com/goto/ILOM/docs
Chapter 7 • Server Node Diagnostic Tools and Resetting the Service Processor
145
Resetting the Service Processor
Diagnostic Tool
What It Does
Where to Find Information
to work together. Patches are available
through My Oracle Support.
Oracle ILOM
Preboot Menu
The Oracle ILOM preboot menu is a utility
that can be used to fix problems with Oracle
ILOM that cannot be fixed while it is
running. It allows you to interrupt the Oracle
ILOM boot process, configure settings, then
continue booting Oracle ILOM. Among
other things, it allows you to reset the Oracle
ILOM root password to factory defaults,
restore Oracle ILOM access to the serial port.
Refer to the appropriate Oracle x86 Servers
Diagnostics Guide based on your appliance's
supported version of Oracle ILOM.
System indicators
and LEDs
Provides at-a-glance status of the system and
its components.
■ Chapter 1, “Overview of System Status
Indicators and LEDs”
■ Oracle Integrated Lights Out Manager
(ILOM) Documentation Library
Power-On Self-Test
(POST)
Tests core components of system: CPUs,
memory, and motherboard I/O bridge
integrated circuits.
■ “Default BIOS Power-On Self-Test
(POST) Events” on page 151
■ “BIOS POST F1 and F2
Errors” on page 153
U-Boot
Initializes and test aspects of the SP prior to
booting Oracle ILOM. Tests SP memory, SP,
network devices and I/O devices.
Refer to the appropriate Oracle x86 Servers
Diagnostics Guide based on your appliance's
supported version of Oracle ILOM.
http://www.oracle.com/goto/x86Admin
Diag/docs
http://www.oracle.com/goto/x86Admin
Diag/docs
Pc-Check
DOS-based utility that tests all motherboard
components (CPU, memory, and I/O), ports,
and slots.
Refer to the appropriate Oracle x86 Servers
Diagnostics Guide based on your appliance's
supported version of Oracle ILOM.
http://www.oracle.com/goto/x86Admin
Diag/docs
Resetting the Service Processor
There are times when you might need to reset the service processor (such as after a firmware
update). You can reset the server node SP using Oracle ILOM without affecting the host OS.
However, this action disconnects your current Oracle ILOM session and will not allow any new
sessions to be initiated until the reset has completed.
To reset the SP using the Oracle ILOM web interface or the CLI, see Oracle Integrated Lights
Out Manager (ILOM) Documentation Library:
http://www.oracle.com/goto/ILOM/docs
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Oracle Database Appliance Service Manual • March 2015
Resetting the Service Processor
Note - Be sure to refer to the documentation that applies to the version of Oracle ILOM
supported with your appliance. See the "Supported Components and Capabilities" section in the
Oracle Database Appliance Owner's Guide.
If you are unable to reset the SP using the Oracle ILOM web interface or the CLI (for example,
if the SP hangs), then use the SP reset button as described in the following table.
ODA (Original Version)
ODA X3-2
ODA X4-2
ODA X5-2
1. Find the SP reset
button on the rear of
the system, next to the
power supply and the
Locate button/LED.
Reset the Service
Processor From the
Server Back Panel
Reset the Service
Processor From the
Server Back Panel
Reset the Service
Processor From the
Server Back Panel
See the "Oracle
Database Appliance
(Original Version)
Back Panel" section in
the Oracle Database
Appliance Owner's
Guide.
2. Insert a small stylus or
non-conductive object
into the opening and
press the recessed push
button switch.
The SP resets.
Chapter 7 • Server Node Diagnostic Tools and Resetting the Service Processor
147
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8
♦ ♦ ♦ C H A P T E R 8 Server Node Basic Input/Output System (BIOS)
The Basic Input/Output System (BIOS) has a Setup Utility stored in the BIOS flash memory.
The Setup Utility reports system information and can be used to configure the BIOS settings.
The configurable data is provided with context-sensitive help and is stored in the system's
battery-backed CMOS RAM. If the configuration stored in the CMOS RAM is invalid, the
BIOS settings return to their default optimal values.
Note - The BIOS menus shown in this chapter are examples. The BIOS version numbers, menu
information, and menu selections are subject to change over the life of the product. You should
not change the factory settings unless prompted to do so by Oracle Service personnel.
■
■
“Oracle Database Appliance X3-2/X4-2/X5-2 BIOS Utility” on page 149
“Oracle Database Appliance (Original Version) BIOS Utility” on page 151
Oracle Database Appliance X3-2/X4-2/X5-2 BIOS Utility
This section describes the Oracle Database Appliance X3-2, Oracle Database Appliance
X4-2, and Oracle Database Appliance X5-2 BIOS utility. If you have Oracle Database
Appliance (original version), go to “Oracle Database Appliance (Original Version) BIOS
Utility” on page 151.
All settings are set to the optimal defaults at startup.
Caution - You should not configure system BIOS settings. Oracle Database Appliance patch
software will do this for you. The only time you might need to configure BIOS settings would
be if requested to do so by Oracle Service.
The following topics are included:
■
■
“Setting Up BIOS Configuration Parameters” on page 150
“BIOS Setup Utility Menu Options” on page 150
Chapter 8 • Server Node Basic Input/Output System (BIOS)
149
Oracle Database Appliance X3-2/X4-2/X5-2 BIOS Utility
Setting Up BIOS Configuration Parameters
This section describes the BIOS configuration parameters for Oracle Database Appliance X3-2,
Oracle Database Appliance X4-2, and Oracle Database Appliance X5-2.
Note - The links in the following table take you to instructions outside of the Oracle Database
Appliance library to the Sun Server X3-2, Sun Server X4-2, and Oracle Server X5-2
documentation libraries. Use your browser's Back button to return to the Oracle Database
Appliance library.
