SPARC Enterprise Server Training - Day 1 Presentation delivered by David Campbell OPL Technical Community, Systems TSC EMEA Based on.

SPARC Enterprise Server Training - Day 1 Presentation delivered by David Campbell d.campbell@sun.com OPL Technical Community, Systems TSC EMEA Based on presentation written by Gary Combs, SPARC Specialist, Systems Group Technical Marketing

2 Mx000 Server Hands On Training Agenda DAY 1 9AM – 10AM: Introduction to Mx000 10AM - 10:15 Break 10:15AM - 11AM: Setup > install or "Lost Password" procedure > Network (external and DSCP) > Services > Users 11AM - 12PM: LAB 12PM - 1PM: Lunch 1PM - 2PM Review > discuss privileges/roles 2PM - 2:15PM: LAB 2:15PM - 3:30PM: Review > Domains 3:30PM - 3:45PM: Break 3:45PM - 4:30PM: LAB DAY 2 9AM - 10AM: Review > Reports > Log archiving, or dump to USB stick > Various "show*" commands 10AM - 10:30AM: LAB 10:30AM - 10:45: Break 10:45AM - 11:15AM: Review > BUI connection 11:15AM - 11:45AM: LAB 11:45AM - 1PM: Lunch 1PM - 3PM: Open LAB > If they have a SunMC server on the network, setup SunMC and view platform info from SunMC console > If we have time, load a domain with Solaris and look at DSCP info from the domain side 3PM - 3:30PM: Q&A and Closing

3 Mx000 Server Hands On Training M4000/M5000: Mid-Range Systems Overview Application acceleration > Uses dual core SPARC64 VI processor > Upgradable to SPARC64 VII (provides mixed speed support) > New higher performance interconnect > New industry standard PCI express I/O Less down time > Greatly improved RAS functionality Economical, modular datacenter design > 6U and 10U, rack-optimized enclosures > Extended domaining and dynamic reconfiguration support > Up to 4 fully usable domains Solaris 10 operating system

4 Mx000 Server Hands On Training Mid-range Product Data Sheet

5 Mx000 Server Hands On Training M4000 Product Concept Front Iso View Rear Iso View 2 x 172mm Fans 2 x PSU 2 x HDD, DVD, DAT 4 x MEM Modules 1 x IO Tray (1 PCI-X, 4 PCI-Express) XSCFU 2 x CPU Modules

6 Mx000 Server Hands On Training M5000 Product Concept Front Iso View Rear Iso View 4 x 172mm Fans 4 x PSU 4 x HDD, DVD, DAT 8 x MEM Modules 4 x CPU Modules 2 x IO Trays (1 PCI-X, 4 PCI-Express per Tray) XSCFU

7 Mx000 Server Hands On Training Mid-Range Systems Components CPU Module 2.15GHz SPARC64 VI only 2 CPUs per module Both CPUs the same type and speed 2 (M4000) or 4 (M5000) modules per system

8 Mx000 Server Hands On Training Mid-Range Systems Components Memory Board 8 DIMM slots 1, 2 and 4GB DIMMs ECC Extended-ECC Mirrored 4 (M4000) or 8 (M5000) modules per system

9 Mx000 Server Hands On Training Mid-Range Systems Components DVD, DAT 2 SAS disks 4 x PCIe 1 x PCI-X 2 GbE ports 1 (M4000) and 2 (M5000) per system I/O Tray

10 Mx000 Server Hands On Training PCICS: PCI Cassette for M4000/M5000 IO Cage In PCICS, PCIexpress Short dedicated cassette provided Carrier main body (metal) Moveable carrier plate (plastic) Carrier slot keyholes Operating handle Card retainer (5 total, 3 types)

11 Mx000 Server Hands On Training System Views: M4000

12 Mx000 Server Hands On Training System Views: M5000

13 Mx000 Server Hands On Training 2 x GbE 4 PCIe to PCI-X Bridge PCI-X Slot IOU PCIe Bridge PCIe PHY (serdes) PCIe Switch 8 PCIexpress Slot 8 8 8 8 CPU Modul e Internal Storage DVD SC1 SC0 System Control Facility SATA x4 8 DIMMs MAC 1 8 DIMMs MAC 0 CPU 0 CPU 1 Memory Board CPU 2 CPU 3 MAC 2 Memory Board MAC 3 8 DIMM s Memory Board Midrange M4000 Block Diagram

14 Mx000 Server Hands On Training Midrange M5000 Block Diagram CPU Modul e 8 DIMMs MAC 1 8 DIMMs MAC 0 CPU 0 CPU 1 Memory Board CPU 2 CPU 3 MAC 2 Memory Board MAC 3 8 DIMM s Memory Board IOU #0 and Disks 0,1 and DVD/DAT CPU Modul e 8 DIMMs MAC 4 8 DIMMs MAC 5 CPU 4 CPU 5 Memory Board CPU 6 CPU 7 MAC 6 Memory Board MAC 7 8 DIMM s Memory Board IOU #1 and Disks 2,3 SC3 SC2 SC1 SC0

15 Mx000 Server Hands On Training Operator Panel

16 Mx000 Server Hands On Training Operator Panel

17 Mx000 Server Hands On Training SC ASIC The SC (System Controller) ASIC is responsible for setup and enforcement of domaining. The multiple paths are for performance, not redundancy The physical address space on each SB or CMU is divided equally across the SCs Each SC stores L2$ tags for the processors on the same SB or CMU.

18 Mx000 Server Hands On Training Key RAS Elements of the Mx000 Servers ECC on all address/data paths ASIC Offline Parity on CPU registers Instruction-level Retry L1$ line reduction on error Memory ECC Extended-ECC for memory (spare DRAM on DIMM) Memory Patrol by the MAC Memory Mirroring Established Technologies Hard Domains Full FMA Support

19 Mx000 Server Hands On Training Redundancy and Hot Swap Note: FRUs are not customer serviceable

20 Mx000 Server Hands On Training M8000/M9000: High-End Systems Overview Application acceleration > Uses dual core SPARC64 VI processor > Upgradable to SPARC64 VII (provides mixed speed support) > New high performance interconnect > New industry standard PCIe I/O State-of-the-Art RAS capabilities Unmatched configuration flexibility > Modular building block architecture (CMU, IOU, expansion box, XSCF) > Initial SMP architecture up to 128 cores > Expanded dynamic system domains > Up to 24 fully usable domains Fine granularity of unit of domain > 1 CPU chip, 4 DIMMs, 2 PCIe slots (smallest)

21 Mx000 Server Hands On Training High-end Product Data Sheet

22 Mx000 Server Hands On Training M8000/M9000 System's RAS Management Redundant interconnect Redundant Service Processor No Single Failure can Prohibit Reboot Most FRU's are Hot-Swappable

