Dell™ OpenManage™ Deployment Toolkit Version Command Line Interface Reference Guide w w w. d e l l . c o m | s u p p o r t . d e l l .
Notes and Cautions NOTE: A NOTE indicates important information that helps you make better use of your computer. CAUTION: A CAUTION indicates potential damage to hardware or loss of data if instructions are not followed. ____________________ Information in this document is subject to change without notice. © 2009 Dell Inc. All rights reserved. Reproduction of these materials in any manner whatsoever without the written permission of Dell Inc. is strictly forbidden.
Contents 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . What’s New in This Release Requirements 10 . . . . . . . . . . . . . . . . . . . . . 10 . . . . . . . . . . . . . . . . . . . . . . 10 . . . . . . . . . . . . 10 RAID Configuration Utility . . . . . . . . . . . . . 10 RAC Configuration Utility . . . . . . . . . . . . . . 11 . . . . . . . . . . . . . . . 11 . . . . . . . . . . . . . . . . . . . . . . .
3 SYSCFG . . . . . . . . . . . . . . . . . . . . . . . . . . Features . . . . . . . . . . . . . . . . . . . . . . . . . SYSCFG General Options . . . . . . . . . . . . . . . . SYSCFG for BIOS Configuration . . . . . . . . . . . . . 68 . . . . . . . 69 . . . . . . . . . . . . 108 SYSCFG for System Configuration . . . . . . . 108 . . . . . . . . . . . 110 . . . . . . . . . 110 . . . . . . . . . . . . . 119 . . . . . . . . . . . . . . . . . . . . . .
RAID Configuration Utility Options and Arguments . . . . . . . . . . General Help . . . . . . . . . . . 132 . . . . . . . . . . . . . . . . . . . . 133 . . . . . . . . . . . 134 . . . . . . . . . . . . . . . 136 Enumerating RAID Controllers Creating Virtual Disks Enumerating Array Disks . . . . . . . . . . . . . . 150 Enumerating Virtual Disks . . . . . . . . . . . . . 155 . . . . . . . . . . . . . . 158 . . . . . . . . . . . . . . 159 . . . . . . . . . . . . . . .
RAC Configuration Utility Options, Subcommands, and Arguments . . racadm Command config/getconfig . . . . . . . . . . . 188 . . . . . . . . . . . . . . . . . 189 . . . . . . . . . . . . . . . . . . 191 . . . . . . . . 193 fwupdate . . . . . . . . . . . . . . . . . . . . . . 195 Synopsis . . . . . . . . . . . . . . . . . . . . . . 195 getconfig Subcommand Description . . . . . . . . . . . . . . . . . . . . . 195 . . . . . . . . . . . . . . . . . . . . . . . .
A Messages and Codes . . . . . . . . . . . . . . SYSCFG Error Codes and Messages Failure Messages . . . . . . . . . . 213 . . . . . . . . . . . . . . . . . 213 UPINIT Common Error Codes and Messages Failure Messages . . . . . . 223 . . . . . . . . . . . . . . . . . 223 UPINIT Linux-Specific Error Codes and Messages . . . . . . . . . . . UPINIT Windows PE-Specific Error Codes and Messages . . . . . . . . . . . . . 224 . . . . . . . . . . . . .
D Summary of SYSCFG and RAIDCFG Options . . . . . . SYSCFG Options RAIDCFG Options . . . . . . . . . . . 271 . . . . . . . . . . . . . . . . . . . . . 271 . . . . . . . . . . . . . . . . . . . . 299 Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . 305 Index 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Introduction Dell™ OpenManage™ Deployment Toolkit (DTK) includes a set of utilities for configuring and deploying Dell PowerEdge™ systems. DTK is designed for customers who need to build scripted installations in order to deploy large numbers of systems in a reliable fashion without having to dramatically change their current deployment processes.
Requirements For Windows PE, the DTK utilities support Windows PE version 2005 (created using 32-bit version of Microsoft Windows Server® 2003, Service Pack 1 [SP1]) and Windows PE 2.0 (created using 32-bit version built on the Windows Vista® kernel). NOTE: DTK utilities do not support Windows PE created with any 64-bit version of Microsoft Windows Server 2003. For embedded Linux, the DTK utilities can be run on Red Hat® Enterprise Linux® (version 4, update 4) 32-bit.
RAC Configuration Utility The RACADM utility reports and sets RAC configuration options for Dell Remote Access Controller (DRAC) III (Linux only) and DRAC 4. NOTE: DRAC 5 is configured by SYSCFG. Disk Partitioning Utility The UPINIT script creates, formats, and populates a Dell Utility Partition. Replication File Format The -i and -o options use a .ini file format for SYSCFG options. All name/value entries that follow the [syscfg] section header in the .ini file belong to the SYSCFG utility.
The following is the SYSCFG behavior during replication: • Options not available in SYSCFG are termed invalid options. If SYSCFG encounters an invalid option in the syscfg.ini file, the SYSCFG utility terminates. • Unsupported options are options available in SYSCFG but not applicable on certain systems. If SYSCFG encounters an unsupported option, SYSCFG logs this option and continues to the next option. For example, the virtualization option is not available on x8xx series systems.
Other Dell Documents You Might Need Besides this Command Line Interface Reference Guide, you can find the following guides on the Dell OpenManage documentation page of the Dell Support website at support.dell.com or on the Dell Systems Management Tools and Documentation DVD. • The Dell OpenManage Deployment Toolkit User's Guide provides general, best practices procedures that focus on the basic tasks for successful deployment of Dell systems.
Obtaining Technical Assistance If at any time you do not understand a procedure described in this guide or if your product does not perform as expected, help tools are available to assist you. For more information about these help tools, see "Getting Help" in your system's Hardware Owner's Manual. Additionally, Dell Enterprise Training and Certification is available; see www.dell.com/training for more information. This service may not be offered in all locations.
Command Syntax Overview Syntax refers to the way a command and its parameters are entered. Dell™ OpenManage™ Deployment Toolkit (DTK) Command Line Interface (CLI) commands can be arranged in any order in a command line instance as long as they conform to the basic command line syntax. Command Line Syntax The general usage models of the DTK utilities are as follows: • SYSCFG syscfg option1 [arg1] ... optionX [argX] OR syscfg bmcoption1 bmcsuboption1 [arg1]...
Table 2-1 lists the generic command line characters and arguments present in the command line options with a short description of these characters. Table 2-1. Command Line Syntax Element Description - Single-character options are prefixed with a preceding hyphen (-). NOTE: This delimiter is not applicable to Baseboard Management Controller (BMC) suboptions. -- Multi-character options are prefixed with two (2) preceding hyphens (--). utilname Generic designation for a DTK utility name.
Case Sensitivity • Command line options, pre-defined and user-defined arguments, and filenames given as arguments are all case sensitive. • Unless specified otherwise, enter all commands, options, arguments, and command line switches in lowercase letters. Command Line Option Delimiters • Single-character options are prefixed with a preceding hyphen (-). • Multi-character options are prefixed with two (2) preceding hyphens (--).
NOTE: Example 2 is invalid because the report and set actions are used in the same command line. NOTE: Examples 3, 4, and 5 are valid because the aliases use neither report nor set actions. Read and Write Commands Options can report a certain value or set of values based on the presence of an argument. These read or write actions are implied in the DTK command line arguments. The get, read, set, or write commands, for example, are not required.
The log duplicates all standard output and error information to the specified file. Each log file begins with a time stamp and utility name. For example, YYYY/MM/DD HH:MM:SS -
Command Syntax Overview
SYSCFG This section documents the Deployment Toolkit (DTK) system configuration utility. It describes the command line parameters, configuration file format, and individual executables used to configure server BIOS and baseboard management controller (BMC) settings, DTK state settings, and system information including PCI device detection.
SYSCFG General Options NOTE: Some of the options in SYSCFG are followed by an asterisk. These commands do not accept any suboptions or arguments. The values associated with these commands are those that are reported by the BIOS. These values cannot be modified. Table 3-1 lists the SYSCFG general options. Table 3-1. SYSCFG General Options Options Suboptions Valid Arguments Description No option NA If an option is not given, the SYSCFG utility outputs usage information.
Table 3-1. Options --envar SYSCFG General Options (continued) Suboptions Valid Arguments valid filename valid path media should be writable Description When used with the –s option, this option stores the environment variable data to a file. This file can be called from other scripts to set the environment variable. The value of need not be specified if the DTKENVSCR environment variable is set to a valid filename.
Table 3-1. SYSCFG General Options (continued) Options Suboptions Valid Arguments Description -h or --help NA Without an argument, this option displays general usage information for the utility. If the argument matches a valid option, that option's usage information is displayed. If the option has arguments, the arguments are displayed, separated by a | character. If the option has suboptions, all suboptions, valid arguments, and a description are listed.
Table 3-1. SYSCFG General Options (continued) Options Suboptions Valid Arguments -i or --infile NA Description This option directs the SYSCFG utility to take input from a .ini file. The utility searches the file for a section heading identical to the utility name. An error is returned if the file or section is not found. If the section is found, each name/value pair is applied to the system. The names must match a valid option, and the arguments must be in the proper format for the option.
Table 3-1. Options SYSCFG General Options (continued) Suboptions Valid Arguments -o NA or --outfileo or -outfile Description This option outputs all replicable options to the specified filename. The format of the output is in a .ini format, with the utility name as the section header. If a file with the same name already exists, the information is appended to the file. If this option is used with other function commands, the commands are applied in the order in which they appear.
SYSCFG for BIOS Configuration SYSCFG uses BIOS interfaces to manipulate boot order and BIOS settings. It configures all options available on the BIOS setup screen, including boot order, embedded device configuration, and asset tag management. Options for BIOS Configuration Table 3-2 documents valid options and arguments along with a description of their expected behavior. Options and arguments are case sensitive. All options and pre-defined arguments are lowercase unless stated otherwise.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description -enable, disable adjcacheprefetch When this option is set to enabled, the processor fetches the cache line containing the currently requested data, and prefetches the following cache line. When this option is set to disabled, the processor fetches only the cache line containing the currently requested data.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --bezelir enable, disable This option enables or disables the ESM to monitor and log front bezel intrusion conditions. Example: A:>syscfg --bezelir=enable bezelir=enable --bootmode uefi, bios This option enables booting to Unified Extensible Firmware Interface (UEFI) -capable operating systems or ensures compatibility with operating systems that do not support UEFI.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --bootseq numerical list, separated by commas or list of device names, separated by commas This option sets the boot order for a system. Without an argument, this option prints the boot order list. The argument must be formatted as a comma-separated numerical list with no spaces. The list must be within the bounds of the current boot list, i.e.
