Confirming Server and Site Specifications
Overcurrent Protection Requirements
DC Power Source, Power Connection, and Grounding Requirements
Stabilize the Rack for Installation
Mounting the Server Into a 4-Post Rack
Mounting the Server Into a 2-Post Rack
Connecting Data and Management Cables
Powering On the Server for the First Time
Connect a Terminal or Emulator to the SER MGT Port
Power On the Server for the First Time
Oracle Solaris OS Configuration Parameters
Assign a Static IP Address to the SP
Understanding System Administration Resources
Platform-Specific Oracle ILOM Features
Oracle VM Server for SPARC Overview
Hardware Management Pack Overview
Source for Downloading Hardware Management Pack Software
Hardware Management Pack Documentation
Display the Oracle ILOM -> Prompt
Power On the Server (Oracle ILOM)
Power Off the Server (Oracle ILOM)
Reset the Server (Oracle Solaris OS)
Reset the Server (Oracle ILOM)
Reset the SP to Default Values
Important Hardware RAID Guidelines
Prepare to Use the FCode Utility
Hot Spare Drives in RAID Volumes (LSI)
Determining If a Drive Has Failed
RAID Drive Replacement Strategies
Changing Server Identification Information
Change Customer Data on FRU PROMs
Change System Identifier Information
Restore the Host Power State at Restart
Specify the Host Power State at Restart
Disable or Re-Enable the Host Power-On Delay
Specify Parallel Boot of the SP and Host
Configure Host Behavior (Keyswitch State)
Disable or Re-Enable Network Access to the SP
Display the DHCP Server IP Address
Display the IP Address of the SP
Using an In-band Connection to the SP
Configure the Host Boot Mode (Oracle VM Server for SPARC)
Change the Host Boot Mode Behavior at Reset
Manage the Host Boot Mode Script
Display Host Boot Mode Expiration Date
Override OBP Settings to Reset the Server
Configuring Server Behavior at Restart
Specify Behavior When the Host Resets
Specify Behavior When the Host Stops Running
Specify Behavior at Boot Timeout
Specify Behavior if Restart Fails
Specify Maximum Restart Attempts
Enabling Automatic System Recovery
Identifying WWN-Designated SAS2 Devices
Mapping WWN Values to Hard Drives (OBP probe-scsi-all Command)
probe-scsi-all WWN Mapping Overview
probe-scsi-all WWN Mapping Example (SPARC T4-1)
probe-scsi-all WWN Mapping Example (Netra SPARC T4-1)
probe-scsi-all WWN Mapping Example (SPARC T4-2)
probe-scsi-all WWN Mapping Example (Netra SPARC T4-2)
probe-scsi-all WWN Mapping Example (SPARC T4-4 With Two CPUs)
probe-scsi-all WWN Mapping Example (SPARC T4-1B and Netra SPARC T4-1B)
Identify a Disk Slot Using prtconf (Oracle Solaris OS)
WWN Syntax in an OS Installation on an Individual Drive
WWN Syntax in an OS Installation on a RAID Volume
Power Supply, Hard Drive, and Fan Module Locations
Top Cover, Filter Tray, and DVD Tray Locations
Motherboard, DIMMs, and PCI Board Locations
Understanding Fault Management Commands
Interpreting Log Files and System Messages
Checking if Oracle VTS Is Installed
Component Service Task Reference
Removing Power From the Server
Determine if the Hard Drive Fan Is Faulty
Servicing the Hard Drive Backplane
Determine if the Hard Drive Backplane Is Faulty
Remove the Hard Drive Backplane
Install the Hard Drive Backplane
Verify the Hard Drive Backplane
Servicing the Power Distribution Board
Determine if the Power Distribution Board Is Faulty
Remove the Power Distribution Board
Install the Power Distribution Board
Verify the Power Distribution Board
Determine if the DVD Drive Is Faulty
Determine if the LED Board Is Faulty
Determine if the Fan Board Is Faulty
Servicing the PCIe2 Mezzanine Board
Determine if the PCIe2 Mezzanine Board Is Faulty
Remove the PCIe2 Mezzanine Board
Install the PCIe2 Mezzanine Board
Verify the PCIe2 Mezzanine Board
Locate a Faulty PCIe2 Riser Card
Remove a PCIe2 Card From the PCIe2 Mezzanine Board
Remove a PCIe2 Card From the PCIe2 Riser Card
Install a PCIe2 Card Into the PCIe2 Mezzanine Board
Install a PCIe2 Card Into the PCIe2 Riser Card
Install SAS Cable for Sun Storage 6 Gb SAS PCIe RAID HBA, Internal
Servicing the Signal Interface Board
Determine if the Signal Interface Board Is Faulty
Remove the Signal Interface Board
Install the Signal Interface Board
Verify the Signal Interface Board
Determine if the Battery Is Faulty
Determine if the ID PROM Is Faulty
Determine if the Motherboard Is Faulty
Returning the Server to Operation
Power On the Server (Oracle ILOM)
The SPARC T4-4 server has two REM cards plugged into the motherboard. These modules are referred to as controllers 0 and 1. Each SAS controller is connected to a separate four-slot disk backplane. The following table shows the PhyNum-to-disk slot mapping for the two four-slot SPARC T4-4 backplanes.