ODA X3-2
ODA X4-2
ODA X5-2
Managing the BIOS Configuration
Managing the BIOS Configuration
Managing the BIOS Configuration
Accessing the BIOS Setup
Utility
Accessing the BIOS Setup
Utility
Accessing the BIOS Setup
Utility
Using Legacy or UEFI BIOS
Using Legacy or UEFI BIOS
Using Legacy or UEFI BIOS
Using BIOS for Resource
Allocation
Using BIOS for Resource
Allocation
Using BIOS for Resource
Allocation
Common BIOS Setup Utility Tasks
Common BIOS Setup Utility Tasks
Common BIOS Setup Utility Tasks
BIOS Setup Utility Menu Options
This section describes the BIOS utility menu options for Oracle Database Appliance X3-2,
Oracle Database Appliance X4-2,and Oracle Database Appliance X5-2.
Note - The links in the following table take you to instructions outside of the Oracle Database
Appliance library to the Sun Server X3-2, Sun Server X4-2, and Oracle Server X5-2
documentation libraries. Use your browser's Back button to return to the Oracle Database
Appliance library.
150
ODA X3-2
ODA X4-2
ODA X5-2
BIOS Main Menu Selections
BIOS Main Menu Selections
BIOS Main Menu Selections
BIOS Advanced Menu Selections
BIOS Advanced Menu Selections
BIOS Advanced Menu Selections
BIOS IO Menu Selections
BIOS IO Menu Selections
BIOS IO Menu Selections
BIOS Boot Menu Selections
BIOS Boot Menu Selections
BIOS Boot Menu Selections
UEFI Driver Control Menu
Selections
UEFI Driver Control Menu
Selections
See the Advanced Menu for driver
settings.
BIOS Save and Exit Menu
Selections
BIOS Save and Exit Menu
Selections
BIOS Save and Exit Menu
Selections
Oracle Database Appliance Service Manual • March 2015
Oracle Database Appliance (Original Version) BIOS Utility
Oracle Database Appliance (Original Version) BIOS Utility
This section describes the Oracle Database Appliance (original version) BIOS utility. If
you have Oracle Database Appliance X3-2, Oracle Database Appliance X4-2, or Oracle
Database Appliance X5-2, go to “Oracle Database Appliance X3-2/X4-2/X5-2 BIOS
Utility” on page 149.
This section describes the Oracle Database Appliance (original version) BIOS utility.
All settings are set to the optimal defaults at startup.
Caution - You should not configure system BIOS settings. Oracle Database Appliance patch
software will do this for you. The only time you might need to configure BIOS settings would
be if requested to do so by Oracle Service.
The following topics are included:
■
■
■
■
■
■
■
“BIOS Booting and Setup” on page 151
“Configuring Support for TPM” on page 158
“Configuring SP LAN Settings” on page 164
“Configuring Option ROM Settings in BIOS” on page 165
“BIOS Setup Utility Hot Keys” on page 167
“Accessing the BIOS Setup Utility Menus” on page 167
“BIOS Setup Utility Screens” on page 170
BIOS Booting and Setup
The following sections describe the tests performed by BIOS during Oracle Database Appliance
(original version) bootup:
■
■
■
■
“Default BIOS Power-On Self-Test (POST) Events” on page 151
“BIOS POST F1 and F2 Errors” on page 153
“How BIOS POST Memory Testing Works” on page 155
“Clearing Server Node CMOS NVRAM” on page 156
Default BIOS Power-On Self-Test (POST) Events
When an Oracle Database Appliance (original version) server node (also called a system
controller) starts, the BIOS performs a power-on self-test that checks the hardware to ensure
that all components are present and functioning properly. The following table identifies the
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Oracle Database Appliance (Original Version) BIOS Utility
events that can occur during BIOS POST, as well as specifies whether these events can prevent
the host from powering-on.
Event
Cause
Boot Continues on
Host?
User password violation
Attempt to enter password fails three times
No
Setup password violation
Attempt to enter password fails three times
No
Correctable ECC
Memory Correctable ECC (error correction
code) error is detected
Does not apply
Uncorrectable ECC
Memory Uncorrectable ECC error is detected
Does not apply
No system memory
No physical memory is detected in the
system
No
No usable system memory
All installed memory has experienced an
unrecoverable failure
No
Hard disk controller failure
No disk controller is found
Yes
Keyboard failure
Keyboard cannot be initialized
Yes
Boot media failure
No removable boot media is found
Yes
No video device
No video controller is found
No
Firmware (BIOS) ROM corruption
BIOS checksum fails and the boot block is
not corrupted
No
System restart
System boot is initiated
Yes
Initiated by hard reset
Boot process is started by hard reset
Yes
Memory initialization
Memory sizing is occurring
Does not apply
System firmware progress
Primary processor initialization
Primary CPU initialization
Does not apply
System firmware progress
Initiated by warm reset
Boot process is started by warm reset
Does not apply
Embedded controller management
Management controller initialization
Does not apply
Secondary processor(s) initialization
Secondary CPU initialization asserted
Does not apply
System firmware progress
Video initialization
When BIOS initializes keyboard
Does not apply
Keyboard controller initialization
When BIOS initializes keyboard
Does not apply
Option ROM initialization
BIOS initializes Option ROMs
Does not apply
System firmware progress
Option ROM space exhausted
BIOS cannot install an Option ROM
(typically a plug-in card driver) into memory
from that device preventing booting
Yes
User initiated system set up
User initiated access to BIOS Setup Utility
Does not apply
System firmware progress
User initiated boot to OS
System boot is initiated
System firmware progress
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Does not apply
Oracle Database Appliance (Original Version) BIOS Utility
Event
Cause
Boot Continues on
Host?
No bootable media
No media from which to boot
No
PXE server not found
Boot error - PXE server not found
No. BIOS tries next
boot device.
F12 key was pressed but BIOS fails to boot
from PXE server
ACPI Power state
Soft-off power applied
Does not apply
BIOS POST F1 and F2 Errors
Each Oracle Database Appliance (original version) power-on-self-test (POST) diagnostic
is a low-level test designed to detect faults in a specific hardware component. If the POST
diagnostic discloses an F1 or F2 error, it typically reports the following information about the
error:
■
■
Type of error detected
When or where the error occurred
The following table lists some of the F1 and F2 error messages that could appear during the
POST diagnostics along with instructions for how to possibly resolve the error reported.