Table 3-2. Option SYSCFG Options and Arguments for BIOS Configuration (continued) Valid Arguments Description Device 6:* usbfloppy.slot.1 - USB Floppy device NOTE: The asterisk indicates that the device is enabled in the BIOS. Device Name Examples Example of device names: nic.slot.1 (network adapter 1 in PCI slot) nic.emb.1 (network adapter 1 on system board) hdd.emb.0 (hard drive C:) cdrom.emb.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description Example 2: #syscfg --bootseq= nic.emb.1,virtual.slot.1 The following devices are set in the boot sequence: Device 4:* nic.emb.1 - IBA GE Slot 0638 v1226 Device 6:* virtual.slot.2 VIRTUALFLOPPY DRIVE Device 2:* cdrom.emb.0 - IDE CDROM device Device 3:* hdd.emb.0 - Hard drive C: Device 5:* virtual.slot.1 VIRTUALCDROM DRIVE Device 1:* floppy.emb.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --conboot enable, disable This option configures or reports whether console redirection occurs after boot. This option is available on all supported systems that support console redirection. This option can be replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --cpuxdsupport enable, disable This option enables or disables the execute disable (XD) feature of the CPU. Example: A:>syscfg --cpuxdsupport=enable cpuxdsupport=enable NOTE: This option is available only on x9xx, xx0x, and xx1x systems running on Intel® processors. --cstates enable, disable This option enables or disables the power c states of the processor.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --devseq numerical list, separated by commas or list of device names, separated by commas This option sets the hard-drive sequence for a system. Without an argument, this option displays the device list. The argument must be formatted as a comma-separated numerical list of device index values. The list must be within the bounds of the current boot list.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description Example 2: A:>syscfg --devseq= hdd.emb.1,scsiraid.emb.1 The following devices are set in the disk device sequence:Device 1:* hdd.emb.0 - System BIOS boot devices Device 2:* scsiraid.emb.1 - AIC7899, A:00 Seagate NOTE: The asterisk indicates that the device is enabled in the BIOS. --embhypervisor off, on This option enables or disables the embedded hypervisor port.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --embnic1 on, off, onnopxe, This option turns the first embedded NIC on onwithiscsi with PXE on, off, or on without PXE enabled. This option is only valid for supported systems that have an NIC. If the NIC is enabled without PXE, it is not found in the boot order. If the NIC is turned on with PXE, it is placed at the end of the boot order. The onnopxe argument is not supported on all systems.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --embnic3 on, off, onnopxe, This option turns the third embedded NIC on onwithiscsi with PXE enabled, off, or on without PXE enabled. This option is only valid for supported systems that have three embedded NICs. If the second NIC is enabled without PXE, it is not found in the boot order. If the third NIC is turned on with PXE, it is placed at the end of the boot order.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --embnic1nic2 enable, disable This option enables or disables the operating system interface of the first and second embedded NIC controllers. Example: A:>syscfg --embnic1nic2=enable --embnic1nic2=enable NOTE: This option is available only on Dell™ PowerEdge™ 1855, PowerEdge 6850, and xx1x systems.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --embnic1pxe enable, disable This option enables or disables PXE on the first embedded NIC. If PXE is disabled, the first NIC is not found in the boot order. If PXE is enabled, the first NIC is placed at the end of the boot order. This option is only present on systems that do not support the embnic1 option. This option can be replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --embsataraid off, combined, ata, raid, qdma This option configures an embedded SATA RAID controller. This option can be replicated. off — disables the embedded SATA RAID controller. combined — sets the SATA RAID controller to combined mode. ata — sets SATA RAID controller to ATA mode. raid — sets SATA RAID controller to RAID mode.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --embscsiraid raid, off, scsi This option enables or disables the embedded SCSI RAID controller. This option is only valid for supported systems that have SCSI ROMB. Some systems do not support the scsi argument. This option can be replicated. CAUTION: If you change the controller from SCSI to RAID mode, data loss may occur. Backup any data you need to save before changing modes.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --extserial com1, com2, rad This option sets the behavior of the external serial connector. When set to com1, the BIOS maps the external serial connector to COM port 1. The com1 setting is the default. When set to com2, the external serial connector is routed to the COM2 interface.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --fiberchannel enable, disable This option enables or disables embedded fiber channel. This option can be replicated. Example: A:>syscfg --fiberchannel=enable fiberchannel=enable --floppy auto, off, readonly This option sets the diskette drive controller to auto, off, or read-only. This option is available on all supported systems that have a supported diskette drive.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --hwprefetcher enable, disable When set to enable, this option makes the processor look ahead and see what data might be needed next. When some data is found, it loads several steps in advance. When set to disable, it does not look ahead. This option can be replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --internalusb off, on This option enables or disables all the user-accessible USB ports. This option can be replicated. Example: A:>syscfg --internalusb=on internalusb=on --ioat enable, disable This option enables or disables the I/O Acceleration Technology (I/OAT) DMA Engine option. This option must be enabled only if the hardware and software support I/OAT on your system.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --lcd2 This option sets the second line of user-defined LCD strings. --logicproc enable, disable This option enables or disables logical processing for a system. This option is available on all systems that support logical processing (Hyperthreading). This option can be replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description -optimizer, memoperatingm mirror, ode advancedecc This option selects the memory operating mode. This feature is active only if a valid memory configuration is detected. Example: A:>syscfg --memoperatingmode= optimizer memoperatingmode=optimizer NOTE: This option is available only on xx1x systems. --memremap off, auto This option enables or disables memory remapping.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --nextboot valid device name (from the --bootseq option device list) This option sets the specified device as the first device in the boot order for the next boot cycle only. The device must be a device from the --bootseq option device list. Run the --bootseq option to see a list of available device names. See --bootseq for more information. This option is not replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --noraidprompt* NA This option specifies that the BIOS must not prompt for confirmation when changing the mode of a RAID controller. This option can only be used with the --embscsiraid or --embscsiraidchb options. Without this option, the user is prompted during POST to confirm the change of a RAID controller from RAID(SCSI) to SCSI(RAID). This option is not replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --oldsetuppwd This option is required to set a new setup password when a setup password is currently set. The setup password locks the BIOS setup screen. The argument string supplied to this option is the current password. If this password is not correct, the new setup password is not applied to the system.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --oldsyspwd This option supplies the current system password for the BIOS. This option is only given when setting the new system password. If this password does not match the current system password, the new password is not applied to the system. The system password is required when booting the system. The argument string supplied to this option will be the password.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --osmode enable, disable This option enables or disables operating system installation mode for installing operating systems. Enabling this option causes the BIOS to only report 256 MB to the operating system. Some operating systems cannot be installed if a system has more than 2 GB of memory. This option can be replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --powerbutton enable, disable This option enables or disables the power button for a system. This option is recorded to an output file for replication. This option is available on all supported systems. Example: A:>syscfg --powerbutton=enable powerbutton=enable NOTE: The system must be rebooted for BIOS options to take effect. --pwdlock lock, unlock This option locks the system password.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --sata0 auto, off This option enables or disables SATA port 0. This option can be replicated. Example: A:>syscfg --sata0=auto sata0=auto NOTE: This option maps to --sata_a for PowerEdge x9xx systems. --sata1 auto, off This option enables or disables SATA port 1. This option can be replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --sata4 auto, off This option enables or disables SATA port 4. This option can be replicated. Example: A:>syscfg --sata_4=auto sata_4=auto NOTE: This option maps to --sata_e for PowerEdge x9xx systems. --sata5 auto, off This option enables or disables SATA port 5. This option can be replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --snoopfilter enable, disable This option enables or disables the snoop filter option from the system BIOS. Example: A:>syscfg --snoopfilter=enable snoopfilter=enable --speaker on, off This option turns the built-in speaker on or off. This option can be replicated. NOTE: The --speaker option is not supported on certain PowerEdge systems.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --serialcomm on, com1cr, com2cr, off This option sets the behavior of the serial port communication. When set to on, this option tells the BIOS to enable COM port 1 and COM port 2. These ports are made available for use by the operating system or applications. BIOS Console Redirection is disabled. When set to com1cr, this option tells the BIOS to enable COM port 1 and COM port 2.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --setuppwd This option sets the setup password for the BIOS. The setup password locks the BIOS F2 screen. The argument string supplied to this option is the password. Generally, passwords are limited to alphanumeric characters and cannot exceed 32 characters in length. If a current setup password is set, it must be given through the --oldsetuppwd option. This option is not replicated.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --sma enable, disable This option enables or disables processor sequential memory access. Example: A:>syscfg --sma=disable sma=disable --svctag* NA This option reports the service tag for a system. If the system is modular, it displays the service tag for PowerEdge 1855. If used with the -s general option, the environment variable is set to the service tag.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --syspwd This option sets the system password for the BIOS. The system password is required when booting the system. The argument string supplied to this option is the password. Generally, passwords are limited to alphanumeric characters and cannot exceed 32 characters in length. If a current system password is set, it must be given through the --oldsyspwd option.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --turbomode enable, disable This option enables or disables core-based turbo mode. Turbo mode is a feature on Intel processors that allows one processor core to increase it’s frequency by one bin whenever the other core has gone into an idle state. Example: A:>syscfg --turbomode=enable --turbomode=enable NOTE: This option is available only on xx1x systems running on Intel processors.
Table 3-2. SYSCFG Options and Arguments for BIOS Configuration (continued) Option Valid Arguments Description --usbports enable, This option enables or disables USB ports. When enablebackonly, set to enable, it enables all user accessible USB disable ports. When set to enablebackonly, the front user accessible ports are disabled. When set to disable, both front and back user accessible ports are disabled. This option can be replicated.
Table 3-3 lists the suboptions and arguments for the tpm option. Table 3-3. Suboptions and Arguments for the tpm Option Option Suboption Arguments Description tpm off Does not report the presence of TPM to the operating system. onwithpbm Directs the BIOS to store the TCG compliant measurements to the TPM during a POST operation. onwithoutp bm Directs the BIOS to bypass the pre-boot measurements.
Table 3-3. Suboptions and Arguments for the tpm Option (continued) Option Suboption --tpmclear Arguments Description NA Clears the contents of the TPM chip without erasing the tpmsecurity and tpmactivation settings. Example: A:>syscfg tpm -tpmactivation=enabled -tpmclear --setuppwdoverride -undotpmclear NA Undoes the result of the tpmclear setting. If you specify this setting before specifying the tpmclear setting, the ‘There is currently no pending TPM Clear request’ message is displayed.
Table 3-4 lists the suboptions and arguments for the power option. Table 3-4. Suboptions and Arguments for the power Option Option Suboption Arguments Description power --profile where powerprofile can be maxperformance, osctl, apc Displays the settings similar to the BIOS setup screen for the respective profile. Reboot the system for the settings to take effect. If power profiles are not available on the platform, an error message is displayed.
Table 3-4. Suboptions and Arguments for the power Option (continued) Option Suboption Arguments -min, max fanpowermode Description Allows you to set the fan algorithm to the minimum power optimized or maximum performance optimized mode. A:>syscfg power --profile= custom --fanpowermode=min -setuppwdoverride NOTE: Set the value of --profile to custom to change the values of cpupowermode, memorypowermode, and fanpowermode.
Table 3-4. Suboptions and Arguments for the power Option (continued) Option Suboption --valsetuppwd Arguments Description Validates the setup password for power authentication. If you try to change the DTK settings, you are prompted to enter this password to access the settings. A:>syscfg power --profile= maxperformance --valsetuppwd= -NA setuppwdoverri de Does not prompt you for a password to access the DTK settings on systems that do not have a setup password configured.
The following section documents all the valid options, suboptions, and their arguments along with a description of the expected behavior using an example. Some features that need to be noted while reading this section are: • Unless otherwise specified, all suboptions to options are optional. • If a suboption is not specified for an option, all valid suboption values are displayed for the option. If suboptions are specified, then only those suboptions are reported.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --majorfwrevision NA Reports the BMC device major firmware revision. --minorfwrevision NA Reports the BMC device minor firmware revision. Example: A:>syscfg bmcversion devid=32 devrevision=0 majorfwrevision= 0 minorfwrevision= 40 -NA controlpanelacc ess viewandmodify, This option sets or gets viewonly, disabled the access level for the Liquid Crystal Display (LCD).
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description --clearsel* NA NA Clears the SEL. This option cannot be replicated. Example: A:>syscfg -clearsel Clearing SEL... NOTE: The asterisk is not part of the command syntax. --deviceguid* NA NA Displays the GUID for the BMC. This option cannot be replicated. Example: A:>syscfg -deviceguid deviceguid= XXXXXXXXXX NOTE: The asterisk is not part of the command syntax.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description --encryptkey NA Encrypts the IPMI sessions. The hexadecimal number entered as an argument is not case sensitive although the value returned by the encryptkey option is always in uppercase. The value returned is appended with zeroes so that it is always 40 characters long.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption -kvmstatusonlcd Valid Arguments Description active, inactive This option configures the vKVM session status on the LCD. Example: A:>syscfg -kvmstatusonlcd= active kvmstatusonlcd= active NOTE: This option is available only on xx1x systems. lanchannelacce ss or lca Sets or displays the LAN channel access settings such as alerting, IPMI over LAN, and user privilege. This option can be replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description --channelprivlmt user, operator, administrator Sets the maximum privilege level accepted for the LAN channel. This suboption can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --ipaddress Sets the IP address for the LAN channel. This suboption cannot be replicated. --subnetmask Sets the subnet mask for the LAN channel. This suboption can be replicated. --gateway Sets the gateway for the LAN channel. This suboption can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --alertdest 1, 2, 3, 4 Sets the destination for the LAN alert. This suboption can be replicated. --vlantag enable, disable Enables or disables VLAN tagging. This suboption can be replicated. --vlanid Sets the 12-bit VLAN ID. This suboption can be replicated. --vlanpriority 0–7 Sets the VLAN priority value. This suboption can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --speed 10,100 Sets the network interface speed to 10 or 100 Mbps. --dnsdhcp enable, disable Enables or disables obtaining the DNS server IP address through DHCP. --dnsserver1 Sets the IP address of the primary DNS server for domain name resolution. --dnsserver2 Sets the IP address of the secondary DNS server for domain name resolution.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description Example 1 (to display the current LAN configuration settings): A:>syscfg -lancfgparams lancfgparams destipaddr= 192.168.100.15 vlantag=enable vlanid=1000 vlanpriority=7 macaddress= 0:6:5b:fb:c8:a7 commstring= public ipaddrsrc=static ipaddress= 192.168.100.10 subnetmask= 255.255.255.0 gateway= 192.168.100.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description Example 2 (to set the LAN configuration parameters): A:>syscfg lancfgparams --destipaddr= 192.168.100.15 --vlantag=enable --vlanid=1000 --vlanpriority=7 --commstring= public --ipaddrsrc= static --ipaddress= 192.168.100.10 --subnetmask= 255.255.255.0 --gateway= 192.168.100.1 lancfgparams destipaddr= 192.168.100.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments lanuseraccess or lua Description Configures the privilege level and channel accessibility associated with a specified User ID for the LAN channel. --userid 2–10 if your system has a DRAC 4 controller Sets the User ID. This suboption can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments -NA useridswithfixednames Description Reports the number of User IDs with fixed names on the LAN channel.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption --loaddefaults* NA Valid Arguments Description NA Restores the BMC to the defaults that were originally loaded on the controller. This option is used to return the BMC to a known-good state. This option cannot be replicated. NOTE: The NMI, power button, and SOL defaults are not reset by using this option. Example: A:>syscfg -loaddefaults Loading defaults...