23 Mx000 Server Hands On Training M8000 System 1-4 IO Units (IOU) (4 Disk Bays Each) 1-4 CMU Boards 19” Rack Space Fan Trays PSU Fan Trays XSCFU_B# 0 XSCFU_B#1 Rear View Front View Rack space for Dual Power Grid Option

24 Mx000 Server Hands On Training M9000 System IO Boards (4 Disk Bays Each) Fans PSU’s Crossbar Boards Clock Boards XSCF Boards DAT DVD Front View

25 Mx000 Server Hands On Training M9000 System IO Boards (4 Disk Bays Each) Fans CMU Boards Back View

26 Mx000 Server Hands On Training M9000 System (no cables) Crossbar Boards Clock Boards XSCF Boards Crossbar Boards Clock Boards XSCF Boards

27 Mx000 Server Hands On Training M9000 System IO Boards (4 Disk Bays Each) Fans PSU’s Crossbar Boards Clock Boards XSCF Boards DAT DVD Front View Clock Boards XSCF Boards Crossbar Boards DAT DVD IO Boards

28 Mx000 Server Hands On Training XBU #8 to #15 M9000 Cabling: XB M9000 Base Cabinet M9000 Ex. Cabinet Yellow Pink Brown Green Orange Blue Colored Tie Wraps XBU #0 to #7 1.3m Data Cable 1.0m CLK Cable SPO F

29 Mx000 Server Hands On Training M9000 Cabling: XB M9000 Base Cabinet M9000 Ex. Cabinet

30 Mx000 Server Hands On Training M9000 Cabling XB Data : 48 cables XB CLK : 8 cables CLK Data : 2 cables CLK CLK : 4 cables XSCF Data : 2 cables Total: 64 cables

31 Mx000 Server Hands On Training M9000 System IO Boards Fans CMU Boards Back View CMU Boards IO Boards

32 Mx000 Server Hands On Training M9000+External Power Cabinets Externa l Power Cabinet Externa l Power Cabinet

33 Mx000 Server Hands On Training Backplane BP_A (for M8000) Active Backplane

34 Mx000 Server Hands On Training Backplane BP_B (for M9000) Passive Backplane

35 Mx000 Server Hands On Training Max 4 CPU sockets / 8 cores All cpus must be the same type and speed 2x 16 DIMM slots (1 GB, 2 GB, 4 GB) 16 GB, 32 GB, 64 GB memory expansions Memory mirror option only in Uni-XSB mode 2x 16 DIMM 4 CPU Sockets Red. DC-DC Converter M8000/M9000 High-End Building Blocks CPU/Memory Unit (CMU)

36 Mx000 Server Hands On Training 1x IOU per CMU or 1x IOU per multiple CMU 2x 4 PCIe slots Optional base IO card (2x SAS, 2x GbE) using PCIe slot PCIe slot assignment to 4x XSB Link up to 4 full I/O expansion boats (link cards use PCIe slots) M8000/M9000 High-End Building Blocks I/O Unit (IOU) 2x2 Disk Bays 2x4 PCIe Slots

37 Mx000 Server Hands On Training PCICS: PCI Cassette for M8000/M9000 IOU Carrier main body (metal) Moveable carrier plate (plastic) Operating handle Card retainer (5 total, 3 types) Circular area for rotating the retainer In PCICS, PCIexpress Short dedicated cassette provided

38 Mx000 Server Hands On Training ~43 GBps M8000/M9000 Boards 0.53 Ghz ~40 GBps System Board I/O Board Paths are 4 bytes each way and carry both address & data ~1/3 of traffic is data 1.07 GHz 24 Cables to other Xbars 0.5–1 GHz ~48 GBps ~22 GBps XB Board X8 PCIexpress slot 2-core Processor Memory Controller 2-core Processor Memory Controller 2-core Processor Memory Controller ~22 GBps System Controller ~5.5 GBps PCIe x8 bridge 8x8 Crossbar ~49 GBps 8 DDR2 DIMMs PHY (serdes)

39 Mx000 Server Hands On Training PCIexpress Short Slot 8 8 8 8 8 8 8 8 M8000/M9000 I/O Board Block Diagram Base IO Board PCIe bridge PCIe PHY (serdes) Internal DVD Drive Internal DAT Drive External Drive EXP DVD DAT GBit Ethernet SAS PCIe to PCI-X bridge IOU to/from one way – 2 XB’s EXP in cabinet 5-6 GB/sec peak PCIe PHY (serdes)

40 Mx000 Server Hands On Training Dual Power Feed, 3-Phase Power for M8000 Single phase input & Dual Power Feed 3-phase input (Delta) & Dual Power Feed 3-phase input (Star) & Dual Power Feed Single Phase Input (standard) 3 Cables Base Cabinet 12U DPF Option 3 Phase Input (DPF) Base Cabinet 12U Power Cabinet 3 Phase (Delta) DPF 3 Phase Input (DPF) Base Cabinet 12U Power Cabinet 3 Phase (Star) DPF 7U Single Phase Input (DPF Option) * Customer must have their electrician make 3-phase cables

41 Mx000 Server Hands On Training Dual Power Feed, 3-Phase Power for M9000, Single Cabinet 3-phase input & Dual Power Feed 3 Phase Input (DPF) Base Cabinet Power Cabinet 3 Phase (Delta or Star) DPF Single phase input & Dual Power Feed Base CabinetPower Cabinet DPF Option Single Phase Input (DPF Option) Single Phase Input (Standard) 5 Cables * Customer must have their electrician make 3-phase cables

42 Mx000 Server Hands On Training Dual Power Feed, 3-Phase Power for M9000, Dual Cabinets 3 Phase Input (DPF) 3-phase input, Dual Power Feed Extension CabinetBase CabinetPower Cabinet 3 Phase (Delta or Star) DPF Power Cabinet 3 Phase (Delta or Star) DPF Single Phase Input (DPF Option) Single Phase Input (Standard) 5 Cables Single phase input, Dual Power Feed Base CabinetPower Cabinet DPF Option Extension CabinetPower Cabinet DPF Option Single Phase Input (Standard) Single Phase Input (DPF Option) * Customer must have their electrician make 3-phase cables

43 Mx000 Server Hands On Training Initialize

44 Mx000 Server Hands On Training Installation Overview 1.Check the environment a)Space and weight b)Temperature/Humidity c)Power supply 2.Unpack the system 3.Rack the system (Note: Beta systems won't be racked) 4.Check the voltage and connect power cables (AC power off during connection) 5.Connect a terminal to the XSCFU with a serial cable 6.Connect XSCFU Ethernet LANs 7.Move position of key switch to “service” 8.Turn on AC power at PDM 9.Login with default account 10.Create administrative account(s) 11.Configure the XSCF software 12.Configure XSB/domains 13.Power on the system