BIOS POST Error Message
Error Type
Resolution
Uncorrectable Error Detected on Last Boot:IOH(0)
Protocol Error (Please Check SP Log for more
Details)
IOH error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
Uncorrectable Error Detected on Last Boot:IOH(0)
QPI [x] Error (Please Check SP Log for more Details)
IOH error
■ Press F1 to continue.
■ Check the fault management function and the SP
event log in Oracle ILOM for more details.
Note - Where QPI [x] equals 0 for QPI Link 0 or 1 for
QPI Link 1.
Uncorrectable Error Detected on Last Boot:IOH(0)
PCI-E [x] Error (Please Check SP Log for more
Details)
IOH error
■ Press F1 to continue.
■ Check the fault management function and the SP
event log in Oracle ILOM for more details.
Note - Where PCI-E [x] port number can range from
1 to 10 depending on the PCI root port on IOH.
Uncorrectable Error Detected on Last Boot:IOH(0)
ESI Error (Please Check SP Log for more Details)
IOH error
■ Press F1 to continue.
■ Check the fault management function and the SP
event log in Oracle ILOM for more details.
Uncorrectable Error Detected on Last Boot:IOH(0)
Thermal Error (Please Check SP Log for more
Details)
IOH error
■ Press F1 to continue.
■ Check the fault management function and the SP
event log in Oracle ILOM for more details.
Uncorrectable Error Detected on Last Boot:IOH(0)
DMA Error (Please Check SP Log for more Details)
IOH error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
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BIOS POST Error Message
Error Type
Resolution
Uncorrectable Error Detected on Last Boot:IOH(0)
Miscellaneous Error (Please Check SP Log for more
Details)
IOH error
■ Press F1 to continue.
■ Check the fault management function and the SP
event log in Oracle ILOM for more details.
Uncorrectable Error Detected on Last Boot:IOH(0)
VTd Error (Please Check SP Log for more Details)
IOH error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
BMC Not Responding
Oracle ILOM error
■ Press F1 to continue.
Note - This error message might display if during
the SP/BIOS communication an internal error occurs.
This error might require you to restart the SP.
■
■
■
■
Primary Slave Hard Disk Error
Primary Master Hard Disk Error
Secondary Master Hard Disk Error
Secondary Slave Hard Disk Error
IDE/ATAPI error
Note - These type of error messages display when the
BIOS is attempting to configure IDE/ATAPI devices
in POST.
Note - These error messages are not supported on
Oracle Database Appliance.
Timer Error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
8254 timer error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
Note - This type of error typically indicates an error
while programming the count register of channel 2
of the 8254 timer. This could indicate a problem with
system hardware.
RAM R/W test failed
Memory test failure
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
Note - This type of error typically indicates that the
RAM read/write test failed.
KBC BAT Test failed
Keyboard controller basic
assurance test error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
Note - Keyboard controller BAT test failed. This error
might indicate a problem with keyboard controller
initialization.
Display memory test failed
Video display error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
CMOS Battery Low
CMOS battery error
■ Press F2 to enter BIOS Setup Utility to load
system defaults.
■ Check the SP event log in Oracle ILOM for more
details.
■ If necessary, replace CMOS battery.
■ CMOS Checksum Bad
■ CMOS Date/Time Not Set
CMOS error
■ Press F2 to enter BIOS Setup Utility to load
system defaults.
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BIOS POST Error Message
Error Type
Resolution
■ Check the SP event log in Oracle ILOM for more
details.
Password check failed
Password check error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
Note - This type of error indicates that the password
entered does not match the password specified in the
BIOS Setup Utility. This condition might occur for
both Supervisor and User password verification.
Keyboard/Interface Error
Keyboard controller error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
Note - This type of error indicates that the Keyboard
Controller failure. This error might indicate a problem
with system hardware.
S.M.A.R.T error on the drive
S.M.A.R.T device error
■ Press F1 to continue.
■ Check the SP event log in Oracle ILOM for more
details.
Note - Self-Monitoring, Analysis, and Reporting
Technology (S.M.A.R.T.) failure messages might
indicate the need to replace the storage device.
How BIOS POST Memory Testing Works
The Oracle Database Appliance (original version) BIOS POST memory testing is performed as
follows:
1. The first megabyte of DRAM is tested by the BIOS before the BIOS code is copied from
ROM to DRAM.
2. After existing out of DRAM, the BIOS performs a simple memory test (where a write/read
of every location with the pattern 55aa55aa is performed).
Note - The simple memory test is performed only if Quick Boot is not enabled from the Boot
Settings Configuration screen. Enabling Quick Boot causes the BIOS to skip the memory test.
3. The BIOS polls the memory controllers for both correctable and non-correctable memory
errors and logs those errors into the SP.
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Reset BIOS Password and Clear CMOS NVRAM Using CLR CMOS Button
Clearing Server Node CMOS NVRAM
You can clear the CMOS NVRAM by pressing the CLR CMOS button on the Oracle Database
Appliance (original version) server node motherboard. This action sets the BIOS to defaults
values, which clears the BIOS user and supervisor passwords.
You can also set or reset the BIOS password from the BIOS Setup Utility. See “BIOS Security
Menu Screen” on page 175 for more information.
Caution - Data loss. You should not perform this procedure unless instructed to do so by Oracle
Service.
Reset BIOS Password and Clear CMOS NVRAM Using CLR CMOS Button
1.
Prepare the server node for service.
a. Attach an antistatic wrist strap.
See “Performing Electrostatic Discharge and Antistatic Prevention Measures” on page 34.
b. Remove the server node from the system.
Power is removed from the server node when you remove it from the system. See
“Removing Server Nodes From the System Chassis” on page 34.
c. Remove the server node top cover.
See “Removing the Server Node Top Cover” on page 35.
2.
156
Using a stylus, press and release the CLR CMOS button.
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3.
Return the server node to operation.
a. Install the server node top cover.
See “Installing the Server Node Top Cover” on page 139.
b. Install the server node into the system.
See “Installing a Server Node Into the System Chassis” on page 140.
c. Power on the server node.
See “Powering On Oracle Database Appliance (Original Version)” on page 142.
When the server node powers on and boots, it displays a message that indicates that
NVRAM has been cleared.
The CMOS NVRAM, including the BIOS password is cleared to its default state.