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description --nextboot NA valid device name (from the --bootseq option device list) This option sets the specified device as the first device in the boot order for the next boot cycle only. The device must be a device from the --bootseq option device list. Run the --bootseq option to see a list of available device names. See --bootseq for more information. This option is not replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description Device 5: nic.emb.2 Intel Boot Agent Version 4.0.17 Example 2: A:>syscfg --nextboot= nic.emb.1 nextboot=nic.emb.1 --nmibutton NA enable, disable This option enables or disables the NMI button. This option can be replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments passwordaction Description Configures and tests the password for the specified User ID. This option cannot be replicated. All three suboptions, action, userid, and password, must be included in the command line. NOTE: 20 byte passwords are not supported for this option. --userid 2–10 if your system has a DRAC 4 controller Specifies the BMC User ID. This suboption cannot be replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description A:>syscfg passwordaction --userid=3 --action= setpassword --password= bmcmaster passwordaction userid=3 action= setpassword password= ********* A:>syscfg passwordaction --userid=3 --action= testpassword --password= bmcmastor Password test failed. pefcfgparams or pcp 86 SYSCFG Configures and displays PEF configuration parameters. This option can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --filter fanfail, voltfail, discretevoltfail, tempwarn, tempfail, intrusion, redundegraded, redunlost, procwarn, procfail, powerwarn, powerfail, hardwarelogfail, autorecovery, batterywarn, batteryfail, powerabsent, procabsent, systempowerwarn, systempowerfail Specifies a PEF value. This suboption can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --hostname Sets the host name (maximum of 62 printable ASCII characters) for the BMC. This suboption can be replicated. The --hostname string must comprise only these characters: hyphen (-), underscore (_), and period (.). The length of the -hostname string must be 48 characters or less for x8xx systems and 62 characters or less for x9xx systems and later.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --alertpolstatus enable, disable Enables or disables the alert policy specified using the alertpolnum suboption. This suboption can be replicated. This suboption is dependent on the alertpolnum suboption.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description Example 2 (To configure the PEF so that a PEF alert is not sent to the destination IP address in response to a chassis intrusion event): A:>syscfg pefcfgparams --filter= intrusion --filteralert= disable pefcfgparams filter=intrusion filteralert= disable --powerbutton NA enable, disable This option enables or disables the power button. This option can be replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments Description --powerctl NA powerdown This option performs a chassis powerdown and controls the reset of the system. Powerdown shuts off the system. powercycle Powercycle shuts off the system and automatically turns on your system after a few seconds. reset Resets the system. softshutdown In Linux, the system shuts down immediately.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments -serialchannelac cess or sca Description Sets or displays the channel access settings for the serial channel. This option can be replicated. --ipmioverserial disable, alwaysavail Sets the serial channel access mode. This suboption can be replicated. --channelprivlmt user, operator, administrator Sets the maximum privilege level accepted for the serial channel.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments -serialchannelinfo or sci Description Displays media and protocol information about the serial channel. This option cannot be replicated. --mediumtype NA Displays the medium type for the serial channel. This suboption cannot be replicated. --prottype NA Displays the protocol type for the serial channel. This suboption cannot be replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments serialcfgparams or scp 94 Description Configures and displays serial configuration parameters. This option can be replicated. --connectionmode basic, terminal Sets the connection mode used to perform IPMI messaging to the BMC. This suboption can be replicated. --msgcommflowctrl noflowctrl, rtscts Sets the IPMI message communication flow control. This suboption can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --tmcfgechoctrl echo, noecho Sets the echo control value for terminal mode configuration. This suboption can be replicated. --tmcfghandshakectrl enable, disable Sets the handshake control value for terminal mode configuration. This suboption can be replicated. --tmcfgnewlineseq noterm, crlf, null, Sets the new line cr, lfcr,1f sequence value for terminal mode configuration.
Table 3-5.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --userid 2–10 if your system has a DRAC 4 controller Sets the User ID. This suboption can be replicated. 2–16 if your system has a DRAC 5 controller --usrprivlmt user, operator, administrator, noaccess Sets the maximum BMC user privilege level for the serial channel for the User ID specified using the userid suboption. This suboption can be replicated.
Table 3-5.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments solaction Description This option enables or disables Serial-OverLAN (SOL) access for a particular user. This option can be replicated. A:>syscfg solaction -userid=2 -action=disable solaction userid=2 action= disable --userid 2–10 if your system has a DRAC 4 controller Specifies the BMC user ID. This suboption can be replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments solcfgparams Configures and displays SOL configuration parameters. This option can be replicated. --solenable enable, disable Enables or disables whether the SOL payload type can be activated. This option can be replicated. --solprivlevel user, operator, administrator Sets the minimum user privilege level required to activate the SOL. This option can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments --solcharsendthreshold 1–255 Description Specifies that the BMC will automatically send an SOL character data packet containing this number of characters in increments of 5 (1–255) as soon as this number of characters (or greater) has been accepted from the baseboard serial controller into the BMC. This option can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description --solbitrate 9600, 19200, 57600, 115200 Sets the serial channel communication bit rate (in bps) with the BMC when SOL is activated. This option can be replicated. NOTE: The arguments for --solbitrate vary with various generations of Dell systems. If an argument valid for a particular generation is entered for another generation, the ‘Parameter out of range’ error is displayed.
Table 3-5.
Table 3-5.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments ssninfo Description Displays information about the number of possible active sessions and the number of currently active sessions on all channels on the BMC. This option cannot be replicated. --maxactivessns NA Displays the maximum possible active BMC sessions. This suboption cannot be replicated.
Table 3-5. BMC and Remote Access Controller Configuration Options (continued) Option Suboption Valid Arguments useraction Description Enables and disables BMC, sua, and lua user IDs. This option can be replicated. --userid 2–10 if your system has a DRAC 4 controller Specifies the BMC user ID. This suboption can be replicated. 2–16 if your system has a DRAC 5 controller --action enable, disable Enables or disables the user ID specified using the userid suboption. This suboption can be replicated.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments username Description Sets the BMC User ID and username. This option can be replicated. --userid 2–10 if your system has a DRAC 4 controller Specifies the User ID. This suboption can be replicated. 2–16 if your system has a DRAC 5 controller --name Sets the username (maximum of 16 printable ASCII characters) for the User ID specified using the userid suboption.
Table 3-5. Option BMC and Remote Access Controller Configuration Options (continued) Suboption Valid Arguments Description Example 2 (to display the username for User ID 3): A:>syscfg username -userid=3 --name username userid=3 name=bmcmaster --version* NA NA Displays the version information for the SYSCFG utility. NOTE: The asterisk is not part of the command syntax. SYSCFG for State Configuration The SYSCFG utility allows the user to write a state data value on a system.
Table 3-6. SYSCFG Options and Arguments for State Configuration Option Valid Description Arguments -b or --byte This option specifies a value to write to state data. The format of the argument must be in decimal format unless the -x option is given. If the -x option is given, the value is interpreted as hexadecimal format. The value can optionally contain 0x. The decimal range is 0–255, and the hexadecimal range is 0x00–0xFF. Example: A:>syscfg -b 1 The state byte has been set to 1.
SYSCFG for System Configuration SYSCFG enables system configuration and reporting. It reports system identification values, processor types and speeds, memory size, and detects device using PCI scan. Options for System Configuration Table 3-7 documents valid options and arguments along with a description of the expected behavior of each option. Options and arguments are case sensitive. All options and pre-defined arguments are lowercase unless stated otherwise.
Table 3-7. SYSCFG Options and Arguments for System Configuration (continued) Option Valid Arguments --chassvctag* None Description This option reports the chassis service tag for modular systems. Example: A:>syscfg --chassvctag chassvctag=SVCTAG1 --cpucount* None This command reports the number of processors found on the system. Example 1: A:>syscfg --cpucount cpucount=1 Example 2: A:>syscfg --cpucount cpucount=2 NOTE: The asterisk is not part of the command syntax.
Table 3-7. SYSCFG Options and Arguments for System Configuration (continued) Option Valid Arguments Description --envfile This option reads the environment variable file (included in DTK as sys.ini) and sets environment variables to names in the file, based on the system's information. Primarily, this command performs a PCI scan and matches the vendor/device numbers of the devices to those specified in the environment variable file.
Table 3-7. SYSCFG Options and Arguments for System Configuration (continued) Option Valid Arguments Description -n This option specifies an input file to use for resolving PCI vendor and device numbers to strings. The file must be present (with read rights) and contain a properly formatted list. See "PCI Reporting" for more information. This option must be used with the --pci option. Example: A:>syscfg -n pci.
Table 3-7. SYSCFG Options and Arguments for System Configuration (continued) Option Valid Arguments Description --pci* None This option performs a scan of all PCI buses and displays the results. The utility uses an open source pci.ids file for vendor/device name resolution. The utility looks for a file called pci.ids in the current working directory. If the file is not found in the current working directory, the directory containing the SYSCFG executable is searched.
Table 3-7. Option SYSCFG Options and Arguments for System Configuration (continued) Valid Arguments None Description Slot: 00 Class: 06 - Bridge SubClass: 00 - CPU/PCI Example 2 (the pci.
Table 3-7. Option SYSCFG Options and Arguments for System Configuration (continued) Valid Arguments Description None Example 3 (a pci.
Table 3-7. SYSCFG Options and Arguments for System Configuration (continued) Option Valid Arguments Description --slot* None This option reports the slot of a modular system. If the system is not modular, the slot is reported as 0. If used with the -s option, the environment variable is set to the slot. Example 1 (for a modular system): A:>syscfg --slot slot=1 Example 2 (for a non-modular system): A:>syscfg --slot slot=0 NOTE: This option is valid for PowerEdge 1855 servers only.
Table 3-7. SYSCFG Options and Arguments for System Configuration (continued) Option Valid Arguments Description --sysid* None This function command reports the unique system id bytes for a server. Servers contain a unique ID value based on their model. The ID value is reported as a hexadecimal value with a leading 0x, lowercase hexadecimal letters, and zero-padded to 2 bytes. If used with the -s general option, the environment variable is set to the system ID.
SYSCFG for IPv6 Configuration Table 3-8 lists all valid options and arguments for IPv6 configuration along with a description of each option. These options are applicable only if the DRAC in your system supports IPv6. Table 3-8. Option SYSCFG Options and Arguments for IPv6 Configuration Suboption lancfgparamsv6 --ipv6 or lcpv6 Valid Argument Description enable, disable Loads or unloads the IPv6 stack.
Table 3-8. SYSCFG Options and Arguments for IPv6 Configuration Option Suboption Valid Argument Description -linklocaladdripv6 = Allows you to view IPv6 addresses. --gatewayv6= Allows you to view IP gatewayv6 address. A:> syscfg lcpv6 -linklocaladdripv6= 134.56.45.233 PCI Reporting The scan of the PCI bus will use a file to resolve PCI vendor and device codes to vendor information strings.
Environment Variable File The environment variable file can be used for discovering and recording system information to environment variables. The file consists of several .ini-formatted sections that map PCI vendor/device numbers to environment variable values. The environment variable file is sys.ini in \DELL\TOOLKIT\TOOLS on Windows systems and on Linux systems, you can find it in /opt/dell/toolkit/bin.
SYSCFG
RAIDCFG This section documents the Deployment Toolkit (DTK) RAID configuration utility. The RAIDCFG utility provides a single command line tool that can configure all supported RAID controllers. Features The RAID configuration utility has the following general features: • Displays help and usage information. • Reads configuration options from the Command Line Interface (CLI) parameters. • Enumerates RAID controllers, physical disks, and virtual disks. • Creates and deletes virtual disks.
• SAS 6iR Integrated, SAS 6iR Adapter • PERC 6/E Adapter, PERC 6/i Integrated, PERC 6/i Adapter • PERC 6.2 SSD RAIDCFG Dependencies For the RAIDCFG utility to run successfully in Windows PE, it requires that the mr2kserv utility is located in the same directory as RAIDCFG. The RAIDCFG utility also requires that lsivil.dll (for Windows) or lsivil.so (for Linux) and sasvil.dll (for Windows) or sasvil.dll (for Linux) be in the same directory as RAIDCFG.
Table 4-1. RAIDCFG Short and Long Format Options Option Valid Arguments Short Description Mandatory or Optional No option NA Displays general usage information for the utility. The usage information consists of a comprehensive list of valid options, parameters, and arguments. Optional.
Table 4-1. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments -ad ch:targ, ch:targ, ... Specifies an array disk. Optional. or or ch:targ:lun,... adisk or ch:targ:enc See Table 4-5 for specific usage information. channel:target, or channel:target:lun , or channel:target:en closure Short Description For SCSI controllers, the value of lun should always be 0.
Table 4-1. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments Short Description Mandatory or Optional -envn Sets the environment variable () that equates to the value returned from a function call. See Table 4-11 for specific usage information. or envname -fd or failoverdrive ch:targ, ch:targ, ... Specifies the location of the Optional. failover drive in an array. or ch:targ:lun,...
Table 4-1. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments Short Description Mandatory or Optional -o Reads the RAID configurations from all available controllers and write these configurations in the given .ini filename. Mandatory. See Table 4-13 for specific usage information. array. See Table 4-4 for Valid RAID values are 0, 1, specific usage 5, 10, 50. information.
Table 4-1. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments Short Description -sz Sets the maximum size on Optional. the virtual disk in MB or GB See Table 4-4 for if the size is not provided. specific usage The default size is in MB. If information. GB follows the number, the size is expressed in GB. The span size of RAID 5, which is a mandatory parameter for RAID 50. or size -sp or spanlength NOTE: Spanlength is Mandatory or Optional Mandatory.
Table 4-1. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments Short Description Mandatory or Optional -ver NA Displays the version number of the utility. Optional. Sets the write policy for a virtual disk. The valid arguments are: wb (writeback caching), wt (write-through caching), wc (write-caching), and nwc (no-write-caching). Optional. or version -wp wb, wt, wc, nwc or writepolicy See Table 4-14 for specific usage information.