45 Mx000 Server Hands On Training XCP Overview XCP (XSCF Control Package) is the firmware for OPL service processors The main components in XCP; > XSCF (eXtended System Controller Facility) > OBP (Open Boot Prom) > POST (Power On Self-Test) OBP/POST (combined image) XCP ● XSCF ● Uboot ● Kernel ● Linux open source pkgs ● SCF applications Updates will be for the entire XCP package, even if only one component changes

46 Mx000 Server Hands On Training eXtended System Control Facility (XSCF) A system monitoring/control facility consisting of a dedicated processor that is independent from the system processor XSCF is the firmware running on the Service Processor in the Mx000 system The board with the installed XSCF firmware is called the XSCFU ("XSCF unit") While the board for the M4000/M5000 is physically different than one for the M8000/M9000, it's the same software Manages hardware configuration and health, domain configuration and status, error monitor and notification facility M8000/M9000 systems have redundant XSCF units

47 Mx000 Server Hands On Training XSCF External Interfaces The following connectors (ports) and LEDs are the external interfaces of the XSCF unit: > Serial port (RJ-45) that can be used for the Command Line Interface (CLI) > Two 10/100 LAN ports (Ethernet ports). CLI and the Browser-based User Interface (BUI) can be used with these ports for system monitoring and operations. > USB v1.1 port (for USB memory stick only) > Uninterruptible Power Control (UPC) port to connect the system with Uninterruptible Power Supply Unit (UPS) LANUSBSerialRCI UPC

48 Mx000 Server Hands On Training Command Use To list command options, just type the command and use the -h option use the man page > man adduser How to display commands available at the prompt ? There is command line auto-completion > XSCF> [TAB][TAB] > XSCF> show[TAB][TAB]

49 Mx000 Server Hands On Training Initial Setup (“Lost Password Procedure”) Default user account: default > The user privileges are useradm, platadm. Default password: > The default password is not input directly on the keyboard. Instead, after the default user account is input, the mode switch of the operator panel is operated as follows. –If Locked -> Change to Service -> Press return -> Keep the status for more than 5 seconds. -> Change to Locked -> Press return –If Service -> Change to Locked -> Press return -> Keep the status for more than 5 seconds. -> Change to Service -> Press return This mode switch operation must be done within one minute. Keep track of the physical key!!

50 Mx000 Server Hands On Training Install/Setup Initial Account ● Do not use the names “admin” or “default” ! (reserved names in XCP1050) ● adduser NAME ● password NAME ● setprivileges NAME useradm platadm auditadm mode fieldeng ● enableuser NAME The “admin” is used for lights-out installations

51 Mx000 Server Hands On Training Install/Setup (cont.) Setup ● settimezone -c settz -s Europe/Stockholm ● setdate -s 2008.01.14-09:01:00 ● sethostname xscf#0 ynot-sc00 ● sethostname -d se.sun.com

52 Mx000 Server Hands On Training Network ● setdscp ● setnetwork xscf#0-lan#0 -m 255.255.255.0 10.1.133.32 ● setroute -c add -n 0.0.0.0 -g 10.1.133.2 xscf#0-lan#0 ● setnameserver 129.153.100.33 129.153.122.53 ● applynetwork

53 Mx000 Server Hands On Training Services ● setsnmp enable ● sethttps -c selfsign US Oregon Hillsboro SystemsGroup TechMktg ff2 email_account@maildomain.com ● sethttps -c enable

54 Mx000 Server Hands On Training Network Ports Used on XSCF

55 Mx000 Server Hands On Training setupplatform XCP 1050 supports a setupplatform command Assists with both user and network configurations, it provides a wrapper to the commands. user - Creates a new local XSCF user account with platadm, platop, and useradm privileges. network- Configures the XSCF network, DSCP, Domain Name Service, NTP, SSH, https, and SMTP.

56 Mx000 Server Hands On Training BREAK (15 min)

57 Mx000 Server Hands On Training LAB Power down the M4000, and look at the CPUB and MEMB boards Power up the platform and attach a serial console Try out the default login procedure Start to configure the platform

58 Mx000 Server Hands On Training What is in the system? showhardconf -u

59 Mx000 Server Hands On Training F

60 Mx000 Server Hands On Training Full “showhardconf” XSCF> showhardconf ; Serial:;Operation_Panel_Switch:Locked; + Power_Supply_System:Single; SCF-ID:XSCF#0; MBU_A Status:Normal; Ver:0101h; Serial: ; + FRU-Part-Number:CA20393-B60X 001AA ; + Memory_Size:16 GB; CPUM#0-CHIP#0 Status:Normal; Ver:0101h; Serial:PP06020771 ; + FRU-Part-Number:CA06761-D102 A0 ; + Freq:2.150 GHz; Type:16; + Core:2; Strand:2; CPUM#0-CHIP#1 Status:Normal; Ver:0101h; Serial:PP06020771 ; + FRU-Part-Number:CA06761-D102 A0 ; + Freq:2.150 GHz; Type:16; + Core:2; Strand:2; MEMB#0 Status:Normal; Ver:0101h; Serial: ; + FRU-Part-Number:CA20393-B54X 001AA ; MEM#0A Status:Normal; + Code:c1000000000000004572T128000HR3.7A 252b- 04126712; + Type:1B; Size:1 GB; MEM#0B Status:Normal; + Code:c1000000000000004572T128000HR3.7A 252b- 04120e20; + Type:1B; Size:1 GB; * DDC_A#0 Status:Normal; DDC_A#1 Status:Normal; DDC_B#0 Status:Normal; IOU#0 Status:Normal; Ver:0101h; Serial: ; + FRU-Part-Number:CA20393-B55X 001AA ; IOU#0 Status:Normal; DDC_A#0 Status:Normal; IOU#0 Status:Normal; DDCR Status:Normal; DDC_B#0 Status:Normal; DDCR Status:Normal; XSCFU; Status:Normal, Active; Ver:0101h; Serial: ; + FRU-Part-Number:CA20393-B56X 001AA ; OPNL Status:Normal; Ver:0101h; Serial: ; + FRU-Part-Number:CA00629-D061 001AA ; PSU#0 Status:Normal; Serial:; + Power_Status:Off; AC:200 V; PSU#1 Status:Normal; Serial:; + Power_Status:Off; AC:200 V; FANBP_B Status:Normal; Ver:0101h; Serial: ; + FRU-Part-Number:CA06629-D051 001AA ; FAN_A#0 Status:Normal; FAN_A#1 Status:Normal; FAN_B#0 Status:Normal; FAN_B#1 Status:Normal;