The default state for the BIOS passwords is that no password is required. To set a BIOS
password, see “BIOS Security Menu Screen” on page 175.
4.
Verify that the Power/OK LED is lit on the server node.
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Configure TPM Support in BIOS
Ethernet Port Naming and Boot Order
Each Oracle Database Appliance (original version) server node supports two 10/100/1000BaseT Gigabit Ethernet ports on the rear of the chassis. For port locations, see the Oracle Database
Appliance Owner's Guide.
The device naming for the Ethernet interfaces is reported differently by different interfaces
and operating systems. See the following table for the physical (BIOS) and logical (operating
system) naming conventions used for each interface.
Interface
NET0
NET1
BIOS
NET0
NET1
Oracle Linux
eth0
eth1
The order in which the BIOS detects the Ethernet ports during boot time, and the corresponding
drivers that control those ports, are listed below:
1. NET 0 (INTEL NIC 0)
2. NET 1 (INTEL NIC 1)
Configuring Support for TPM
If you intend to use the Oracle Database Appliance (original version) Trusted Platform Module
(TPM) feature set, you must configure the server node to support this feature.
TPM enables you to administer the TPM security hardware in your server node. For additional
information about implementing this feature, see the Trusted Platform Module Management
documentation.
Configure TPM Support in BIOS
1.
Access the BIOS Setup Utility menus.
For instructions, see “Accessing the BIOS Setup Utility Menus” on page 167.
When BIOS is started, the main BIOS Setup Utility top-level System Overview screen appears.
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2.
In the BIOS Setup Utility screen, select the Advanced menu option.
The Advanced Settings screen appears.
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Configure TPM Support in BIOS
3.
In the Advanced Settings screen, select Trusted Computing and press Enter.
The Trusted Computing screen appears.
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Configure TPM Support in BIOS
4.
In the Trusted Computing screen, select the TCG/TPM Support.
A pop-up dialog box appears.
5.
In the pop-up dialog box, set the TCG/TPM Support option to Yes and click OK.
Note - Even if the TCG/TPM Support was already set to Yes in the dialog shown above,
continue on and complete the remaining steps of this procedure to ensure that all TPM
configuration requirements are satisfied.
The updated Trusted Computing dialog appears and shows that the TCG/TPM Support setting
has changed to Yes.
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Configure TPM Support in BIOS
Note - In the above screen, the Execute TPM Command setting shows the default, Don't
Change.
6.
In the Trusted Computing screen, select the Execute TPM Command option
setting.
A pop-up dialog box appears.
7.
In the pop-up dialog box, set the Execute TPM Command option to Enabled and
click OK.
The updated Trusted Computing screen appears and shows that the Execute TPM Command
setting has changed to Enabled.
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8.
Press F10 to save the changes and exit the BIOS Setup Utility.
9.
To verify that TPM support is configured, do the following:
a. Reboot the server node.
b. To enter the BIOS Setup Utility, press the F2 key while the system is
performing the power-on self-test (POST).
When BIOS is started, the main BIOS Setup Utility top-level screen appears.
c. Select Advanced, then select Trusted Computing and press Enter.
The updated Trusted Computing screen appears.
Confirm that the TCG/TPM Support setting is set to Yes and the TPM Enabled/Disable
Status is set to Enabled.
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Configure LAN Settings for SP
10.
Press F10 to exit the BIOS Setup Utility.
This completes the TPM configuration.
Configuring SP LAN Settings
You can assign an IP address for the Oracle Database Appliance (original version) server node
SP from the BIOS Setup Utility on the IPMI LAN configuration menu. Alternatively, you can
also specify the LAN settings for the SP using Oracle ILOM. For instructions for setting the
IP address in Oracle ILOM, see Oracle Integrated Lights Out Manager (Oracle ILOM) 3.0
Documentation Collection.
Configure LAN Settings for SP
1.
Access the BIOS Setup Utility menus.
For instructions, see “Accessing the BIOS Setup Utility Menus” on page 167.
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2.
In the BIOS Setup Utility menus, use the arrow keys (or Tab key) to navigate to
the Advanced menu.
3.
In the Advanced menu, select IPMI Configuration.
4.
In the IPMI Configuration menu, select LAN Configuration.
The LAN Configuration screen appears.
5.
In the LAN Configuration screen, use the arrow keys to select and specify the
appropriate LAN configuration settings.
6.
After making the necessary changes, select Commit and press Enter to apply the
changes.
7.
Press F10 to save the changes and exit BIOS.
Configuring Option ROM Settings in BIOS
The Oracle Database Appliance (original version) BIOS Option ROM space is 128 Kbytes. Of
these 128 Kbytes, approximately 80 Kbytes are used by the VGA controller, the disk controller,
and the network interface card. Approximately 48 Kbytes remain to be shared by the Option
ROMs on all bootable PCI-Express plug-in cards.
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Enable or Disable Option ROM Settings
Enable or Disable Option ROM Settings
1.
Access the BIOS Setup Utility menus.
For instructions, see “Accessing the BIOS Setup Utility Menus” on page 167.
2.
In the BIOS Setup Utility menus, use the arrow keys (or Tab key) to navigate to
the Boot menu.
The Boot menu appears.
3.
In the Boot menu, highlight the Option ROM setting, and then press Enter.
4.
Check whether the settings in your screen output match what is shown above. If
they do not match, proceed to the next step. If they match, proceed to Step 5 and
exit BIOS.
5.
To change the settings, in the Boot menu listing the Option ROM settings,
highlight the applicable Option ROM setting to modify, then press Enter.
A dialog box appears listing the available settings.
6.
7.
166
In the dialog box, do one of the following:
■
Select -Enabled to enable the Option ROM setting.
■
Select -Disabled to disable the Option ROM setting.
Press F10 to save the changes and exit the BIOS Setup Utility.
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BIOS Setup Utility Hot Keys
The following table provides a description of the Oracle Database Appliance (original version)
BIOS Setup Utility Oracle ILOM Remote Console keys and the directly attached keyboard
keys, and the corresponding serial connection key combinations.