• Setting Environment Variables • RAID Replication Options • Miscellaneous Options NOTE: Some of the following options or arguments might not be available on all systems. General Help Table 4-2 lists the RAIDCFG general help options. Table 4-2. General Help Options Parame Valid Description ters Arguments No option NA -? Displays general usage information for the utility. The usage information consists of a comprehensive list of valid options, parameters, and arguments.
Enumerating RAID Controllers Table 4-3 lists the RAIDCFG options, parameters, and pre-defined arguments for enumerating RAID controllers. Table 4-3. Enumerating RAID Controllers Mandatory Optional Valid Description Options and Paramet Parameters Arguments ers Arguments -ctrl NA or controller NA Lists all the RAID controllers on the host system, along with select property information. This option is mandatory.
Table 4-3. Enumerating RAID Controllers (continued) Mandatory Optional Valid Description Options and Paramet Parameters Arguments ers Arguments -c rid or Displays the properties for the RAID controller with the specified controller ID. This option combination is mandatory.
Creating Virtual Disks Table 4-4 lists the RAIDCFG options, parameters, and pre-defined arguments for creating virtual disks. NOTE: If you create a virtual disk on Windows PE, you need to reboot your system. NOTE: On CERC SATA 1.5/2S, CERC SATA 1.5/6CH, SAS 5/iR, and SAS 6/iR controllers, use the entire array disk to create a virtual disk. Table 4-4.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -cp or cachepolicy d, c Sets the cache policy for the virtual disk. The valid arguments are: d — (Direct I/O) Reads are not buffered in cache memory. c — (Cache I/O) All reads are buffered in cache memory. NOTE: This option is not supported on the following controllers: CERC SATA 1.5/6 CH, CERC SATA 1.5/2S, and PERC 3/Di.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -fd ch:targ, ch:targ, Sets the failover drive for the virtual ... disk. The -fd option is optional and can be added to the command line in any failoverdrive or ch:targ:lun,... order after the mandatory option or ch:targ:enc combination. channel:target, NOTE: From DTK 2.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -r or -raid 0, 1, 5, 6, 10, 50, Sets the RAID type or level for the 60 virtual disk. NOTE: If this option is not specified for any RAID controller, RAID 0 is taken as the default. The valid arguments are: 0 — RAID 0 uses data striping, which is writing data in equal-sized segments across the array disks. RAID 0 does not provide data redundancy.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments 50 — RAID 50 is a dual level array that uses multiple RAID 5 sets in a single array. A single hard drive failure can occur in each of the RAID 5 without any loss of data on the entire array.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -ctrl -ac=cvd -rp -c=id -ad= ch:targ,ch:targ, ... or [or readpolicy ch:targ:encl,...] or controller action= createvdisk controllerid= id adisk= channel:target: lun, channel:target: lun,... [or channel:target: enclosure,...] ra, ara, nra, rc, nrc Sets the SCSI read policy for the virtual disk. Specify the SCSI read policy for the logical drive.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments NOTE: The PERC 4/IM controller has a fixed set of read, write, and cache policies. If you set any of these policies while creating a virtual disk, your settings will be ignored. rc — (Read-Caching) Enables read caching. nrc — (No-Read-Caching) Disables read caching. NOTE: The rc and nrc options are supported on the following RAID controllers only: CERC SATA 1.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -ctrl -ac=cvd -sp -c=id -ad= or ch:targ,ch:targ, spanlength ... [or ch:targ:encl,...] or controller action= createvdisk controllerid= id adisk= channel:target: lun,... channel:target: lun,... [or channel:target: enclosure,...] Creates a virtual disk comprised of the properties supplied.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -ctrl -ac=cvd -ssz -c=id -ad= ch:targ,ch:targ, ... or [or stripesize ch:targ:encl,...] or controller action= createvdisk controllerid= id adisk= channel:target: lun, channel:target: lun,... [or channel:target: enclosure,...] 144 RAIDCFG Sets the stripe size for the virtual disk.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -ctrl -ac=cvd -str -c=id -ad= ch:targ,ch:targ or , ... [or ch:targ:encl,...] strict or controller action= createvdisk controllerid= id adisk= channel:target: lun, channel:target: lun,... [or channel:target: enclosure,...] Strict (-str parameter) is the percentage of expected array disk utilization.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -ctrl -ac=cvd -sz -c=id -ad= or ch:targ,ch:targ, -size ... [or ch:targ:encl,...] or controller action= createvdisk controllerid= id adisk= channel:target: lun,... channel:target: lun,... [or channel:target: enclosure,...] Sets the maximum size of the virtual disk in MB or GB. A valid argument is a number representing the maximum size for the virtual disk.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments • For PERC 5 controllers: RAID 0: 100MB RAID 1: 100MB RAID 5: 100MB • For PERC 6 controllers: RAID 0: 100MB RAID 1: 100MB RAID 5: 100MB RAID 6: 100MB RAID 60: 100MB NOTE: If this option is not provided, RAIDCFG will determine the maximum possible virtual disk size and create it. RAID 10, RAID 50, and RAID 60 do not accept this option.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments -wp or writepolicy wb, wt, wc, nwc Sets the write policy for the virtual disk. The valid arguments are: wb — (Write-Back Caching) sets the controller to send a write-request completion signal as soon as the data is in the controller cache but has not yet been written to disk.
Table 4-4. Creating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Description Parameters Arguments nwc — (No-Write-Caching) specifies that the controller does not send a write-request completion signal after the data is written to the disk. NOTE: The wc and nwc options are supported on the following RAID controllers only: CERC SATA 1.5/CH and PERC 3/Di.
Enumerating Array Disks Table 4-5 lists the RAIDCFG options, parameters, and pre-defined arguments for enumerating array disks (hard drives). Table 4-5. Enumerating Array Disks (Hard Drives) Mandatory Options and Arguments Optional Parameter Valid Description Parameter Arguments -ad -c=id NA NA or adisk controllerid= id Lists all the array disks attached to the specified RAID controller. This option combination is mandatory.
Table 4-5.
Table 4-5.
Table 4-5. Enumerating Array Disks (Hard Drives) (continued) Mandatory Options and Arguments Optional Parameter Valid Description Parameter Arguments -ad -c=id -vd=id or adisk vdisk=id controllerid= id Lists the array disks that make up the virtual disk on the specified RAID controller. This option combination is mandatory.
Table 4-5. Enumerating Array Disks (Hard Drives) (continued) Mandatory Options and Arguments Optional Parameter -ad -c=id Valid Description Parameter Arguments -ad= arg,... controllerid= channel:tar id vdisk=id get, channel:tar get,... or Displays information about the specified array disk. This option combination is mandatory.
Enumerating Virtual Disks Table 4-6 lists the RAIDCFG options, parameters, and pre-defined arguments for enumerating virtual disks. Table 4-6. Enumerating Virtual Disks Mandatory Options and Arguments Optional Valid Parameter Parameter Arguments Description -vd NA Lists the virtual disks for each controller along with the array disks that make up each virtual disk. This option is mandatory.
Table 4-6. Enumerating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Parameter Arguments -vd -c or or vdisk Description displayed with the physical disk that controller comprises it. The -c option is optional and id can be added to the command line in any order after the mandatory option.
Table 4-6. Enumerating Virtual Disks (continued) Mandatory Options and Arguments Optional Valid Parameter Parameter Arguments Description -vd -c=id -vd or or Displays details about a single virtual disk under the indicated controller. The -vd -c= id option combination is mandatory. The second -vd option is optional and can be added to the command line in any order after the mandatory option combination.
Initializing Virtual Disks Table 4-7 lists the RAIDCFG options, parameters, and pre-defined arguments for initializing selected virtual disks. Table 4-7. Initializing Virtual Disks Mandatory Options and Arguments Optional Valid Parameters Parameter Arguments -vd -c=id NA vd=id -ac=fi or vdisk controllerid= id vdisk=id action= fastinit Description with the fastinit command.
Importing and Clearing Foreign Configurations Table 4-8 lists the RAIDCFG options, parameters, and pre-defined arguments for foreign configurations. Table 4-8. RAIDCFG Options for Foreign Configurations Mandatory Options and Arguments Optional Parameters -ctrl -c=id -ac= NA fgnimp or Valid Parameter Description Arguments controller controllerid=id action= foreignimport Imports the foreign configuration detected in the selected controller.
Table 4-8. RAIDCFG Options for Foreign Configurations (continued) Mandatory Options and Arguments Optional Parameters -ctrl -c=id -ac= NA fgnrvr or controller controllerid=id action= foreignrecover Valid Parameter Description Arguments Recovers the foreign configuration detected in the selected controller. This feature is supported from the PERC 5 and later controllers and is not supported on SAS controllers.
Table 4-9. Deleting Virtual Disks Mandatory Options and Arguments Optional Parameter -vd -ac=dvd - NA c=id Valid Parameter Arguments Description NA Deletes all virtual disks on the indicated controller. This option combination is mandatory.
Assigning and Unassigning Global Hot Spares Table 4-10 lists the RAIDCFG options, parameters, and pre-defined arguments for assigning and unassigning global hot spares. Table 4-10. Assigning and Unassigning Global Hot Spares Mandatory Options and Arguments Optional Valid Parameter Parameter Arguments -ctrl -ac= NA sghs -c=id ad|-pd= ch:targ:encl,c h:targ:encl NA Description Assigns the specified disks as global hot spares on the specified controller.
Setting Environment Variables Table 4-11 lists the RAIDCFG options, parameters, and pre-defined arguments for setting the CLI environment. Table 4-11. Setting Environment Mandatory Options and Arguments Optional Valid Description Parameter Parameter Arguments -se -envn= envc= NA NA Sets a user-defined environment variable to the value returned from the getcontrollerslots function call. This option combination is mandatory.
Table 4-11. Setting Environment (continued) Mandatory Options and Arguments Optional Valid Description Parameter Parameter Arguments -se -envn= NA envc= c=id or setenvironmen t envname= envcommand = controllerid= id NA Sets a user-defined environment variable to the value returned from the getfirmware, getcontrollertype, getadisks, getadiskcount, getfreeadisks, getfreeadiskcount, getfreeadisksize, or gethotspares function call. This option combination is mandatory.
Table 4-12 lists the function calls of the setenvironment option. Table 4-12. Function Calls of the setenvironment Option Function Call getfirmware Description Returns the firmware version of the specified controllers. Example: A:>raidcfg -se -envn=FIRMWARE -envc= getfirmware -c=2 FIRMWARE=531T RAIDCFG command successful! getcontrollertype Returns LSI for LSI controllers and ADAP for Adaptec controllers.
Table 4-12. Function Calls of the setenvironment Option (continued) Function Call Description getfreeadiskcount Returns the number of free array disks found in the specified controller. Example: A:>raidcfg -se -envn=FREEADISKCOUNT -envc= getfreeadiskcount -c=2 FREEADISKCOUNT=2 RAIDCFG command successful! getfreeadisksize Returns the total size of the free array disks in megabytes.
Table 4-12. Function Calls of the setenvironment Option (continued) Function Call Description getfreeadisks Returns the free array disks. A:>raidcfg -se -envn=GETFREEADISKS -envc= getfreeadisks -c=2 GETFREEADISKS=0:3:1,0:4:1 RAIDCFG command successful! getadiskcount Returns the total number of array disks.
RAID Replication Options Table 4-13 lists the RAID replication options. Table 4-13. RAID Replication Options Mandatory Optional Valid Options Parameters Parameter and Arguments Arguments -i NA Description Reads the RAID configuration information from the given .ini filename and creates the RAID configurations on the specified controllers. This option is mandatory. Example: A:> raidcfg -i=\tmp\raid.
Table 4-13. RAID Replication Options (continued) Mandatory Optional Valid Options Parameters Parameter and Arguments Arguments Description controllerid=0 size=65345 raid=1 readpolicy=ra writepolicy=wt stripesize=64 cachepolicy=d adisk=0:3:1,0:4:1 If the controller uses global hot spares, the raid.
Miscellaneous Options Table 4-14 lists all other RAIDCFG options, parameters, and pre-defined arguments. Table 4-14. Miscellaneous Optional Parameters Mandatory Options and Arguments Optional Valid Parameter Parameter Arguments any -l or logfile Description Logs command line output to a file. The utility either appends the information to an existing log file or creates a new file. The log file contains the same information as standard output.
Table 4-14. Miscellaneous Optional Parameters (continued) Mandatory Options and Arguments Optional Valid Parameter Parameter Arguments Description any -si Does not display any information on the terminal console. This option is optional and can be added to the command line in any order after any mandatory options have been added. NA or silent Example: A:>raidcfg -ctrl -si RAIDCFG command successful! any -ver or version NA Displays the version number of the RAIDCFG utility.
Quick Reference to RAIDCFG Commands Table 4-15 lists the basic RAIDCFG commands. Table 4-15. Basic RAIDCFG Commands Purpose Command Description To list all the RAID controllers in a system raidcfg -ctrl Lists all the RAID controllers in the system. Note the slot ID of the controllers. You will need it for all the other commands. To list all the disks raidcfg adisk - Lists all the disks attached to the attached to a particular c=slotid controller.
Table 4-15. Basic RAIDCFG Commands (continued) Purpose Command Description To create a virtual disk of a certain size and make it RAID 5 raidcfg -ctrl ac=cvd -c= slotid -ad= x:y,x:y,x:y,... -sz=5GB -r=5 Creates a virtual disk of 5GB size for type RAID 5. To create a virtual disk of a certain size and make it RAID 1 with a hot spare raidcfg -ctrl ac=cvd -c= slotid -ad= x:y,x:y -sz=5GB -r=1 -fd=x:y The slot ID in <-c=slotid> and the array disks in <-ad=...> are obtained from the first two commands.