61 Mx000 Server Hands On Training Other “show” Commands fmdump - view fault management logs fmstat - report fault management module statistics showarchiving - display log archiving configuration and status showboards - display information on an XSB showdcl - display the current domain component list (DCL) showdevices - display current information on an XSB showdomainstatus - display the current DCL showenvironment - display the intake air temperature and humidity, temperature sensor information, voltage sensor information, and fan rotation information about the system showfru - display the hardware settings of specified device

62 Mx000 Server Hands On Training Other “show” Commands showlogs - display the specified log shownetwork - display information of network interfaces for XSCF showroute - display routing information for an XSCF network interface showstatus - display the degraded Field Replaceable Units (FRUs) showuser - display user account information version - display firmware version viewaudit - display audit records

63 Mx000 Server Hands On Training User Accounts

64 Mx000 Server Hands On Training Privileges

65 Mx000 Server Hands On Training Setting Privileges the “setprivileges” command replaces privileges each time it is used Example: > setprivileges tm useradm platadm –This sets the privileges for user tm to useradm and platadm > setprivileges tm auditadm –This replaces the privileges for user tm to just auditadm ! Always use a full set of privileges > setprivileges tm useradm platadm auditadm

66 Mx000 Server Hands On Training About passwords... setpasswordpolicy - Sets a password policy as described below: > Minimum number of days that must elapse before the password can be changed (Mindays) > Maximum number of days that the password is valid (Maxdays) > Number of days preceding password expiration, for the first warning (Warn) > Number of days in which the account remains unlocked after password expiration (Inactive) > Number of days a new account will be valid before expiring and becoming disabled. (Expiry) > Maximum number of retries of password entry (Retry) > Maximum number of characters that must be different in a new password.(Difok) > Minimum number of password characters (Minlen) > Minimum number of digits contained in a password (Dcredit) > Minimum number of uppercase letters contained in a password (Ucredit) > Minimum number of lowercase letters contained in a password (Lcredit) > Minimum number of symbols contained in a password (Ocredit) > Maximum numbers of passwords in the password history (Remember)

67 Mx000 Server Hands On Training Passwords... XSCF> showpasswordpolicy Mindays: 0 Maxdays: 90 Warn: 7 Inactive: -1 Expiry: 0 Retry: 5 Difok: 1 Minlen: 8 Dcredit: 0 Ucredit: 0 Lcredit: 0 Ocredit: 0 Remember: 4 XSCF> setpasswordpolicy -y 3 -m 8 -d 2 -u 0 -l 0 -o 0 -M 60 -w 15 XSCF> showpasswordpolicy Mindays: 0 Maxdays: 60 Warn: 15 Inactive: -1 Expiry: 0 Retry: 3 Difok: 1 Minlen: 8 Dcredit: 2 Ucredit: 0 Lcredit: 0 Ocredit: 0 Remember: 3

68 Mx000 Server Hands On Training Adding Users use the adduser command use LDAP. See section 2.2.3 of XSCF User's Guide

69 Mx000 Server Hands On Training XCP1050 included Major release which will include : > Admin account for remote installation > Synchronization and failover between XSCF on the high-end > Improved BUI support > Bug Fixes XCP1060 included Major release which will include : > BUI COD support > Not clearing the fault during a powercycle whatever the keyswitch position > setupplatform enhancements > Bug fixes

70 Mx000 Server Hands On Training Lunch (1 hour)

71 Mx000 Server Hands On Training LAB Setup some user account and test them Checkout the show* commands

72 Mx000 Server Hands On Training Domains

73 Mx000 Server Hands On Training Terminology You Need to Know

74 Mx000 Server Hands On Training Domain Resources The first thing you need to do is forget almost everything you know about allocating resources to a domain. Mx000 Server resources are treated significantly differently than the Safari bus (for this presentation, specifically E6900 and E25K) resources when creating domains. To compare the two (E6900/E25K to Mx000 Servers):

75 Mx000 Server Hands On Training PSB: Associating the CMU and IOU In the M4000/M5000, > the system board (SB) is analogous to the CMU in the M8000 and M9000 > the IOU is analogous to the IOU in the M8000 and M9000 In the M8000/M9000 > the CMU slots are numbered. The IOU slots use the same numbering > IOU slot 0 corresponds to CMU slot 0, and so on. If the SB/CMU is in uni mode, then the IOU is in uni mode. Same holds for quad mode.

76 Mx000 Server Hands On Training What is an eXtended System Board? Physical System Board (PSB): There are two type of PSBs, CPU and Memory boards (CMU) and I/O boards (IOU) The PSB is the physical board that is inserted into the system eXtended System Board (XSB): The PSB in Sun SPARC Enterprise servers can be set to one of two logical configurations, comprising either the entire PSB (Uni-XSB-mode) or a quarter of the PSB (Quad- XSB mode), thus forming the discrete units for building hardware domains On E25k, the AXQ does enforce the physical isolation of domains. On the M-Series, it is the SC. We have 4 SC ASICs in total on M5000 and we have 4 SC ASICs per CMU on M8000/9000.

77 Mx000 Server Hands On Training Uni-XSB A CMU and IOU configured in Uni-XSB mode is similar to the Uniboard and IO board used in the Sun Fire line When placing the CMU into Uni mode, the IOU is automatically placed in uni mode as well The CMU with only 2 CPUs installed can only be placed in Uni-XSB mode. This applies to the coresponding IOU as well. The XSB ID is XX, where XX is the system board number. XX-0 is also a valid identification.

78 Mx000 Server Hands On Training Quad-XSB The CMU/IOU PSB is logically divided into 4 equal parts. Each quad on the CMU is directly associated with the corresponding quad on the IOU. Quad 0 on the CMU is tied directly with quad 0 on the IOU, and so on. A quad on the CMU can not be assigned to a different domain from the same quad on the IOU. Each quad is capable of providing 1CPU, 8 DIMMS, and 2 PCIe slots (depending on system configuration).