Oracle ILOM Remote Console Keys
Serial Connection Hot Key
Combinations
Function
F1
Ctrl+Q (Press and hold the Control
key and type Q)
Access the BIOS Setup Utility if
there is an error during the boot
process.
F2
Ctrl+E
Enter BIOS Setup Utility when the
system has completed the power-on
self-test (POST).
F7
Ctrl+D
Discard changes, but do not exit.
F8
Ctrl+P
Select the BBS Popup menu, which
allows you to select a boot device.
Ctrl+O
Load optimal BIOS defaults.
F10
Ctrl+S
Save changes and exit.
F12
Ctrl+N
Boot the server node from the
network (PXE boot).
F9
†
†
F10 is not supported on the Oracle ILOM Remote Console; instead, use the arrow keys to navigate to the Exit menu and press Enter.
Accessing the BIOS Setup Utility Menus
You can access Oracle Database Appliance (original version) BIOS Setup Utility screens from
the following interfaces:
■
■
■
Use a USB keyboard, mouse, and VGA monitor connected directly to the server node.
Use a terminal (or terminal emulator connected to a computer) through the serial port on the
back panel of the server node.
Connect to the server node using the Oracle ILOM Remote Console.
The following procedure describes the steps for accessing the BIOS Setup Utility menus.
Access BIOS Setup Utility Menus
1.
Power-on or power-cycle the server node.
2.
The following information appears on the screen:
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Access BIOS Setup Utility Menus
3.
To enter the BIOS Setup Utility, do the following:
a. Wait for the last line of the screen output to change to Initializing USB
Controllers..Done
This will take several seconds.
b. When Done appears, press the F2 key immediately.
Note - If there is an error during the boot process, you can press F1 to access the BIOS Setup
Utility.
The BIOS Setup Utility dialog appears.
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Note - If the BIOS Setup Utility dialog does not appear, you waited too long to press the F2
key. When Done appears on the screen, you must press the F2 key immediately. Try again.
4.
Use the left and right arrow keys to select the different menu options.
5.
As you select each menu option, the top-level screen for that menu option
appears.
6.
To select an option on a top-level screen, use the up and down arrow keys to
scroll up and down the options presented.
Only options that can be modified are highlighted when you press the up and down arrow keys.
7.
■
If a field can be modified, as you select the option, user instructions for
modifying the option appear in the right column of the screen.
■
If a field is a link to a sub-screen, instructions to press the Enter key to
access the sub-screen appear in the right column.
Modify the setup field and press the Esc key to save the changes and exit the
screen.
Some screens present a confirmation dialog box that enables unwanted changes to be retracted.
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Access BIOS Setup Utility Menus
8.
On sub-screens that only provide configuration information and cannot be
modified, press the Esc key to exit the screen.
9.
To continue modifying other setup parameters, repeat Step 4 through Step 8.
Otherwise, go to Step 10.
10.
Press and release the right arrow key until the Exit menu screen appears.
11.
Follow the instructions on the Exit menu screen to save or discard your changes
and exit the BIOS Setup Utility.
BIOS Setup Utility Screens
This section describes the Oracle Database Appliance (original version) BIOS setup utility
screens. It includes the following sections:
■
■
■
■
■
■
■
■
“BIOS Setup Utility Screen Overview” on page 170
“BIOS Main Menu Screen” on page 172
“BIOS Advanced Menu Screen” on page 173
“BIOS PCI Menu Screen” on page 174
“BIOS Boot Menu Screen” on page 175
“BIOS Security Menu Screen” on page 175
“BIOS Chipset Menu Screen” on page 176
“BIOS Exit Menu Screen” on page 176
The BIOS utility includes seven top-level screens, many of which include sub screens. Arrow
keys provide navigation, and the options or fields that you can configure appear in color. Online
instructions provide additional information.
Note - The screens shown are examples. The version numbers and the screen items and
selections shown are subject to change over the life of the product.
BIOS Setup Utility Screen Overview
The following table contains summary descriptions of the Oracle Database Appliance (original
version) top-level BIOS setup screens.
170
Screen
Description
See This Section
Main
General product information, including BIOS
type, processor, memory, and time/date.
“BIOS Main Menu Screen” on page 172
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Screen
Description
See This Section
Advanced
Configuration information for the CPU,
memory, IDE, Super IO, trusted computing,
USB, PCI, MPS and other information.
“BIOS Advanced Menu
Screen” on page 173
PCI
Configure the system to clear NVRAM
during system boot.
“BIOS PCI Menu Screen” on page 174
Boot
Configure the boot device priority (storage
drives and boot disk drives).
“BIOS Boot Menu Screen” on page 175
Security
Set or change the user and supervisor
passwords.
“BIOS Security Menu
Screen” on page 175
Chipset
View the configuration of system chip set.
“BIOS Chipset Menu
Screen” on page 176
Exit
Save changes and exit, discard changes and
exit, discard changes, or load optimal or failsafe defaults.
“BIOS Exit Menu Screen” on page 176
The following figures shows a map of the BIOS screens.
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Access BIOS Setup Utility Menus
BIOS Main Menu Screen
The Oracle Database Appliance (original version) BIOS Main screen provides general product
information, including BIOS, processor, system memory, and system time/date.
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Access BIOS Setup Utility Menus
BIOS Advanced Menu Screen
The Oracle Database Appliance (original version) BIOS Advanced screen provides detailed
configuration information for the CPU, memory, IDE, Super IO, trusted computing, USB, PCI,
MPS and other system information.
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Access BIOS Setup Utility Menus
BIOS PCI Menu Screen
The Oracle Database Appliance (original version) BIOS PCI screen enables you to configure
the server node to clear NVRAM during system boot.
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BIOS Boot Menu Screen
The Oracle Database Appliance (original version) BIOS Boot screen enables you to configure
the boot device priority (storage drives and the DVD-ROM drive).
BIOS Security Menu Screen
The Oracle Database Appliance (original version) BIOS Security screen enables you to set
or change the supervisor and user passwords. The default state is for the passwords to be
unconfigured (not required).
■
■
If you configure a supervisor password, users must enter it to access BIOS setup.
If you configure a user password, users must enter it before booting an OS.