Table 4-15. Basic RAIDCFG Commands (continued) Purpose Command Description To create a virtual disk of RAID 6 raidcfg -ctrl ac=cvd -c= slotid -ad= x:y,x:y,x:y,x:y ,x:y,x:y -r=6 sp=x Creates a virtual disk of maximum size for type RAID 6. The slot ID in <-c=slotid> and the array disks in <-ad=...> are obtained from the first two commands. The drive location is obtained from the second command. NOTE: The minimum number of drives required to create a virtual disk of RAID 6 is 4.
UPINIT The UPINIT utility is used to make a utility partition (UP) on a hard drive, format the partition, and extract the partition contents onto the disk. Features The UPINIT utility has the following general features: • Displays help and usage information. • Returns specific error codes and messages. NOTE: In Microsoft® Windows® Preinstallation Environment (Windows PE), you can find the UPINIT utility in \DELL\TOOLKIT\TEMPLATES\SCRIPTS. In Linux, you can find it in /opt/dell/toolkit/templates/scripts.
• Uncompresses the UP file onto the UP image. • Unmounts the partition. NOTE: On Windows PE, UPINIT runs as a batch file. In Linux, it is a shell script that uses standard Linux commands to accomplish the same tasks done by the Windows PE counterpart. Both command lines are identical and the output of the two utilities will be identical if the same image is used.
Table 5-1. UPINIT Options and Arguments Option Valid Arguments Description none none If no options are given, the tool will output usage information. The usage information will be printed in the format shown below. Example 1: A:>upinit upinit version 1.0 © 2005 Dell Inc. All rights reserved upinit.sh --disk|-d=disk --size|-s= size --file|-f=file [--overwrite|-o] [-help|-h] --help or -h prints help. --disk or -d disk device on which to create the Dell Utility Partition.
Table 5-1. UPINIT Options and Arguments (continued) Option Valid Arguments Description -h none This function command requires an argument that matches a valid option. If the argument matches a valid option, that option’s usage information is displayed. This option cannot be used with other options. Windows PE Example: upinit version 1.0 Copyright (c) 2002-2006 Dell Inc. This utility creates a utility partition for your system. This utility requires a Utility Partition image file (upimg.
Table 5-1. Option UPINIT Options and Arguments (continued) Valid Arguments Description In the example, upinit creates a Dell Utility Partition of size 32 MB using the upimg.bin image file. The --overwrite option should be used for upgrading/downgrading purposes. The --size option is not required when using the --overwrite option because the --overwrite option does not resize an existing Dell Utility Partition. If any partitions exist, they will not be deleted. Linux Example: upinit version 1.
Table 5-1. Option UPINIT Options and Arguments (continued) Valid Arguments Description --overwrite or -o Installs the Dell Utility partition over an existing one. Example: upinit --disk=/dev/sda --size=32 -file=upimg.bin In the example, upinit creates a Dell Utility Partition of size 32 MB on /dev/sda using the upimg.bin file. The --overwrite option should be used for upgrading/downgrading purposes.
Table 5-1. UPINIT Options and Arguments (continued) Option Valid Arguments Description file string, required Specifies a file that will be decompressed onto the utility partition. This file will be checked for existence and availability before any partitions are created on the disk. If the file is not specified, the utility will simply create the utility partition, format it, and exits. It will be up to the user to mount and populate the utility partition.
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RACADM The RACADM utility provides a scriptable interface that allows you to locally or remotely configure your remote access controller (RAC). Using the RACADM utility, you can enter command line options to configure RAC properties. When you enter command line options, the RACADM utility sets or retrieves object property values in the RAC properties database. You can also use the RACADM utility to write scripts that will automatically configure multiple RACs.
RACADM Options Table 6-1 lists the options and arguments for the RACADM utility that apply to deployment. For more information about the valid RACADM options, see "RAC Configuration Utility Options, Subcommands, and Arguments." NOTE: Some of the following options or arguments might not be available on all systems. Table 6-1.
Table 6-1. RACADM Options (continued) RACADM Options RACADM and Arguments Subcommands Short Description NA clrsel Clears RAC system event log (SEL). NA config Configures the RAC. See "config/getconfig" for more information about the subcommand options and arguments. NA coredump Displays the last RAC coredump. NA coredumpdelete Deletes the last RAC coredump. NA fwupdate Updates the firmware on the RAC. See "fwupdate" for more information about the subcommand options and arguments.
Table 6-1. RACADM Options (continued) RACADM Options RACADM and Arguments Subcommands Short Description NA getsysinfo Retrieves session information for one or more currently active or pending sessions from the Session Manager's session table. See "getsysinfo" for more information about the subcommand options and arguments. NA gettracelog Displays the RAC diagnostic trace log. See "gettracelog" for more information about the subcommand options and arguments.
Table 6-1. RACADM Options (continued) RACADM Options RACADM and Arguments Subcommands Short Description NA setrac Sets RAC parameters from the managed system. See "setrac" for more information about the subcommand options and arguments. NA serveraction Performs system power management operations. NA setniccfg Modifies the network configuration properties. NA sslcertupload Uploads an SSL (Secure Socket Layer) certificate to the RAC.
Error Messages When using RACADM utility commands and subcommands, you may encounter one or more of the following errors: • Local error messages occur when problems occur with syntax, typographical errors, incorrect names, and so on. Example: racadm : ERROR : • Transport error messages occur when the RACADM utility communication paths to the RAC are not accessible.
• racreset • racresetcfg • setrac NOTE: Some of the following options or arguments might not be available on all systems. racadm Command Table 6-2. racadm Command Help Option Command Definition racadm Command line status and configuration utility for RACs. Description Without options, the RACADM utility executes the help command, which displays a list of available tests and a one-line description of each. The RACADM utility help displays any syntax and command line options.
Enter the following command to enable remote security: racadm config -g cfgRacTuning -o cfgRacTuneRemoteRacadmEnable 1 Enter the following command to disable remote security: racadm config -g cfgRacTuning -o cfgRacTuneRemoteRacadmEnable 0 Log/Verbose Levels Table 6-4.
Table 6-5. racadm Subcommands and Arguments (continued) Command Description racresetcfg Resets the RAC to the default configuration. setrac Sets time, managed system name, operating system name, and type from the managed system to the RAC. config/getconfig Table 6-6. config/getconfig Subcommands Command Definition config Configures the RAC. getconfig Gets the RAC configuration data.
Input Table 6-7. config Subcommand Options Option Description -f The -f option causes config to read the contents of the file specified by and configure the RAC. The file must contain data in the format specified in "Parsing Rules." -p The -p, or password option, directs config to delete the password entries contained in the config file -f after the configuration is complete. -g The -g , or group option, must be used with the -o option.
getconfig Subcommand Description The getconfig subcommand allows the user to retrieve RAC configuration parameters on an individual basis, or all the configuration groups may be retrieved and saved into a file. Input Table 6-8. getconfig Subcommand Options Option Description -f The -f , or filename option, causes getconfig to create the file . It then reads all the configuration data from the RAC and places it into the file .
Output This subcommand generates error output upon encountering either of the following: • Invalid syntax, group name, object name, index, or other invalid database members • RACADM utility transport failures If errors are not encountered, this subcommand displays the contents of the specified configuration. Examples • racadm getconfig -g cfgLanNetworking Displays all of the configuration parameters (objects) that are contained in the group cfgLanNetworking.
fwupdate NOTE: To use this command, you must have Configure DRAC 4 permission. Table 6-9 describes the fwupdate subcommand. Table 6-9. fwupdate Subcommand Definition fwupdate Updates the firmware on the Dell Remote Access Controller (DRAC 4).
Input Table 6-10 describes the fwupdate subcommand options. NOTE: The -p and -u options are not supported for the serial/telnet console. Table 6-10. fwupdate Subcommand Options Option Description -u The update option performs a checksum of the firmware update file and starts the actual update process. If this option is typed by itself, it is assumed that a firmware update file has already been loaded into the RAM disk using the -g or -p options. This option may also be used along with the -g or -p options.
Table 6-10. fwupdate Subcommand Options (continued) Option Description -D After the update is complete, the DRAC 4 is reset. Upon boot, a call is made to reset all firmware configuration parameters to the default values. For more information, see "racresetcfg." -p The -p, or put, option is used when you want to FTP the firmware update file from the managed system to the DRAC 4. If the -f option is used, the name of the update image must be firming.dm1.
• racadm fwupdate -u The -u option starts the update process. This command assumes that a valid firmware update file has been previously loaded using the -g or -p option. The update file checksum is verified for correctness before proceeding. • racadm fwupdate -g -u -a 143.166.154.143 -f firmimg.dm1 In this example, the -g option tells the firmware to download the firmware update file from a location (specified by the -f option) on the TFTP server at a specific IP address (specified by the -a option).
getssninfo Table 6-11. getssninfo Subcommand Command Definition getssninfo Retrieves session information for one or more currently active or pending sessions from the Session Manager's session table. Synopsis racadm getssninfo [-A] [-u | *] Description The getssninfo command returns a list of currently active or pending users and optionally includes summary session table information.
Output None Examples • racadm getssninfo Session table summary status: 1 VALID 15 AVAILABLE Type User IP Address Login Date/Time Consoles --------- ------- ------------- ------------ ---------- Web NONE • RAC root 192.168.1.23 racadm getssninfo Thu, 06 Mar 2003 10:32:39 GMT-06:00 -A 1 15 "Web" "RAC\root" 192.168.1.23 "Thu, 06 Mar 2003 10:32:39 GMT-06:00" "NONE" • racadm getssninfo -A -u * "Web" "RAC\root" 192.168.1.
getsysinfo Table 6-13. getsysinfo Subcommand Command Definition getsysinfo Displays RAC information, system information, and watchdog status information. Synopsis racadm getsysinfo [-d] [-s] [-w] [-A][-c] Description The getsysinfo command returns information about the RAC, system, or watchdog status, depending on the command options. The order of data on output is always the same: RAC information, system information, and watchdog information. Input Table 6-14.
Enumeration values or bitmaps are defined for these elements. When the -A (API) option is included on the command, the enumeration/bit value of the element is listed in the output. Otherwise, the enumeration or bit value is mapped to a string before being output. The following bullet items define the mapping of values to strings: Table 6-15.
Examples • racadm getsysinfo -A -w -s "123456" "PowerEdge 1650" "A08" "EF23VQ-0023" "" 0x100 "Server1" "Microsoft Windows 2000 version 5.0, Build Number 2195, Service Pack 2" "1.60" "Watchdog Info:" 2 39 40 • racadm getsysinfo -w -s System Information: System ID = 123456 System Model = PowerEdge 1650 BIOS Version = A08 Asset Tag = EF23VQ-0023 Service Tag = 2MP9Z01 Hostname = Server1 OS name 5.0, = Microsoft Windows 2000 version Build 2195 Service Pack 2 ESM Version = 1.
getraclog CAUTION: The system may hang if this command is run. You may have to powercycle the system if it hangs. NOTE: To use this command, you must have Log In DRAC 4 permission. Table 6-16 describes the getraclog command. Table 6-16. getraclog Command Definition getraclog -i Displays the number of entries in the DRAC 4 log. getraclog Displays the DRAC 4 log entries.
Output One line of output is displayed for each DRAC 4 log entry. Restrictions The output buffer size is too big for execution across IPMI transport. gettracelog CAUTION: The system may hang if this command is run. You may have to powercycle the server if it hangs. NOTE: To use this command, you must have Log In DRAC 4 permission. Table 6-17 describes the gettracelog command. Table 6-17. gettracelog Command Definition gettracelog -i Displays the number of entries in the DRAC 4 trace log.
help Table 6-18. help Subcommand Command Definition help Lists all of the subcommands available to use with the RACADM utility and provides a short description for each. Synopsis racadm help racadm help Description The help subcommand lists all of the subcommands that are available under the racadm command along with a one-line description. You may also enter a subcommand after help to get the syntax for a specific subcommand.
Description The racdump subcommand provides a single command to get a dump, status, and general RAC board information with a single command. The following commands are executed as a result of the single racdump subcommand: • getsysinfo • coredump • memmap • netstat • getssninfo • getsensors Input None Output The output of the individual commands are displayed. racreset Table 6-20. racreset Subcommand Command Definition racreset Resets the RAC.
The default option is soft. If you do not enter an option, the RACADM utility waits three seconds and then runs the soft option with the racreset subcommand. NOTE: A reboot is not necessary to apply configuration settings to the RAC. When the configuration settings affect other system components, on the other hand, a reboot is necessary for the affected components to detect the changes.
Examples • racadcm racreset soft 1 Start the RAC soft reset sequence in 1 second. • racadm racreset soft 20 Start the RAC soft reset sequence after 20 seconds. racresetcfg Table 6-22. racresetcfg Subcommand Command Definition racadm racresetcfg Resets all database configuration parameters to default values; equivalent to a soft reset. Synopsis racadm racresetcfg Description The racresetcfg command removes all database property entries that have been configured by the user.
setrac Table 6-23. setrac Subcommand Command Definition setrac Sets RAC parameters from the managed system. Synopsis racadm setrac [-h -o -T -d] Description This command sets time, managed system name, operating system name, or operating system type from the managed system to the RAC. If no options are entered, all four parameters are set. The -d option allows the user to display the parameters only without actually writing them to the RAC firmware.