79 Mx000 Server Hands On Training Quad-XSB (cont.) In order to use the memory and I/O in a quad, a CPU must be present in that quad ==> if a CPU fails, the memory and IO are offline as well. The CPU in a quad is used to run POST on the I/O in that same quad Quad nomenclature is XX-Y, where XX is the system board number and Y is the quad ID on that system board Only CMU boards with 4 CPUs installed can be placed in to Quad-XSB mode

80 Mx000 Server Hands On Training Remember... CPU, Memory, and IO are not assigned to domains. XSBs are! Use setdcl to set the visibility of memory and IO in an XSB on a per domain basis

81 Mx000 Server Hands On Training Extended System Board on M4000: Quad 2 domains Domain 1 > Quad 00-0 holds the boot drives, DVD and DAT, and has an I/O controller Domain 2 > Quad 00-1 has an I/O controller, but boot drives are external Quads 00-2 and 00-3 can be assigned to either Domain 1 or Domain 2 A quad must have a CPU available in order to use the memory

82 Mx000 Server Hands On Training Extended System Board on M4000: Quad M4000 MBU MEM Board IO Channel CPU Module Quad-XSB 00- 3 Quad-XSB 00- 2 Quad-XSB 00- 1 Quad-XSB 00- 0 DVD/DAT Disks #0 & #1 CPU PCI-X Slot PCIe Slot 0 PCIe Slot 1 PCIe Slot 2 PCIe Slot 3 IO Channel M4000 IOU MEM Board IO Channel Quad-XSB 00- 3 Quad-XSB 00- 2 Quad-XSB 00- 1 Quad-XSB 00- 0 DVD/DAT Disks #0 & #1 CPU PCIe Slot 0 PCIe Slot 1 PCIe Slot 2 PCIe Slot 3 IO Channel 1 1 2 2 1 2 1 1 Domain # M4000 MBU MEM Board IO Channel Quad-XSB 00- 3 Quad-XSB 00- 2 Quad-XSB 00- 1 Quad-XSB 00- 0 DVD/DAT Disks #0 & #1 CPU PCIe Slot 0 PCIe Slot 1 PCIe Slot 2 PCIe Slot 3 IO Channel M4000 IOU MEM Board IO Channel Quad-XSB 00- 3 Quad-XSB 00- 2 Quad-XSB 00- 1 Quad-XSB 00- 0 DVD/DAT Disks #0 & #1 CPU PCIe Slot 0 PCIe Slot 1 PCIe Slot 2 PCIe Slot 3 IO Channel 1 2 2 2 1 2 Domain # CPU Module PCI-X Slot

83 Mx000 Server Hands On Training Extended System Board on M5000: Uni/Uni M5000 IOU #1 M5000 MBU MEM Board Uni-XSB 00 MEM Board Uni-XSB 01 CPU Module CPU CPU Module CPU CPU Module CPU CPU Module CPU SB0 SB1 M5000 IOU #0 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 DVD/DAT Disk 0,1 Disk 2,3 IO Ctlr IO Ctlr IO Ctlr IO Ctlr

84 Mx000 Server Hands On Training Extended System Board on M5000: Uni/Uni 2 domains Domain 1 on SB0 with IOU #0 > Has control of DVD and DAT > Disks 0 & 1 are boot disks Domain 2 on SB1 with IOU #1 > Disks 2 & 3 are boot disks

85 Mx000 Server Hands On Training Uni-XSB 00- 0 Extended System Board on M5000: Uni/Quad M5000 MBU MEM Board Quad-XSB 01- 3 Quad-XSB 01- 2 Quad-XSB 01- 1 Quad-XSB 01- 0 MEM Board CPU Module CPU CPU Module CPU CPU Module CPU CPU Module CPU SB0 SB1 M5000 IOU #1 M5000 IOU #0 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 IO Ctlr IO Ctlr IO Ctlr IO Ctlr DVD/DAT Disk 0,1 Disk 2,3

86 Mx000 Server Hands On Training Extended System Board on M5000: Uni/Quad 3 domains Domains can use XSBs from different SBs

87 Mx000 Server Hands On Training 2 Domain Config on M5000 M5000 MBU MEM Board Quad-XSB 00- 1 Quad-XSB 00- 0 MEM Board CPU Module CPU CPU Module CPU SB0 SB1 M5000 IOU #1 M5000 IOU #0 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 IO Ctlr IO Ctlr IO Ctlr IO Ctlr DVD/DAT Disk 0,1 Disk 2,3 Quad-XSB 00- 3 Quad-XSB 00- 2 Uni-XSB 01- 0 1 2 Domain # 2

88 Mx000 Server Hands On Training Extended System Board on M5000: Quad/Quad M5000 MBU MEM Board Quad-XSB 00- 3 Quad-XSB 00- 2 Quad-XSB 00- 1 Quad-XSB 00- 0 MEM Board Quad-XSB 01- 3 Quad-XSB 01- 2 Quad-XSB 01- 1 Quad-XSB 01- 0 CPU Module CPU CPU Module CPU CPU Module CPU CPU Module CPU SB0 SB1 M5000 IOU #1 M5000 IOU #0 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 PCI-X Slot PCIe Slot 2 PCIe Slot 3 PCIe Slot 0 PCIe Slot 1 IO Ctlr IO Ctlr IO Ctlr IO Ctlr DVD/DAT Disk 0,1 Disk 2,3

89 Mx000 Server Hands On Training Extended System Board on M8000/M9000: Quad CMU 2-core Processor Memory Controller 8 DDR2 DIMMs 2-core Processor Memory Controller 8 DDR2 DIMMs 2-core Processor Memory Controller 8 DDR2 DIMMs 2-core Processor Memory Controller 8 DDR2 DIMMs Quad-XSB 00- 3 Quad-XSB 00- 2 Quad-XSB 00- 1 Quad-XSB 00- 0 IOU PCIexpress slot PCIe PHY (serdes)

90 Mx000 Server Hands On Training 2-CPU System Board on M8000/M9000 CMU Memory Controller 8 DDR2 DIMMs 2-core Processor Memory Controller 8 DDR2 DIMMs 2-core Processor Memory Controller 8 DDR2 DIMMs Memory Controller 8 DDR2 DIMMs Uni-XSB 00- 0 IOU PCIexpress slot PCIe PHY (serdes) Uni-XSB mode only!