Table 6 SAS2 Controller Port Mapping for the SPARC T4-4 Disk Backplane
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This table shows that ports 0-3 of controller 0 are connected to backplane slots 0-3 and ports 0-3 of controller 1 are connected to slots 4-7.
The following example is based on a SPARC T4-4 server with four CPUs and eight hard drives. These hard drives are deployed as six individual storage devices and a virtual drive that consists of two hard drives configured as a RAID volume. Controllers 0 and 1 are attached to these storage devices in the following manner:
Controller 0 is attached to Targets 9 and a (two individual storage devices).
Controller 0 is also attached to Target 688 (a RAID volume).
Controller 1 is attached to Targets 9, a, b, and c (four individual storage devices).
Note - OBP uses a different device path for SAS controller 1 in SPARC T4-4 servers, depending on whether the server has four processors or two processors.The path for SAS controller 0 is the same for both processor configurations.
ok probe-scsi-all /pci@700/pci@1/pci@0/pci@0/LSI,sas@0 <---- SAS controller 1 FCode Version 1.00.54, MPT Version 2.00, Firmware Version 5.00.17.00 Target 9 Unit 0 Disk HITACHI H103030SCSUN300G A2A8 585937500 Blocks, 300 GB SASDeviceName 5000cca00abc5cc8 SASAddress 5000cca00abc5cc9 PhyNum 0 Target a Unit 0 Disk HITACHI H103030SCSUN300G A2A8 585937500 Blocks, 300 GB SASDeviceName 5000cca00abaf620 SASAddress 5000cca00abaf621 PhyNum 1 Target b Unit 0 Disk HITACHI H103030SCSUN300G A2A8 585937500 Blocks, 300 GB SASDeviceName 5000cca00abcec4c SASAddress 5000cca00abcec4d PhyNum 2 Target c Unit 0 Disk HITACHI H103030SCSUN300G A2A8 585937500 Blocks, 300 GB SASDeviceName 5000cca00abc5218 SASAddress 5000cca00abc5219 PhyNum 3 /pci@400/pci@1/pci@0/pci@0/LSI,sas@0 <---- SAS controller 0 FCode Version 1.00.54, MPT Version 2.00, Firmware Version 5.00.17.00 Target 9 Unit 0 Disk HITACHI H103030SCSUN300G A2A8 585937500 Blocks, 300 GB SASDeviceName 5000cca00abcede0 SASAddress 5000cca00abcede1 PhyNum 0 Target a Unit 0 Disk HITACHI H103030SCSUN300G A2A8 585937500 Blocks, 300 GB SASDeviceName 5000cca00abc51a8 SASAddress 5000cca00abc51a9 PhyNum 1 Target 688 Volume 0 Unit 0 Disk LSI Logical Volume 3000 583983104 Blocks, 298 GB VolumeDeviceName 3ce534e42c02a3c0 VolumeWWID 0ce534e42c02a3c0 ok
In this example, the controller ports are attached to the hard drives in the following manner:
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Note - Target values are not static. The same storage device can appear in two consecutive probe-scsi-all listings with different Target values.
The default boot device has the following values:
Controller = 0
Target = 9
PhyNum = 0
SASDeviceName = 5000cca00abcede0
SASAddress = 5000cca00abcede1
If you want to specify another drive to be the boot device, find its PhyNum value in the output and use the SASDeviceName assigned to that device. For example, if you want to use the hard drive in disk slot 1, it has the following values:
Controller = 0
Target = a
PhyNum = 1
SASDeviceName = 5000cca00abc51a8
SASAddress = 5000cca00abc51a9