Output A message is displayed indicating the values obtained from the managed system, and if they are being written to the RAC or only displayed. Examples • racadm setrac -d Only the parameter values are displayed. • racadm setrac -h The UTC time and managed system name are taken from the managed system and written to the RAC.
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Messages and Codes This section documents the error messages and codes used in Dell™ OpenManage™ Deployment Toolkit (DTK). SYSCFG Error Codes and Messages The SYSCFG utility checks your commands for correct syntax and valid input. When you enter a command, a message is displayed stating the results of the command. Failure Messages The SYSCFG utility failure messages provide error codes to help diagnose why some commands do not succeed. Table A-1 lists SYSCFG error codes and messages. Table A-1.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 10 Clear SEL cannot be accompanied with any other option. 11 racreset cannot be accompanied with any other option. 12 Cannot execute command. Command, or request parameter(s), not supported in present state. 13 Command not supported on given channel. 14 The community string may only contain printable ASCII characters. 15 Destination unavailable. Cannot deliver request to selected destination.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 30 Invalid VLANID value. 31 Invalid Command. Used to indicate an unrecognized or unsupported command. 32 Command invalid for given LUN. 33 Load defaults cannot be accompanied with any other option. 34 There was an error loading the defaults. 35 Node Busy. Command could not be processed because command processing resources are temporarily unavailable. 36 Out of space.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 48 Command response could not be provided. SDR Repository in update mode. 49 Cannot execute command, SEL erase in progress. 50 Attempt to set the 'set in progress' value when not in the 'set in complete' state. 51 The SOL character accumulate interval is invalid. 52 The SOL character send threshold is invalid. 53 The SOL retry interval is invalid. 54 Command completed successfully.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 69 There is not enough free system memory to complete the BIOS update. 70 The BIOS update file version is a different version class (A00, X00) than the current system BIOS. Use the --force option to use this BIOS image. 71 The BIOS update file version is older than the current system bios. Use the --force option to use this BIOS image. 72 The BIOS update file version is identical to the current system bios.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 83 The dependent option '%s' required for this subcommand is missing in the command line. 84 Duplicate sub command '%s' has been entered. 85 The script file does contain not a valid DTK environment script signature. 86 The format of the environment variable is incorrect. 87 The --envar option can only be used for a single option. 88 The --envar option can only be used for report operations.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 103 Input file '%s' cannot be read. 104 Invalid argument for option '%s'. 105 Function table lookup error. 106 The machine ID was not found in the file '%s'. 107 The system memory information is not available. 108 Mode can only be used with the --pci option. 109 The device name or index must be present in the boot order. 110 The output file '%s' could not be opened.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 122 The password length must be between 1 and 32. 123 This password is locked and can only be unlocked by the admin user. 124 There was an error setting the password. 125 The LCD string length must be between 1 and %s. 126 The LCD string may only contain alphanumeric characters. 127 There was an error setting the LCD string. 128 The second channel can only be set if the RAID controller is set to RAID.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 142 Cannot stat /etc/omreg.cfg file. Please ensure /etc/omreg.cfg file is present and is valid for your environment. You can copy this file from the DTK iso. 143 Getting nicselection settings failed. 144 HAPI Driver Load Error. 145 Filter action power reduction is only supported for the system power warn/fail filters. 146 TPM Clear settings requires setup password. 147 There is currently no TPM Clear request pending.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 160 Invalid IPv6 address. The IPv6 address specified has incorrect address format. 161 Invalid IPv6 address. The gateway address specified has incorrect address format. 162 Invalid IPv6 address. The Primary DNS server address specified has incorrect address format. 163 Invalid IPv6 address. The Secondary DNS server address specified has incorrect address format. 164 Invalid IPv6 address.
Table A-1. SYSCFG Error Codes and Messages (continued) Error Code Message 176 Getting LCD settings failed. 177 Invalid configuration. Attempting to set cap when capenable is set to disable. 178 Invalid configuration. Attempting to set cap when hardware does not support setting. 179 Invalid Configuration Option. 180 Cannot execute command. Parameter is illegal because command sub-function has been disabled or is unavailable.
Table A-2. UPINIT Common Error Codes and Messages (continued) Error Code Message 5 Error: Dell Utility Partition already exits. Please use --overwrite option to upgrade or overwrite. 6 Error: Partitions exists. Please clear all the partitions before running upinit.sh. 7 Error: DOS file(s) not found at the specified path. 8 Error: UP IMAGE not found at the specified location. 9 Error: format failed. 10 Error: Invalid size. Size should be a number between 32 and 2000.
UPINIT Windows PE-Specific Error Codes and Messages Table A-4 lists error codes and messages specific to the Windows PE environment. Table A-4. UPINIT Windows PE-Specific Error Codes and Messages Error Code Message 31 Error: DISKPART failed. 32 Error: DISKPART command file not found. RAIDCFG Error Codes and Messages The RAIDCFG utility checks your commands for correct syntax when you enter them. When you enter a command, a message displays stating the results of the command.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 7 Buffer too small. 8 Virtual Disk contains boot partition. Use force option to delete. 9 Init boot drive failed. 10 Format boot drive failed. 11 Cannot write boot drive. 12 Unsupported RAID value. 13 Invalid RAID configuration. 14 Span depth not in range. 15 RAID 1 failed. 16 Exactly 2 array disks are required to create a RAID 1 virtual disk. 17 Unsupported stripe size value. 18 RAID 5 only.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 29 Create Mirror not supported. 30 Disk in use. 31 Disk Lock operation failed. 32 Disk locked. 33 Disk Unlock operation failed. 34 Disk Unlocked. 35 Disk failed on rebuild. 36 Hot Spare not free. 37 Disk Diagnostic failed. 38 Disk Rebuild failed. 39 Disk Format failed. 40 Cancel of Disk Diagnostic failed. 41 Cancel of Disk Rebuild failed.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 54 Virtual disk not found. 55 Virtual disk locked. 56 Drive in use. 57 Reached maximum physical size. 58 Reached maximum count of virtual disks. 59 There is not enough free space on the array disk(s) to allow the operation to complete; the size of the virtual disk is too large; or communication to the array disk(s) has been lost.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 71 Virtual disk initialization failed. Controller busy. 72 Virtual disk reconstruction failed. Controller busy. 73 Virtual disk resynching failed. Controller busy. 74 Flush Virtual disk's cache failed on controller. 75 Virtual disk partition specified not found. 76 Unsupported cache policy value. 77 Unsupported write policy value. 78 Unsupported read policy value. 79 Cancel initialization on virtual disk failed.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 86 Virtual disk initialized for use and no override requested. 87 Virtual disk type requested is invalid for the attempted operation. 88 Virtual disk Move operation failed. Cannot rename, virtual disk is already in use. 89 Failover invalid. 90 Virtual disk resynching. 91 Virtual disk resynch failed. 92 Virtual disk reconstruct failed. 93 Cannot format a virtual disk that contains a boot or system partition.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 106 SMART report count not supported. 107 Operations on hidden virtual disks are not allowed. 108 Virtual disk is in use. 109 The virtual disk is in use. It cannot be reconfigured at this time. 110 Virtual disk operation is temporarily unavailable. Initialization in progress. 111 Virtual disk operation is temporarily unavailable. Reconstruction in progress. 112 Virtual disk operation is temporarily unavailable.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 123 Controller cache flush failed. 124 Enable alarm on controller failed. 125 Disable alarm on controller failed. 126 Quiet alarm on controller failed. 127 Controller failed to perform the task. 128 Specified bus not found for controller. 129 Call to set cache mode on the controller failed. 130 Unexpected controller error. 131 Controller out of memory. 132 Invalid controller state. 133 Controller failed.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 144 Controller cannot unmirror the specified virtual disk. 145 The controller could not split the specified virtual disk. 146 The controller could not lock the specified virtual disk. 147 Controller IO paused. 148 No controller parameter support. 149 Controller does not recognize parameter symbol. 150 Controller Battery Recondition failed. 151 Controller Get disk signature failed. 152 Controller Read Flags failed.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 164 Driver could not execute. 165 Cannot delete virtual disk. 166 Cannot set temperature probe. Invalid value entered. 167 Cannot set enclosure tag. Invalid value entered. 168 Cannot set enclosure alarm. 169 Temperature probe value out of range. 170 Cannot set cache mode. 172 Data will be lost on the secondary disk and a reboot will be forced. 173 Cluster Services (MSCS) is running.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 177 The maximum number of partitions have already been created on one of the selected array disk(s). Each array disk can hold portions (partitions) of up to 10 virtual disks. This virtual disk cannot be created because one or more array disk(s) have reached the partition limit. 178 The virtual disk is in use. Please close any applications that use the virtual disk and unmount any file systems that reside on the virtual disk.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 185 The version of the controller firmware installed on your system does not support this operation. 186 There are no disks of the correct type available to be assigned as a hot spare. 187 There are no disks of sufficient size available to be assigned as a hot spare. 188 There are no disks of the correct type and sufficient size available to be assigned as a hot spare.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 202 RAID Type & Size are required to create a virtual disk. Ensure that the RAID type and the size are correct. 203 Invalid Environment command! 204 File is not writable! 205 Setting Environment Variable Command failed! 206 Filename is not provided! 207 Invalid Strict option! Please provide a valid number between 1 and 100. 208 Span depth is not needed for this RAID type.
Table A-5. RAIDCFG Error Codes and Messages (continued) Error Code Message 218 Unable to determine optimum size for Virtual disk. Ensure that the array disks are of the same protocol (i.e. SAS, SATA, SCSI). If there is a mismatch of the array disks then the RAIDCFG will not be able to determine the optimum size. In addition, also ensure that there is drive size available for the specified virtual disk.
RACADM Firmware Error Codes and Messages Table A-6 lists RACADM firmware error codes and messages. Table A-6. RACADM Firmware Error Codes and Messages Error Code Message 1 UNKNOWN COMMAND.
Table A-6.
Table A-6. RACADM Firmware Error Codes and Messages (continued) Error Code Message 48 NO DIAGNOSTIC TASK RUNNING 49 READ ONLY 50 SNARFING IS NOT AVAILABLE 51 TEXT RESOLUTION OF SERVER CHANGED 52 MODULE NOT LOADED 53 IPMI ERROR 54 ERROR IN DIAGNOSTIC FUNCTION RACADM Utility Error Codes and Messages Table A-7 lists RACADM utility error codes and messages. Table A-7. RACADM Error Codes and Messages Error Code Message 513 An unknown failure occurred. 514 Librac library not initialized.
Table A-7. RACADM Error Codes and Messages (continued) Error Code Message 523 Invalid message ID. 524 Invalid message type. 525 Invalid response message. 526 Specified user buffer is too small to hold data. 527 Authentication failed - Invalid user name or password. 528 Invalid CHAP protocol response encountered. 529 CHAP buffer too small. 530 Timeout occurred. 531 Insufficient user privileges to perform operation. 532 TFTP write error encountered. 533 TFTP read error encountered.
Table A-7. RACADM Error Codes and Messages (continued) Error Code Message 546 Failed to create SSL BIO object. 547 Unable to create SSL socket connection. 548 Failed to initialize socket. 549 Failed to login to RAC successfully. 550 Invalid session ID specified. 551 Failed to logout from RAC successfully. 552 Command execution failed. 553 FTP Get operation failed. 554 FTP Put operation failed. 555 Failed to initialize FTP interface. 556 Failed to load SSL library.
Table A-7. RACADM Error Codes and Messages (continued) Error Code Message 564 LAN Proxy error - please make sure your proxy settings are configured correctly. 565 RAC service not currently installed. 566 RAC service is not started. 567 RAC service is starting. 568 RAC controller not present. 569 RAC controller is currently resetting.
BMC Platform Events Filter Alert Messages All possible Platform Event Filter (PEF) Alert Messages along with a description of each event are listed in Table B-1. Table B-1. BMC PEF Alert Events Event Description Fan Probe Failure The fan is running too slow or not at all. Voltage Probe Failure The voltage is too low for proper operation. Discrete Voltage Probe Failure The voltage is too low for proper operation.
Table B-1. BMC PEF Alert Events (continued) Event Description Automatic System Recovery The system is hung or is not responding and is taking an action configured by Automatic System Recovery. System Power Probe Warning The system is setting actions when a power consumption probe detects a warning value. System Power Probe Failure The system is setting actions when a power consumption probe detects a failure value.