91 Mx000 Server Hands On Training Example Configuration M9000 #1 > Domain 1 –14 CPUs –4 network connections > Domain 2 –8 CPUs –4 network connections M9000 #2 > Domain 1 –8 CPUs –4 network connections > Domain 2 –1 CPU –4 network connections > Domain 3 –1 CPU –4 network connections > Domain 4 –2 CPUs –4 network connections > Domain 5 –14 CPUs –4 network connections

92 Mx000 Server Hands On Training Solution Guidelines M9000#1-Dom1: 14 CPUs = (3) 4CPU CMUs and (1) 2CPU CMU, (1) IOU M9000#1-Dom2: 8 CPUs = (2) 4CPU CMUs and (1) IOU M9000#2-Dom1: 8 CPUs = (2) 4CPU CMUs and (1) IOU M9000#2-Dom2: 1 CPU = (1) 4CPU CMUs and (1) IOU M9000#2-Dom3: 1 CPU = use same CMU and IOU from Dom2 M9000#2-Dom4: 2 CPUs = use ½ of CMU and IOU from Dom5 M9000#2-Dom5: 14 CPUs = (4) 4CPU CMUs, (2) IOU

93 Mx000 Server Hands On Training M9000# 1 M9000# 2 Dom 1 Dom 2 Dom 5 Dom 1 Dom 4 Dom 2 Dom 3

94 Mx000 Server Hands On Training COD and Memory In Uni-XSB, as memory controller are not on the CPU, all CPUs see all memory. So you just need one CPU active to acces all the memory of a Uni-XSB. For Quad-XSB, you need to activate the CPU of the Quad-XSB to get acces to mem and i/o

95 Mx000 Server Hands On Training domain Logical System Board (LSB) Quad-XSB can be mapped into multiple domains XSBLSB XSB/LSB Mapping LSB

96 Mx000 Server Hands On Training What is an LSB? For security purposes, a domain can not see XSBs that are not assigned to it This means a domain does not know the ID or location of any assigned XSBs Assigning an LSB number to an XSB allows the domain to have its own unique identifier for that XSB The Sun Fire E12K to E25K require this same process, except the LSB is assigned AUTOMATICALLY when a board is added to a domain.

97 Mx000 Server Hands On Training One LSB Table Per Domain Maximum of 16 LSB entries per domain Each XSB can exist as a different LSB in different domains. The LSB table is not always a reflection of what domains are currently running and which XSBs are currently being used. Assigning the XSB to an LSB does not assign it to a domain. Example...

98 Mx000 Server Hands On Training DCL LSB Configuration

99 Mx000 Server Hands On Training LSB Attributes For floating board, if it's the lower LSB it will get the kernel, so pay attention to always have an LSB with a lower number than the one with floater board flag Setting no-mem=true and no-io=true for an LSB will allow for very fast DR

100 Mx000 Server Hands On Training Setdcl Examples: setdcl -d 2 -a 1=2-0 2=2-1 3=2-2 4=2-3 6=5-0 7=1-0 For domain 2, assigns XSB 2-0 to LSB#1, XSB 2-1 to LSB#2, XSB 2-2 to LSB#3, XSB 2-3 to LSB#4, PSB 5 to LSB#6 and PSB 1 to LSB#7 setdcl -d 2 -s no-mem=true 4 For domain 2, sets LSB#4 to not have its memory added to the domain setdcl -d 2 -s float=true 7 For domain 2, sets LSB#7 to be a floater board setdcl –d 2 –r 1 For domain 2, clears the entry for LSB#1

101 Mx000 Server Hands On Training Create Domain 0 setupfru -x 4 sb 0 setupfru -x 1 sb 1 setdcl -d 0 -a 0=00-0 setdcl -d 0 -s no-mem=true 0 setdcl -d 0 -s no-io=true 0 setdcl -d 0 -s policy=XSB setdcl -d 0 -a 1=01 addboard -c configure -d 0 00-0 01 Set domain attributes > setdomainmode -d 0 -m autoboot=off Power on domain > poweron -y -d 0 Connect to console > console -d 0 -y

102 Mx000 Server Hands On Training Domain Control DVD and Tape on M8000/M9000 systems CLI Command: cfgdevice > The DVD and Tape can be used by any domain via cfgdevice CLI > DVD/Tape must be explicitly detached from one domain and attached to another domain > Usage: cfgdevice -h cfgdevice [-y] -c attach -p port_no cfgdevice [-y] -c detach -p port_no cfgdevice -l [-M] For M4000/M5000 systems, DVD and Tape belong to XSB#00-0

103 Mx000 Server Hands On Training Example XSCF> cfgdevice -c attach -p 11-0 Are you sure you want to attach the device [y|n] :y Completed. XSCF> cfgdevice -l Current connection for DVD/DAT: Main chassis: port 0-0 Expansion chassis: port 11-0 Expander status Port No. IOU/SAS-status SAS-status ----------------------------------------------- 0-0 enable up enable up 0-4 disable down enable up 1-0 disable down disable down 1-4 disable down disable down 2-0 disable down disable down 2-4 disable down disable down 8-0 disable down disable down 8-4 disable down disable down 9-0 disable down disable down 11-0 enable down enable up 11-4 disable down enable up XSCF>

104 Mx000 Server Hands On Training BREAK (15 min)

105 Mx000 Server Hands On Training XSCF Modes There are three modes defined in XSCF – normal, service and escalation modes The mode model follows that which is used for Serengeti Normal mode is where users are 99% of the time. > Customers use this mode. > Most maintenance functions can be performed here > Privileges described previously live in normal mode only

106 Mx000 Server Hands On Training XSCF Modes (cont) Service mode is for access to service commands that we don't want a customer having access to. > Advanced fm* commands > enablecodfru (convert non-COD boards to COD) Escalation mode is for advanced debugging and will be rarely used > Equivalent to root access > Access to shell commands and filesystem structure > Can execute all XSCF commands > Note that no root access is available and the root account is disabled by design

107 Mx000 Server Hands On Training XSCF Modes Operation Service and escalation mode are password protected To generate a password, you need to know the serial number of the system from showhardconf and the XSCF version from version -c xscf Password generator - http://oplpass.sfbay/ MODE :service VERSION :01.05.0002 SERIAL :PX20707003 HER HILL ITEM WACK VINE BEY YALE DISK SEND SHY MULL AHEM LUSH CROW ALEC ELLA IDEA MAKE PEW BIG GOT SONG SOCK JAW HAST GINA WHAT NEON RUSE A

108 Mx000 Server Hands On Training XSCF Modes Operation (cont) Once you have this password, you have to enable the mode using this password Once the mode is successfully enabled, you are given another 3 word password which you use to actually enter into the mode XSCF> enableservice Service Password: *** **** **** **** **** *** **** **** **** *** **** **** **** **** **** *** *** *** **** **** *** **** **** **** **** **** * Mode password is: HILT GIST WARM XSCF> service Mode password: **** **** **** service>

109 Mx000 Server Hands On Training LAB Setup a a domain and install Solaris onto it using a DVD or jumpstart service (if available) Use the GMP03 lab platform to investigate uni and quad mode domain configuration.