Chapter 8 • Server Node Basic Input/Output System (BIOS)
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Access BIOS Setup Utility Menus
BIOS Chipset Menu Screen
The Oracle Database Appliance (original version) BIOS Chipset screen enables you to set the
chipset parameters.
BIOS Exit Menu Screen
The Oracle Database Appliance (original version) BIOS Exit options enable you to save
changes and exit, discard changes and exit, discard changes, or load optimal defaults.
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Exit From the BIOS Setup Utility
Exit From the BIOS Setup Utility
1.
Use the up and down arrow keys to scroll up and down the BIOS Exit options.
2.
Press Enter to select the option.
A confirmation dialog box appears that enables you to save the changes and exit the Setup
Utility or cancel the exit option.
Note - The confirmation dialog box is only shown below for the Save Changes and Exit option
screen. The other exit confirmation screens work in a similar way.
Chapter 8 • Server Node Basic Input/Output System (BIOS)
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Index
A
air duct
installing
ODA (original version), 96
removing
ODA (original version), 94, 94
antistatic wrist strap
described
ODA (original version), 34
ODA X3-2/X4-2/X5-2, 27
B
battery
installing
ODA (original version), 84
removing
ODA (original version), 83
servicing server node
ODA (original version), 82
ODA X3-2/X4-2/X5-2, 61
BIOS
accessing Setup Utility
ODA (original version), 167
accessing the setup utility
ODA X3-2/X4-2/X5-2, 150
advanced menu options
ODA X3-2/X4-2/X5-2, 150
Advanced Menu screen
ODA (original version), 170
boot menu options
ODA X3-2/X4-2/X5-2, 150
Boot Menu screen
ODA (original version), 170
Chipset Menu screen
ODA (original version), 170
common tasks
ODA X3-2/X4-2/X5-2, 150
Exit Menu screen
ODA (original version), 170
I/O menu options
ODA X3-2/X4-2/X5-2, 150
LAN settings
ODA (original version), 164
legacy and UEFI modes
ODA X3-2/X4-2/X5-2, 150
main menu options
ODA X3-2/X4-2/X5-2, 150
Main Menu screen
ODA (original version), 170
managing configurations
ODA X3-2/X4-2/X5-2, 150
memory testing
ODA (original version), 155
Option ROM settings
ODA (original version), 165
PCI Menu screen
ODA (original version), 170
POST errors
ODA (original version), 153
POST events
ODA (original version), 151
resetting password
ODA (original version), 156
sample setup menu screens
ODA (original version), 170
save and exit options
ODA X3-2/X4-2/X5-2, 150
Security Menu screen
ODA (original version), 170
setup screens summary
ODA (original version), 170, 170
179
Index
UEFI driver control options
ODA X3-2/X4-2/X5-2, 150
using for resource allocation
ODA X3-2/X4-2/X5-2, 150
BIOS Setup Utility
accessing
ODA X3-2/X4-2/X5-2, 150
hot keys
ODA (original version), 167
boot disk backplane cables
installing
ODA (original version), 131
removing
ODA (original version), 130
boot drives
slot numbering and supported types
ODA (original version), 48
C
cables
reconnecting power and data cables after servicing
ODA (original version), 142
ODA X3-2/X4-2/X5-2, 137
chassis interlock switch
disconnecting
ODA (original version), 105
reconnecting
ODA (original version), 107
CLR CMOS button
location of
ODA (original version), 156
CMOS NVRAM
clearing
ODA (original version), 156
cold service components
ODA (original version), 28
CPUs
clearing faults
ODA (original version), 100
fault LED locations
ODA (original version), 97
fault LEDs
ODA (original version), 24
installing
ODA (original version), 100
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population rules
ODA (original version), 64
removing
ODA (original version), 97
servicing
ODA (original version), 96
ODA X3-2/X4-2/X5-2, 87
CRUs
removal that does not require system power off, 39
removal that requires system power off, 61
D
date and time
resetting after battery replacement
ODA (original version), 84
server node battery
ODA (original version), 82
diagnostic tools
summary of, 145
DIMMs
clearing faults
ODA (original version), 68
error correction (ECC)
ODA (original version), 71
Fault Remind button
ODA (original version), 65
installing
ODA (original version), 68
population rules
ODA (original version), 64
removing
ODA (original version), 65
servicing
ODA (original version), 63
ODA X3-2/X4-2/X5-2, 61
disk backplane
installing boot disk backplane
ODA (original version), 104
removing boot disk backplane
ODA (original version), 103
servicing boot disk backplane
ODA (original version), 103
servicing disk backplane
ODA X3-2/X4-2/X5-2, 87
updating TLI information after replacement
Index
ODA X3-2/X4-2/X5-2, 88
disk midplane module
installing
ODA (original version), 113
removing
ODA (original version), 109
servicing
ODA (original version), 109
disk midplane module HDD cable
installing
ODA (original version), 116
removing
ODA (original version), 115
servicing
ODA (original version), 115
E
ECC memory
correctable and uncorrectable errors
ODA (original version), 71
electrostatic discharge (ESD)
precautions
ODA (original version), 34
ODA X3-2/X4-2/X5-2, 27
emergency shutdown
server node
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
Ethernet ports
LEDs
ODA (original version), 25
naming and boot priority
ODA (original version), 158
F
fan power cable
installing
ODA (original version), 123
removing
ODA (original version), 122
fans
detecting faults using LEDs
ODA (original version), 54
installing
ODA (original version), 55, 58
LEDs
ODA (original version), 20
removing
ODA (original version), 54
replacing in server node
ODA (original version), 53
server node
ODA X3-2/X4-2/X5-2, 39
fault LED
server node fan
ODA (original version), 54
server node power supply
ODA (original version), 57
Fault Remind button
identifying faulty CPU
ODA (original version), 97
locating a faulty DIMM
ODA (original version), 65
faults
clearing CPU faults