Sample File Formats This appendix lists the sample SYSCFG utility .ini, RAIDCFG utility .ini, and the RACADM utility .ini files. Sample SYSCFG Utility .ini File Format [syscfg] sysname=PowerEdge R805 sysid=0221 biosver=0.2.6 ;svctag=VSPT067 ;do not edit information above this line acpower=last asset= bootseq= nic.emb.1,nic.emb.2,nic.emb.3,satacdrom.emb.0,nic.emb .
extserial=com1 fsbr=115200 integratedsas=enable internalusb=on lancfgparams alertdest=1 destipaddr=0.0.0.0 lancfgparams alertdest=2 destipaddr=0.0.0.0 lancfgparams alertdest=3 destipaddr=0.0.0.0 lancfgparams alertdest=4 destipaddr=0.0.0.0 commstring=public gateway=192.168.0.1 ;ipaddress=192.168.0.120 ipaddrsrc=static nicselection=dedicated autoneg=enable dnsserver1=0.0.0.0 dnsserver2=0.0.0.
dnsregisterrac=disable domainname= domainnamednsdhcp=disable fullduplex=enable speed=100Mbps subnetmask=255.255.255.
userid=6 usrprivlmt=noaccess lanuseraccess userid=7 usrprivlmt=noaccess lanuseraccess userid=8 usrprivlmt=noaccess lanuseraccess userid=9 usrprivlmt=noaccess lanuseraccess userid=10 usrprivlmt=noaccess lanuseraccess userid=11 usrprivlmt=noaccess lanuseraccess userid=12 usrprivlmt=noaccess lanuseraccess userid=13 usrprivlmt=noaccess lanuseraccess userid=14 usrprivlmt=noaccess 250 Sample File Formats
lanuseraccess userid=15 usrprivlmt=noaccess lanuseraccess userid=16 usrprivlmt=noaccess lcd=default lcd1=jagan! memtest=enable nmibutton=disable numlock=on opticaldrivectrl=enable oswatchdogtimer=enable pefcfgparams alertpolnum=1 alertpolstatus=enable pefcfgparams alertpolnum=2 alertpolstatus=enable pefcfgparams alertpolnum=3 alertpolstatus=enable pefcfgparams alertpolnum=4 alertpolstatus=enable pefcfgparams Sample File Formats 251
filter=fanfail filteralert=enable filteraction=none pefcfgparams filter=discretevoltfail filteralert=enable filteraction=none pefcfgparams filter=tempwarn filteralert=enable filteraction=none pefcfgparams filter=tempfail filteralert=enable filteraction=none pefcfgparams filter=intrusion filteralert=enable filteraction=none pefcfgparams filter=redundegraded filteralert=enable filteraction=none pefcfgparams filter=redunlost filteralert=enable 252 Sample File Formats
filteraction=none pefcfgparams filter=procwarn filteralert=enable filteraction=none pefcfgparams filter=procfail filteralert=enable filteraction=none pefcfgparams filter=powerwarn filteralert=enable filteraction=none pefcfgparams filter=powerfail filteralert=enable filteraction=none pefcfgparams filter=hardwarelogfail filteralert=enable pefcfgparams filter=autorecovery filteralert=enable pefcfgparams filter=procabsent filteralert=enable Sample File Formats 253
filteraction=none pefcfgparams filter=powerabsent filteralert=enable filteraction=none pefcfgparams filter=batterywarn filteralert=enable filteraction=none pefcfgparams filter=batteryfail filteralert=enable filteraction=none pefcfgparams filter=systempowerwarn filteralert=enable filteraction=none pefcfgparams filter=systempowerfail filteralert=enable filteraction=none hostname=DTK2.
connectionmode=basic msgcommbitrate=57600 msgcommflowctrl=rtscts tmcfgdelctrl=bksp tmcfgechoctrl=echo tmcfghandshakectrl=enable tmcfginputnewlineseq=cr tmcfglineediting=enable tmcfgnewlineseq=crlf serialchannelaccess ipmioverserial=alwaysavail channelprivlmt=administrator serialcomm=on serialuseraccess userid=2 usrprivlmt=administrator serialuseraccess userid=3 usrprivlmt=noaccess serialuseraccess userid=4 usrprivlmt=noaccess serialuseraccess userid=5 usrprivlmt=noaccess serialuseraccess Sample File Format
userid=6 usrprivlmt=noaccess serialuseraccess userid=7 usrprivlmt=noaccess serialuseraccess userid=8 usrprivlmt=noaccess serialuseraccess userid=9 usrprivlmt=noaccess serialuseraccess userid=10 usrprivlmt=noaccess serialuseraccess userid=11 usrprivlmt=noaccess serialuseraccess userid=12 usrprivlmt=noaccess serialuseraccess userid=13 usrprivlmt=noaccess serialuseraccess userid=14 usrprivlmt=noaccess 256 Sample File Formats
serialuseraccess userid=15 usrprivlmt=noaccess serialuseraccess userid=16 usrprivlmt=noaccess solaction userid=2 action=enable solaction userid=3 action=disable solaction userid=4 action=disable solaction userid=5 action=disable solaction userid=6 action=disable solaction userid=7 action=disable solaction userid=8 Sample File Formats 257
action=disable solaction userid=9 action=disable solaction userid=10 action=disable solaction userid=11 action=disable solaction userid=12 action=disable solaction userid=13 action=disable solaction userid=14 action=disable solaction userid=15 action=disable solaction userid=16 action=disable solcfgparams 258 Sample File Formats
solbitrate=57600 solcharaccuminterval=10 solcharsendthreshold=220 solenable=enable solprivlevel=administrator sysid=0221 sysname=PowerEdge R805 tpm tpmactivation=nochange tpmsecurity=onwithoutpbm usbports=enable useraction userid=2 action=enable useraction userid=3 action=disable useraction userid=4 action=disable useraction userid=5 action=disable useraction userid=6 action=disable Sample File Formats 259
useraction userid=7 action=disable useraction userid=8 action=disable useraction userid=9 action=disable useraction userid=10 action=disable useraction userid=11 action=disable useraction userid=12 action=disable useraction userid=13 action=disable useraction userid=14 action=disable useraction userid=15 260 Sample File Formats
action=disable useraction userid=16 action=disable username userid=2 name=root username userid=3 name=NULL username userid=4 name=NULL username userid=5 name=NULL username userid=6 name=NULL username userid=7 name=NULL username userid=8 name=NULL username Sample File Formats 261
userid=9 name=NULL username userid=10 name=NULL username userid=11 name=NULL username userid=12 name=NULL username userid=13 name=NULL username userid=14 name=NULL username userid=15 name=NULL username userid=16 name=NULL ;uuid=44454C4C530010508054D6C04F303637 virtualization=disable virtualmedia=enable 262 Sample File Formats
Sample RAIDCFG Utility .
writepolicy=wb stripesize=64 cachepolicy=d adisk=0:5:1,0:4:1 failoverdrive=0:9:1 [vdisk3] controllerid=4 size=278784 raid=5 readpolicy=ra writepolicy=wb stripesize=64 cachepolicy=c adisk=0:8:1,0:7:1,0:6:1 [GlobalHotspare0] controllerid=0 failoverdrive=0:8:0 Sample RACADM Utility .ini File Format [idRacInfo] #idRacType=0x05 #idRacProductInfo=Dell Remote Access Controller 4/I #idRacDescriptionInfo=This system component provides a complete set of #remote management functions for Dell PowerEdge servers.
idRacMisc= [cfgLanNetworking] cfgNicEnable=1 cfgNicIpAddress=10.98.8.121 cfgNicNetmask=255.255.255.0 cfgNicGateway=192.168.0.1 cfgNicUseDhcp=0 #cfgNicMacAddress=00:11:43:34:5f:4a cfgDNSServersFromDHCP=0 cfgDNSServer1=192.168.0.5 cfgDNSServer2=192.168.0.6 cfgDNSRegisterRac=0 cfgDNSRacName=RAC-HHS7C1S cfgDNSDomainNameFromDHCP=0 cfgDNSDomainName=MYDOMAIN [cfgCurrentLanNetworking] #cfgNicCurrentIpAddress=10.98.8.121 #cfgNicCurrentNetmask=255.255.255.0 #cfgNicCurrentGateway=192.168.0.
[cfgRemoteHosts] cfgRhostsSmtpEmailEnable=1 cfgRhostsFwUpdateTftpEnable=1 cfgRhostsSmtpServerIpAddr=127.0.0.1 cfgRhostsFwUpdateIpAddr=192.168.0.
cfgSerialConsoleQuitKey=~.
cfgOobSnmpAgentCommunity=public [cfgRacTuning] cfgRacTuneFwUpdateResetDelay=0x46 cfgRacTuneD3debugEnable=1 cfgRacTuneRemoteRacadmEnable=1 cfgRacTuneHostCom2BaudRate=57600 cfgRacTuneHttpPort=0x50 cfgRacTuneHttpsPort=0x1bb cfgRacTuneTelnetPort=0x17 cfgRacTuneConRedirPort=0x170c [ifcRacManagedNodeOs] ifcRacMnOsHostname=(none) ifcRacMnOsOsName=Linux 2.4.21-20.
[cfgRacVirtual] cfgVirAtapiSvrPort=0xe54 cfgVirMediaDisable=0 cfgFloppyEmulation=0 [cfgActiveDirectory] cfgADRacDomain= cfgADRacName= cfgADEnable=0 cfgADAuthTimeout=0x78 cfgADRootDomain= Sample File Formats 269
270 Sample File Formats
Summary of SYSCFG and RAIDCFG Options This appendix contains a summary of all the SYSCFG and RAIDCFG options. SYSCFG Options Table D-1 lists all the SYSCFG options and gives a brief description of these options. For details on these options, see the section, "SYSCFG". Table D-1.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description -o or --outfile NA Outputs all replicable options to the specified filename. The format of the output is in a .ini format, with the utility name as the section header. -s NA --version* NA --acpower NA Replicated Prints the variable name and the value assigned to it to the console. Displays the version information, current time, and date for the utility.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description --bootseq NA numerical Sets the boot order. list, separated by commas or list of device names, separated by commas --bootseqretry Replicated Yes (for systems that support a list of device names only) NA enable, disable Enables or disables the boot Yes sequence retry feature. --cmosdefaults NA enable, disable Enables or disables the CMOS defaults to be on or off in the next boot.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated --cstates NA enable, disable Enables or disables the power c states of the processor. Yes Available only on xx1x systems. --dbpm NA enable, disable Enables or disables demand- Yes based power management. --devseq NA numerical list, separated by commas Sets the boot order for hard drives. -embhypervisor NA enable, disable Enables or disables the embedded hypervisor port.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated --embnic4 NA on, off, onnopxe, onwithiscsi Enables or disables the fourth embedded NIC. Yes --embnic1nic2 NA enable, disable Enables or disables the Yes operating system interface of the first and second embedded NIC controllers. Available only on Dell™ PowerEdge™ 1855, PowerEdge 6850, and xx1x systems.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments --embscsiraid NA raid, off, scsi Enables or disables the embedded SCSI RAID or controller. raid, off Yes -NA embscsiraidchb raid, scsi Sets the second channel of the embedded SCSI RAID controller to operate in RAID or SCSI mode. Yes --embvideoctrl NA enable, disable Enables or disables the embedded video controller. Yes --extserial NA com1, com2, Sets the behavior of the rad external serial connector.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated --idracgui NA enable, disable Enables or disables iDRAC GUI. Yes --integratedraid NA enable, disable Enables or disables the integrated RAID controller. Yes --integratedsas NA enable, disable Sets the behavior for the integrated SAS controller. Yes --internalusb NA off, on Enables or disables the internal USB.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated --lcd1 NA Sets the first line of userdefined LCD strings. Yes NOTE: Before setting user strings for this option, ensure that --lcd is set to user. NOTE: If you have a Dell™ PowerEdge™ x6xx, x7xx, or x8xx system, you need to reboot your system for the settings to take effect. --lcd2 NA Sets the second line of user- Yes defined LCD strings.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments -memoperating mode NA optimizer, Selects the memory Yes mirror, operating mode. This feature advancedecc is active only if a valid memory configuration is detected. This option is available only on xx1x systems. --memremap NA off, auto Enables or disables memory Yes remapping. --memtest NA enable, disable Enables or disables the power-on self-test (POST) extended memory test.
Table D-1. Options SYSCFG Options (continued) Suboptions Valid Arguments Description -NA oswatchdogtim er enable, disable If your system stops Yes responding, this option aids in the recovery of your operating system. When set to enabled, the operating system is allowed to initialize the timer. When set to disabled (the default), the timer will have no effect on the system. --ovrwrt* none Overwrites the file contents No when used with the -o option.
Table D-1. Options SYSCFG Options (continued) Suboptions Valid Arguments Description -min, max fanpowermo de Allows you to set the fan algorithm to the minimum power optimized or maximum performance optimized mode. --cap Displays the values of budgetcap, and the maximum and minimum power thresholds in Watts. --cap --unit watt, or btuphr, or percent where is the limit for power consumptio n in Watts, or btuphr, or percent.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments -setuppwdove rride Description Replicated Does not prompt you for a password to access DTK settings on systems that do not have a setup password configured. --powerbutton NA enable, disable Enables or disables the front Yes bezel power button. --pwdlock NA lock, unlock Enables or disables the ability to set the system password. --redmem NA off, spare, mirror, raid No Sets the redundant memory Yes mode.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated --sata0 NA auto, off Enables or disables SATA port 0. Yes NOTE: This option maps to --sata_a for PowerEdge x9xx systems. --sata1 NA auto, off Enables or disables SATA port 1. Yes NOTE: This option maps to --sata_b for PowerEdge x9xx systems. --sata2 NA auto, off Enables or disables SATA port 2. Yes NOTE: This option maps to --sata_c for PowerEdge x9xx systems.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated --sata6 NA auto, off Enables or disables SATA port 6. Yes NOTE: This option maps to --sata_g for PowerEdge x9xx systems. --sata7 NA auto, off Enables or disables SATA port 7. Yes NOTE: This option maps to --sata_h for PowerEdge x9xx systems. --serial1 NA disable, Sets the behavior for serial com1, com3, port 1.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated --speaker NA on, off Turns the built-in speaker on Yes or off. --svctag* NA none Reports the service tag for the system. No NOTE: The asterisk is not part of the command syntax. --syspwd NA Sets the system password for No the system BIOS. tpm --tpmsecurity off, Configures the TPM security Yes onwithpbm, feature.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated -NA setuppwdove rride On systems that do not have No a setup password configured, if you set this option, you will not be prompted for a password to access DTK settings. --turbomode NA enable, disable Enables or disables corebased turbo mode. --usb NA on, off, legacy Enables or disables the USB Yes port.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description --clearsel NA NA Clears the SEL. --deviceguid NA NA Displays the GUID for the BMC. --encryptkey NA Platform Management Interface (IPMI) sessions. --identify NA 0–254 Replicated Yes Flashes the identification LED for a specified number of seconds.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description lancfgparams or lcp --ipaddrsrc static, dhcp --ipaddress Configures and displays LAN configuration parameters.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments --fullduplex enable, disable --autoneg enable, disable --speed 10,100 --dnsdhcp enable, disable Description Replicated --dnsserver1 --dnsserver2 -enable, dnsregisterra disable c - dnsracname -enable, domainnam disable efromdhcp - domainnam e lanuseraccess or lua --usrprivlmt user, Configures and displays user operator, access parameters for the administrato LAN channel.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description --loaddefaults NA NA Restores the BMC to the defaults that were originally loaded on the controller. This option is used to return the BMC to a known-good state. --nextboot NA Sets the device for the next boot operation only. --nmibutton NA enable, disable Enables or disables the NMI button.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description pefcfgparams or pcp --filter fanfail, voltfail, discretevoltf ail, tempwarn, tempfail, intrusion, redundegrad ed, redunlost, procwarn, procfail, powerwarn, powerfail, hardwarelogf ail, autorecovery , batterywarn, batteryfail, powerabsent , procabsent, systempower warn, systempower fail Configures and displays PEF configuration parameters.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description Replicated -1, 2, 3, 4 alertpolnum -enable, alertpolstatu disable s --powerbutton NA enable, disable Enables or disables the power button. --powerctl NA powerdown Performs a chassis reset of the system. powercycle< /argument> reset softshutdow n --racreset 292 NA NA Resets the RAC. It cannot be No accompanied with any other option.