110 Mx000 Server Hands On Training Lab system XSCF Access to the M9000 in GMP03 XSCF login: platadm, standard lab password v4u-m9000a-xscf0-0-gmp03 v4u-m9000a-xscf0-0-gmp03 129.156.215.100 v4u-m9000a-xscf1-0-gmp03 v4u-m9000a-xscf1-0-gmp03 129.156.215.223 Hardware – physical system boards (PSBs) 00-0 01-0 02-0 08-0 09-0 10-0

111 Mx000 Server Hands On Training Lab Examples (1) XSCF> deleteboard -c disconnect 00-0 The current configuration does not support this operation. XSCF> deleteboard -c unassign 00-0 XSB#00-0 will be unassigned from domain immediately. Continue?[y|n] :y XSCF> setupfru -x 4 sb 0 XSCF> showfru sb 0 Device Location XSB Mode Memory Mirror Mode sb 00 Quad no XSCF> showboards -a XSB DID(LSB) Assignment Pwr Conn Conf Test Fault ---- -------- ----------- ---- ---- ---- ------- -------- 00-0 SP Unavailable n n n Unknown Normal 00-1 SP Unavailable n n n Unknown Normal 00-2 SP Unavailable n n n Unknown Normal 00-3 SP Unavailable n n n Unknown Normal 01-0 00(05) Assigned n n n Passed Normal 02-0 00(04) Assigned n n n Passed Normal 03-0 00(09) Assigned n n n Passed Normal XSCF> addboard -c configure -d 0 00-0 00-1 00-2 00-3 The current configuration does not support this operation. XSCF> XSCF> addboard -c assign -d 0 00-0 XSB#00-0 will be assigned to DomainID 0. Continue?[y|n] :y XSCF> addboard -c assign -d 0 00-1 00-2 00-3 XSB#00-1 will be assigned to DomainID 0. Continue?[y|n] :y XSB#00-2 will be assigned to DomainID 0. Continue?[y|n] :y XSB#00-3 will be assigned to DomainID 0. Continue?[y|n] :y XSCF> showboards -a XSB DID(LSB) Assignment Pwr Conn Conf Test Fault ---- -------- ----------- ---- ---- ---- ------- -------- 00-0 00(00) Assigned n n n Unknown Normal 00-1 00(01) Assigned n n n Unknown Normal 00-2 00(02) Assigned n n n Unknown Normal 00-3 00(03) Assigned n n n Unknown Normal 01-0 00(05) Assigned n n n Passed Normal 02-0 00(04) Assigned n n n Passed Normal 03-0 00(09) Assigned n n n Passed Normal

112 Mx000 Server Hands On Training Lab Examples (2) XSCF> poweron -d 0 DomainIDs to power on:00 Continue? [y|n] :y 00 :Powering on XSCF> XSCF> console -d 0 Connect to DomainID 0?[y|n] :y POST Sequence 01 LSB#01 (XSB#00-1): POST 1.21.0 (2007/03/16 18:13) LSB#02 (XSB#00-2): POST 1.21.0 (2007/03/16 18:13) LSB#03 (XSB#00-3): POST 1.21.0 (2007/03/16 18:13) LSB#09 (XSB#03-0): POST 1.21.0 (2007/03/16 18:13) LSB#04 (XSB#02-0): POST 1.21.0 (2007/03/16 18:13) POST Sequence 02 LSB#00 (XSB#00-0): POST 1.21.0 (2007/03/16 18:13) LSB#05 (XSB#01-0): POST 1.21.0 (2007/03/16 18:13) POST Sequence 03 POST Sequence 04 POST Sequence 05 POST Sequence 06 POST Sequence 07 POST Sequence 08 POST Sequence 09 POST Sequence 0A POST Sequence 0B POST Sequence 0C POST Sequence 0D POST Sequence 0E POST Sequence 0F POST Sequence 10 ERROR: POST detected failure. Check error logs. POST Sequence 11 POST Sequence 12 POST Sequence 13 POST Sequence 14 POST Sequence 15 POST Sequence 16 POST Sequence 17 POST Sequence 18 POST Sequence 19 POST Sequence 1A POST Sequence Complete. Sun SPARC Enterprise M8000 Server, using Domain console Copyright 2007 Sun Microsystems, Inc. All rights reserved. Copyright 2007 Sun Microsystems, Inc. and Fujitsu Limited. All rights reserved. OpenBoot 4.24.1, 262144 MB memory installed, Serial #9572064. Ethernet address 0:b:5d:dc:e:e0, Host ID: 80920ee0. Aborting auto-boot sequence. {0} ok boot Boot device: /pci@0,600000/pci@0/scsi@1/disk@0,0:a File and args: SunOS Release 5.10 Version Generic_125100-07 64-bit Copyright 1983-2006 Sun Microsystems, Inc. All rights reserved. Use is subject to license terms. /pci@0,600000/pci@0/scsi@1 (mpt0): mpt0: Port 0/PHY 0 WWN: 0x500000e0e00003ba/pci@0,600000/pci@0/scsi@1 (mpt0): mpt0: Port 1/PHY 1 WWN: 0x500000e0e00003bb/pci@0,600000/pci@0/scsi@1 (mpt0): mpt0: Port 2/PHY 2 WWN: 0x500000e0e00003bc/pci@0,600000/pci@0/scsi@1 (mpt0): mpt0: Port 3/PHY 3 WWN: 0x500000e0e00003bdHostname: c1718-v1000-115 Sun Microsystems Inc. SunOS 5.10 Generic January 2005 c1718-v1000-115 console login:

113 Mx000 Server Hands On Training Lab Examples (3a) XSCF> showlogs power Jul 02 14:53:37 UTC 2007 Domain Power Off Operator 00 Locked Jul 02 14:55:57 UTC 2007 System Power Off Operator -- Locked Jul 02 15:21:17 UTC 2007 System Power On Operator -- Locked Jul 02 15:22:56 UTC 2007 Domain Power On Operator 00 Locked Jul 02 15:42:46 UTC 2007 Domain Power Off Operator 00 Locked Jul 02 15:45:02 UTC 2007 System Power Off Operator -- Locked XSCF> showdcl Invalid parameter. usage : showdcl [-v] -a showdcl [-v] -d domain_id [[-l lsb]...] showdcl -h XSCF> showboards -a XSB DID(LSB) Assignment Pwr Conn Conf Test Fault ---- -------- ----------- ---- ---- ---- ------- -------- 00-0 00(00) Assigned n n n Passed Normal 00-1 00(01) Assigned n n n Passed Normal 00-2 00(02) Assigned n n n Passed Normal 00-3 00(03) Assigned n n n Passed Normal 01-0 00(05) Assigned n n n Passed Normal 02-0 00(04) Assigned n n n Passed Normal 03-0 00(09) Assigned n n n Passed Normal XSCF> deleteboard Invalid parameter. usage : deleteboard [[-q]{-y|-n}] [-f] [-v] [-c disconnect] xsb [xsb...] deleteboard [[-q]{-y|-n}] [-f] [-v] -c unassign xsb [xsb...] deleteboard [[-q]{-y|-n}] [-f] [-v] -c reserve xsb [xsb...] deleteboard -h XSCF> deleteboard -c unassign 00-2 XSB#00-2 will be unassigned from domain immediately. Continue?[y|n] :y XSCF> deleteboard -c unassign 00-3 XSB#00-3 will be unassigned from domain immediately. Continue?[y|n] :y XSCF> showbaords -a shell: showbaords: command not found XSCF> deleteboard -c unassign 01-0 XSB#01-0 will be unassigned from domain immediately. Continue?[y|n] :y XSCF> showboards -a XSB DID(LSB) Assignment Pwr Conn Conf Test Fault ---- -------- ----------- ---- ---- ---- ------- -------- 00-0 00(00) Assigned n n n Passed Normal 00-1 00(01) Assigned n n n Passed Normal 00-2 SP Available n n n Passed Normal 00-3 SP Available n n n Passed Normal 01-0 SP Available n n n Passed Normal 02-0 SP Unavailable n n n Unknown Normal 03-0 00(09) Assigned n n n Passed Normal