ODA (original version), 100
clearing DIMM faults
ODA (original version), 68
clearing PCIe card faults
ODA (original version), 77
clearing PCIe riser faults
ODA (original version), 73
clearing the primary HBA card faults
ODA (original version), 81
managing
ODA X3-2/X4-2, 93
front indicator module (FIM)
connectors
ODA (original version), 109
front indicator panels
installing
ODA (original version), 120
removing
ODA (original version), 117
servicing
ODA (original version), 117
ODA X3-2/X4-2/X5-2, 87
FRU
component locations
ODA X3-2/X4-2/X5-2, 87
181
Index
FRUs
removal that requires system power off, 87
G
graceful shutdown
server node
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
removing from primary HBA
ODA (original version), 124
removing from secondary HBA
ODA (original version), 126
servicing SAS cables
ODA X3-2/X4-2/X5-2, 87
hotswap components, 39
ODA (original version), 28
server node
ODA (original version), 47
ODA X3-2/X4-2/X5-2, 39
H
hard disk drives
install boot drive
ODA (original version), 52
installing
ODA (original version), 50
remove boot drive
ODA (original version), 51
removing
ODA (original version), 49
replacing in server node
ODA (original version), 47
replacing in storage shelf
ODA X3-2/X4-2/X5-2, 41
server node
ODA X3-2/X4-2/X5-2, 39
slot numbering and supported types
ODA (original version), 48
storage and boot drive status indicators
ODA (original version), 21
HBA
installing the primary HBA
ODA (original version), 81
primary and secondary cards
ODA (original version), 75
removing the primary HBA card
ODA (original version), 79
heatsink
cleaning
ODA (original version), 97
host bus adapter (HBA) cables
installing in primary HBA
ODA (original version), 125
installing in secondary HBA
ODA (original version), 127
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I
I/O module
replacing in ODA storage shelf
ODA X3-2/X4-2, 45
ILOM See Oracle Integrated Lights Out Manager
L
LEDs
AC OK
ODA (original version), 21
Activity
ODA (original version), 21
CPU fault
ODA (original version), 24
DC OK
ODA (original version), 21
Ethernet ports
ODA (original version), 25
fans
ODA X3-2/X4-2, 14
ODA X5-2, 11
fans status
ODA (original version), 20
Fault Remind Power Good
ODA (original version), 24
general status
ODA X3-2/X4-2, 14
ODA X5-2, 11
internal server node
ODA (original version), 24
Locate
ODA (original version), 17
Index
memory DIMM fault
ODA (original version), 24
motherboard
ODA X3-2/X4-2, 14
ODA X5-2, 11
ODA X3-2/X4-2, 14
ODA X5-2, 11
OK
ODA (original version), 20
Over Temperature
ODA (original version), 17
power supplies
ODA X3-2/X4-2, 14
ODA X5-2, 11
Power/OK
ODA (original version), 17
Ready to Remove
ODA (original version), 17, 21
rear component failure
ODA (original version), 17
server node rear Locate
ODA (original version), 22
server node rear Locate push to test
ODA (original version), 22
server node rear Power/OK
ODA (original version), 22
server node rear Ready to Remove
ODA (original version), 22
server node rear Service Required
ODA (original version), 22
Service Required
ODA (original version), 17, 20, 21, 21
SP OK/Fault
ODA (original version), 17
storage and boot drives
ODA (original version), 21
storage devices
ODA X3-2/X4-2, 14
ODA X5-2, 11
storage shelf back panel
ODA X3-2/X4-2, 16
ODA X5-2, 13
storage shelf front panel
ODA X3-2/X4-2, 12, 15
M
memory See DIMMs
motherboard
updating TLI information after replacement
ODA X3-2/X4-2/X5-2, 88
motherboard assembly
installing replaceable components
ODA (original version), 134
removing replaceable components
ODA (original version), 133
replaceable components on
ODA (original version), 131
ODA X3-2/X4-2/X5-2, 87
servicing
ODA X3-2/X4-2/X5-2, 87
N
network ports
naming and boot order
ODA (original version), 158
O
Option ROM settings
configuring
ODA (original version), 165
Oracle Integrated Lights Out Manager (Oracle ILOM)
server node power off procedures
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
server node power on procedures
ODA (original version), 142
ODA X3-2/X4-2/X5-2, 138
SP reset, 146
used as diagnostic tool, 145
P
Pc-Check, 145
PCIe cards
clearing faults
ODA (original version), 77
configurations supported
ODA (original version), 75
installing in PCIe riser
183
Index
ODA (original version), 77
installing the primary HBA
ODA (original version), 81
primary and secondary HBA
ODA (original version), 75
removing from PCIe riser
ODA (original version), 76
removing the primary HBA card
ODA (original version), 79
servicing
ODA (original version), 75
ODA X3-2/X4-2/X5-2, 61
PCIe riser
clearing faults
ODA (original version), 73
installing
ODA (original version), 73
removing
ODA (original version), 71
servicing
ODA (original version), 71
ODA X3-2/X4-2/X5-2, 61
power distribution board
installing
ODA (original version), 107
removing
ODA (original version), 105
servicing
ODA (original version), 105
power off
system, 33
power supplies
detecting faults using LEDs
ODA (original version), 57
removing
ODA (original version), 57
replacing in server node
ODA (original version), 56
replacing in storage shelf
ODA X3-2/X4-2, 43
server node
ODA X3-2/X4-2/X5-2, 39
status indicators
ODA (original version), 21
power-on self-test (POST), 145
power-on self-test (POST) events
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Oracle Database Appliance Service Manual • March 2015
ODA (original version), 151
powering off
emergency shutdown
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
graceful shutdown
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
powering on
ODA (original version), 142
ODA X3-2/X4-2/X5-2, 138
returning the system to operation, 137
processors See CPUs
R
replacing
hot and cold service components
ODA (original version), 28
ODA X3-2/X4-2/X5-2, 27
required tools
servicing components
ODA (original version), 30
ODA X3-2/X4-2/X5-2, 27