114 Mx000 Server Hands On Training Lab Examples (3b) XSCF> showdcl -d 1 DID LSB XSB Status 01 Powered Off 00 01-0 01 01-1 02 01-2 03 01-3 04 03-0 XSCF> setdcl -d 1 -a 5=00-2 6=00-3 XSCF> showdcl -d 1 DID LSB XSB Status 01 Powered Off 00 01-0 01 01-1 02 01-2 03 01-3 04 03-0 05 00-2 06 00-3 XSCF> addboard -d 1 -c assign 01-0 00-2 00-3 XSB#00-2 will be assigned to DomainID 1. Continue?[y|n] :y XSB#00-3 will be assigned to DomainID 1. Continue?[y|n] :y XSB#01-0 will be assigned to DomainID 1. Continue?[y|n] :y XSCF> showboards -a XSB DID(LSB) Assignment Pwr Conn Conf Test Fault ---- -------- ----------- ---- ---- ---- ------- -------- 00-0 00(00) Assigned n n n Passed Normal 00-1 00(01) Assigned n n n Passed Normal 00-2 01(05) Assigned n n n Passed Normal 00-3 01(06) Assigned n n n Passed Normal 01-0 01(00) Assigned n n n Passed Normal 02-0 SP Unavailable n n n Unknown Normal 03-0 00(09) Assigned n n n Passed Normal XSCF> poweron -d 0 DomainIDs to power on:00 Continue? [y|n] :y 00 :Powering on *Note* This command only issues the instruction to power-on. The result of the instruction can be checked by the "showlogs power". XSCF>

115 Mx000 Server Hands On Training XSCF> [press TAB twice] Display all 130 possibilities? (y or n) addboard moveboard setldap showautologout shownameserver addcodlicense nslookup setlocale showboards shownetwork addfru password setlocator showcod shownotice adduser poweroff setlookup showcodlicense showntp applynetwork poweron setnameserver showcodusage showpasswordpolicy cfgdevice prtfru setnetwork showconsolepath showpowerupdelay clockboard rebootxscf setntp showdate showresult console replacefru setpasswordpolicy showdcl showroute deleteboard reset setpowerupdelay showdevices showshutdowndelay deletecodlicenseresetdateoffset setprivileges showdomainmode showsmtp deletefru sendbreak setrci showdomainstatus showsnmp deleteuser service setrcic showdscp showsnmpusm disablemodes setaltitude setroute showdualpowerfeed showsnmpvacm disableuser setarchiving setshutdowndelay showemailreport showssh enableescalation setaudit setsmtp showenvironment showstatus enableservice setautologout setsnmp showfru showsunmc enableuser setcod setsnmpusm showhardconf showtelnet escalation setdate setsnmpvacm showhostname showtimezone exit setdcl setssh showhttps showuser flashupdate setdomainmode setsunmc showldap snapshot fmadm setdomparam settelnet showlocale switchscf fmdump setdscp settimezone showlocator testsb fmstat setdualpowerfeed setupfru showlogs unlockmaintenance getflashimage setemailreport showaltitude showlookup version ioxadm sethostname showarchiving showmodes viewaudit man sethttps showaudit showmonitorlog who XSCF> Lab Examples (4) – all XSCF commands

116 Mx000 Server Hands On Training Quiz ! ! 1)How many domains possible on a M9000? 2)True or False: The external power cabinet is required for DPF on a M8000? 3)What command is used to place a PSB in Quad-XSB mode? 4)What option would be used to reserve a XSB? 5)After setting the IP for the XSCF lan#0, what command is used to activate it?

117 Mx000 Server Hands On Training Quiz ! ! 6)What is the maximum number users that be connected to the XSCF on M4000 and M8000? 7)What command is used to assign the DVD/DAT on the M8000/M9000 systems? 8)What account name is used for initial setup of the system? 9)True or False: To access the DVD/DAT/Disks, the IOUA must go in any even numbered PCIe slot. 10)What are the three operational modes for accounts on the XSCF?

118 Mx000 Server Hands On Training Quiz ! ! 1)How many domains possible on a M9000? (32/24) 2)True or False: The external power cabinet is required for DPF on a M8000? (False) 3)What command is used to place a PSB in Quad-XSB mode? (setupfru) 4)What option would be used to reserve a XSB? (assign) 5)After setting the IP for the XSCF lan#0, what command is used to activate it? (applynetwork)

119 Mx000 Server Hands On Training Quiz ! ! 6)What is the maximum number users that be connected to the XSCF on M4000 and M8000? (20/100) 7)What command is used to assign the DVD/DAT on the M8000/M9000 systems? (cfgdevice) 8)What account name is used for initial setup of the system? (default) 9)True or False: To access the DVD/DAT/Disks, the IOUA must go in any even numbered PCIe slot. (False: slots 0 and 4) 10)What are the three operational modes for accounts on the XSCF? (normal/service/escalation)

David Campbell d.campbell@sun.com

SPARC Enterprise Server Training - Day 1 Presentation delivered by David Campbell OPL Technical Community, Systems TSC EMEA Based on.

Similar presentations

Presentation on theme: "SPARC Enterprise Server Training - Day 1 Presentation delivered by David Campbell OPL Technical Community, Systems TSC EMEA Based on."— Presentation transcript:

Similar presentations

About project

Feedback

Log in

Auth with social network:

SPARC Enterprise Server Training - Day 1 Presentation delivered by David Campbell OPL Technical Community, Systems TSC EMEA Based on.

Similar presentations

Presentation on theme: "SPARC Enterprise Server Training - Day 1 Presentation delivered by David Campbell OPL Technical Community, Systems TSC EMEA Based on."— Presentation transcript:

Similar presentations

About project

Feedback