reset Oracle ILOM SP, 146
S
safety information
servicing
ODA (original version), 30
ODA X3-2/X4-2/X5-2, 27
SAS expander cable
installing
ODA (original version), 129
removing
ODA (original version), 128
serial number
location of
ODA (original version), 30
server node
back panel indicators
ODA (original version), 22
CRU component locations
ODA (original version), 62
ODA X3-2/X4-2/X5-2, 61
Index
installing into the chassis
ODA (original version), 140
internal LEDs
ODA (original version), 24
powering off
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
reconnecting power and data cables
ODA X3-2/X4-2/X5-2, 137
reinstalling in rack
ODA X3-2/X4-2/X5-2, 137
removing from chassis
ODA (original version), 34
removing from rack
ODA X3-2/X4-2/X5-2, 27
removing middle section, ODA (original
version), 36
removing the top cover
ODA (original version), 35
ODA X3-2/X4-2/X5-2, 27
slide into rack from maintenance position
ODA X3-2/X4-2/X5-2, 137
slide out from rack to maintenance position
ODA X3-2/X4-2/X5-2, 27
status indicators
ODA (original version), 17
server node cables
servicing
ODA (original version), 122
service processor reset, 146
servicing
air duct removal
ODA (original version), 94
boot disk backplane
ODA (original version), 103
CPUs
ODA (original version), 96
ODA X3-2/X4-2/X5-2, 87
DIMMs
ODA (original version), 63
ODA X3-2/X4-2/X5-2, 61
disk backplane
ODA X3-2/X4-2/X5-2, 87
disk midplane module
ODA (original version), 109
disk midplane module HDD cable
ODA (original version), 115
front indicator panels
ODA (original version), 117
ODA X3-2/X4-2/X5-2, 87
HBA SAS cables
ODA X3-2/X4-2/X5-2, 87
hot and cold service components
ODA (original version), 28
hotswap components, 39
ODA (original version), 47
ODA X3-2/X4-2/X5-2, 39
hotswap components, storage shelf
ODA X3-2/X4-2, 40
motherboard assembly
ODA (original version), 131
ODA X3-2/X4-2/X5-2, 87
non-hotswap CRU components, 61
non-hotswap FRU components, 87
PCIe cards
ODA (original version), 75
ODA X3-2/X4-2/X5-2, 61
PCIe riser
ODA (original version), 71
ODA X3-2/X4-2/X5-2, 61
power distribution board
ODA (original version), 105
preparing for service
ODA (original version), 28
ODA X3-2/X4-2, 27
preparing the system, 27
removing a server node from chassis
ODA (original version), 34
ODA X3-2/X4-2/X5-2, 27
removing the top cover
ODA (original version), 35
ODA X3-2/X4-2/X5-2, 27
replacing a power supply in storage shelf
ODA X3-2/X4-2, 43
replacing fans in server node
ODA (original version), 53
replacing hard disk drives in server node
ODA (original version), 47
replacing hard disk drives in storage shelf
ODA X3-2/X4-2/X5-2, 41
replacing I/O module in storage shelf
ODA X3-2/X4-2, 45
185
Index
replacing power supplies in server node
ODA (original version), 56
returning the appliance to operation
ODA (original version), 139
ODA X3-2/X4-2/X5-2, 137
returning the system to operation, 137
server node battery
ODA (original version), 82
ODA X3-2/X4-2/X5-2, 61
server node cables
ODA (original version), 122
updating motherboard or disk backplane TLI
information
ODA X3-2/X4-2/X5-2, 88
shutdown procedures
emergency shutdown
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
graceful shutdown
ODA (original version), 31
ODA X3-2/X4-2/X5-2, 27
shutting down
ODA (original version), 28
ODA X3-2/X4-2/X5-2, 27
preparing the system for servicing, 27
standby power state
ODA (original version), 142
ODA X3-2/X4-2/X5-2, 138
status indicators
AC OK
ODA (original version), 21
Activity
ODA (original version), 21
CPU fault
ODA (original version), 24
DC OK
ODA (original version), 21
Ethernet ports
ODA (original version), 25
fans
ODA X3-2/X4-2, 14
ODA X5-2, 11
fans status
ODA (original version), 20
Fault Remind Power Good
ODA (original version), 24
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general status
ODA X3-2/X4-2, 14
ODA X5-2, 11
internal server node
ODA (original version), 24
Locate
ODA (original version), 17
memory DIMM fault
ODA (original version), 24
motherboard
ODA X3-2/X4-2, 14
ODA X5-2, 11
ODA X3-2/X4-2, 14
ODA X5-2, 11
OK
ODA (original version), 20
Over Temperature
ODA (original version), 17
power supplies
ODA X3-2/X4-2, 14
ODA X5-2, 11
Power/OK
ODA (original version), 17
Ready to Remove
ODA (original version), 17, 21
rear component failure
ODA (original version), 17
server node
ODA (original version), 17
server node rear Locate
ODA (original version), 22
server node rear Locate push to test
ODA (original version), 22
server node rear Power/OK
ODA (original version), 22
server node rear Ready to Remove
ODA (original version), 22
server node rear Service Required
ODA (original version), 22
Service Required
ODA (original version), 17, 20, 21, 21
SP OK/Fault
ODA (original version), 17
storage and boot drives
ODA (original version), 21
storage devices
Index
ODA X3-2/X4-2, 14
ODA X5-2, 11
status indicators and LEDs, 11
storage shelf
ODA X3-2/X4-2, 15
ODA X5-2, 12
storage shelf back panel
ODA X3-2/X4-2, 16
ODA X5-2, 13
storage shelf front panel
ODA X3-2/X4-2, 12, 15
storage shelf
servicing hotswap components
ODA X3-2/X4-2, 40
storage shelf indicators
back panel
ODA X3-2/X4-2, 16
ODA X5-2, 13
front panel
ODA X3-2/X4-2, 12, 15
System Identifier
updating for motherboard, 89
system_identifier
updating after motherboard replacement
ODA X3-2/X4-2/X5-2, 88
system middle section, ODA (original version), 36
Trusted Platform Module (TPM)
support for
ODA (original version), 158
T
TLI
updating after motherboard or disk backplane
replacement
ODA X3-2/X4-2/X5-2, 88
tools
required for service
ODA (original version), 30
ODA X3-2/X4-2/X5-2, 27
top cover
install
ODA X3-2/X4-2/X5-2, 137
install on server node
ODA (original version), 139
removing sidewall cover
ODA (original version), 109
server node
ODA (original version), 35
ODA X3-2/X4-2/X5-2, 27
187
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