Table D-1. Options SYSCFG Options (continued) Suboptions Valid Arguments serialchannelac -disable, cess or ipmioverseri alwaysavail sca al Description Replicated Sets or displays the channel access settings for the serial channel. -user, channelprivl operator, mt administrato r serialchannelinfo -NA or mediumtype sci --prottype NA Displays serial channel information.
Table D-1. Options SYSCFG Options (continued) Suboptions serialcfgparams -or connection scp mode Valid Arguments Description basic, terminal Configures and displays serial configuration parameters. -noflowctrl, msgcommflo rtscts wctrl -NA msgcommdt rhangup NOTE: The BMC firmware does not support serial port Point-to-Point Protocol (PPP) configurations.
Table D-1. Options SYSCFG Options (continued) Suboptions Valid Arguments Description Replicated serialuseraccess --usrprivlmt user, Configures and displays user or operator, access parameters for the sua administrato serial channel. r, noaccess --userid 2–10 -NA currentenabl eduserids -NA useridswithfi xednames --solaction Enables or disables SerialOver-LAN (SOL) access for a particular user.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description solcfgparams --solenable enable, disable Configures and displays SOL configuration parameters.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description -b NA Specifies the value to write to state data. -r or --read NA NA Reads the value of state data. -x NA NA Specifies that the state data value should be in hexadecimal format. --asset NA NA Reports the asset tag for a system. --biosver NA NA Reports the BIOS version for a system. --chassvctag NA NA Reports the chassis service tag for modular systems.
Table D-1. SYSCFG Options (continued) Options Suboptions Valid Arguments Description --slot NA NA Reports the slot of a modular system. --svctag NA NA Reports the service tag for a system. --sysasset NA NA Reports the asset tag for a server module in a modular system chassis. --sysid NA NA Reports the unique system ID bytes for a system. --sysname NA NA Reports the system identification string for a system.
Table D-1. Options SYSCFG Options (continued) Suboptions Valid Arguments Description --ipsrcv6= auto Automatically configures the IPv6 addresses. --dnssrcv6 = auto Automatically configures the DNS address. --dnssrcv6= static -dnsserver1v6 = Allows you to manually set the DNS address. -linklocaladdr ipv6= Allows you to view IPv6 addresses. -gatewayv6= Allows you to view IP gatewayv6 address.
RAIDCFG Options Table D-2 lists all the RAIDCFG options and gives a brief description of these options. For details on these options, see the section, "RAIDCFG". Table D-2. RAIDCFG Short and Long Format Options Option Valid Arguments Short Description Mandatory or Optional No option NA Displays general usage information for the utility. The usage information consists of a comprehensive list of valid options, parameters, and arguments. Optional. See Table 4-4 for specific usage information.
Table D-2. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments -ad ch:targ, ch:targ, ... Specifies an array disk. or or ch:targ:lun,... adisk or ch:targ:enc channel:target, or channel:target:lu n, or channel:target:en closure Short Description Mandatory or Optional Optional. For SCSI controllers, the value of lun See Table 4-5 for specific usage should always be 0. information.
Table D-2. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments -fd ch:targ, ch:targ, ... Specifies the location of the failover or ch:targ:lun,... drive in an array. or failoverd or ch:targ:enc rive channel:target, or channel:target:lu n, or channel:target:en closure Short Description Mandatory or Optional Optional. See Table 4-4 for For SCSI controllers, the value of lun specific usage information. should always be 0.
Table D-2. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments -rp ra, ara, nra, rc, nrc Sets the read policy for the virtual disk. Optional. NA Mandatory. or Short Description readpoli cy -se or setenviro nment -si Sets a user-defined environment variable to the value returned from the function call. Function calls are: getcontrollerslots, getfirmware, getcontrollertype, getadisks, getadiskcount, getfreeadisks, getfreeadiskcount, getfreeadisksize, gethotspares.
Table D-2. RAIDCFG Short and Long Format Options (continued) Option Valid Arguments Short Description -ssz Sets the stripe size on the virtual disk Optional. in KB. See Table 4-4 for NOTE: When creating virtual disks, do specific usage not specify the units for chunk (stripe) information. size. The units are always listed in KB.
Glossary The following list defines or identifies technical terms, abbreviations, and acronyms used in your system documents. A Abbreviation for ampere(s). AC Abbreviation for alternating current. AC power switch A switch with two AC power inputs that provides AC power redundancy by failing over to a standby AC input in the event of a failure to the primary AC input. access Refers to the actions a user can take on a variable value. Examples include read-only and read-write.
API Abbreviation for application program interface, which is a set of routines, protocols, and tools for building software applications that act as an interface between the operating system and application programs. argument The value supplied with an option, such as in the following command line instance: utilname --option=argument ARP Acronym for Address Resolution Protocol, which is a method for finding a host’s Ethernet address from its Internet address.
backup A copy of a program or data file. As a precaution, you should back up your system's hard drive on a regular basis. Before making a change to the configuration of your system, you should back up important start-up files from your operating system. baud rate A measurement of data transmission speed. For example, modems are designed to transmit data at one or more specified baud rate(s) through the COM (serial) port of a system.
boot routine When you start your system, it clears all memory, initializes devices, and loads the operating system. Unless the operating system fails to respond, you can reboot (also called warm boot) your system by pressing ; otherwise, you must perform a cold boot by pressing the reset button or by turning the system off and then back on. bootable diskette You can start your system from a diskette.
cache A fast storage area that keeps a copy of data or instructions for quicker data retrieval. For example, your system's BIOS may cache ROM code in faster RAM. Or, a disk-cache utility may reserve RAM in which to store frequently accessed information from your system's disk drives; when a program makes a request to a disk drive for data that is in the cache, the disk-cache utility can retrieve the data from RAM faster than from the disk drive.
CIM Acronym for Common Information Model, which is a model for describing management information from the DMTF. CIM is implementation independent, allowing different management applications to collect the required data from a variety of sources. CIM includes schemas for systems, networks, applications and devices, and new schemas will be added. It provides mapping techniques for interchange of CIM data with MIB data from SNMP agents. CIMOM Acronym for common information model object manager.
config.sys file The config.sys file is executed when you boot your system (before running any commands in the autoexec.bat file). This start-up file contains commands that specify which devices to install and which drivers to use. This file also contains commands that determine how the operating system uses memory and controls files. ConsoleOne Novell ConsoleOne is a Java-based foundation for graphical utilities that manage and administer network resources from different locations and platforms.
coprocessor A chip that relieves the system's microprocessor of specific processing tasks. A math coprocessor, for example, handles numeric processing. A graphics coprocessor handles video rendering. The Intel® Pentium® microprocessor, for example, includes a built-in math coprocessor. cpi Abbreviation for characters per inch. CPU Abbreviation for central processing unit. See also microprocessor.
device driver A program that allows the operating system or some other program to interface correctly with a peripheral device, such as a printer. Some device drivers—such as network drivers—must be loaded from the config.sys file (with a device= statement) or as memory-resident programs (usually, from the autoexec.bat file). Others—such as video drivers—must load when you start the program for which they were designed.
DMA Abbreviation for direct memory access. A DMA channel allows certain types of data transfer between RAM and a device to bypass the microprocessor. DMTF Abbreviation for Distributed Management Task Force, a consortium of companies representing hardware and software providers. dpi Abbreviation for dots per inch. DRAM Acronym for dynamic random-access memory. A system's RAM is usually made up entirely of DRAM chips.
EDO Acronym for extended data output dynamic random access memory which is a type of DRAM that is faster than conventional DRAM. EDO RAM can start fetching the next block of memory at the same time that it sends the previous block to the microprocessor. EEPROM Acronym for electrically erasable programmable read-only memory. EIDE Abbreviation for enhanced integrated drive electronics.
EPP Abbreviation for Enhanced Parallel Port which provides improved bidirectional data transmission. Many devices are designed to take advantage of the EPP standard, especially devices, such as network or SCSI adapters that connect to the parallel port of a portable computer. EPROM Acronym for erasable programmable read-only memory. ESD Abbreviation for electrostatic discharge.
FAT Acronym for file allocation table. FAT and FAT32 are file systems that are defined as follows: • FAT — A file system used by MS-DOS, Windows 3.x, Windows 95, and Windows 98. Windows NT® and Windows 2000 also can use the FAT file system. The operating system maintains a table to keep track of the status of various segments of disk space used for file storage. • FAT32 — A derivative of the FAT file system.
format To prepare a hard drive or diskette for storing files. An unconditional format deletes all data stored on the disk. FPBGA Abbreviation for field programmable gate array, a programmable logic chip (PLD) with a high density of gates. FRU Abbreviation for field replaceable unit. ft Abbreviation for feet. FTP Abbreviation for file transfer protocol. FQDN Abbreviation for fully qualified domain name. It consists of a host and domain name, including top-level domain. Example: www.webopedia.com.
GMT Abbreviation for Greenwich Mean Time, which is the standard time common to every place in the world. GMT nominally reflects the mean solar time along the prime meridian (0 longitude) that runs through the Greenwich Observatory outside of London, UK. graphics coprocessor See coprocessor. graphics mode A video mode that can be defined as x horizontal by y vertical pixels by z colors. GUI Acronym for graphical user interface. GUID Globally unique identifier.
host adapter A host adapter implements communication between the system's bus and the controller for a peripheral device. (hard drive controller subsystems include integrated host adapter circuitry.) To add a SCSI expansion bus to your system, you must install or connect the appropriate host adapter. hot plug The ability to remove and replace a redundant part while the system is still running. Also called a hot spare.
ID Abbreviation for identifier, commonly used when referring to a user identifier (user ID), object identifier (object ID), or hardware identifier (controller ID). IDE Abbreviation for Integrated Drive Electronics. IDE is a computer system interface, used primarily for hard drives and CDs. I/O Abbreviation for input/output. The keyboard is an input device, and a printer is an output device. In general, I/O activity can be differentiated from computational activity.
IPX Abbreviation for internetwork packet exchange. IRQ Abbreviation for interrupt request. A signal that data is about to be sent to or received by a peripheral device travels by an IRQ line to the microprocessor. Each peripheral connection must be assigned an IRQ number. For example, the first serial port in your system (COM1) is assigned to IRQ4 by default. Two devices can share the same IRQ assignment, but you cannot operate both devices simultaneously. ISA Acronym for Industry-Standard Architecture.
KB/sec Abbreviation for kilobyte(s) per second. Kbit(s) Abbreviation for kilobit(s), 1024 bits. Kbit(s)/sec Abbreviation for kilobit(s) per second. key combination A command requiring you to press multiple keys at the same time. For example, you can reboot your system by pressing the key combination. kHz Abbreviation for kilohertz, 1000 hertz. LAN Acronym for local area network.
LED Abbreviation for light-emitting diode. An electronic device that lights up when a current is passed through it. local bus On a system with local-bus expansion capability, certain peripheral devices (such as the video adapter circuitry) can be designed to run much faster than they would with a traditional expansion bus. Some local-bus designs allow peripherals to run at the same speed and with the same width data path as the system's microprocessor.
Mb Abbreviation for megabit. MB Abbreviation for megabyte(s). The term megabyte means 1,048,576 bytes; however, when referring to hard drive storage, the term is often rounded to mean 1,000,000 bytes. MB/sec Abbreviation for megabytes per second. Mbps Abbreviation for megabits per second. MBR Abbreviation for master boot record. MCA Abbreviation for Micro Channel Architecture, which is designed for multiprocessing. MCA eliminates potential conflicts that arise when installing new peripheral devices.
MHz Abbreviation for megahertz. MIB Acronym for management information base. The MIB is used to send detailed status/commands from or to an SNMP managed device. microprocessor The primary computational chip inside the system that controls the interpretation and execution of arithmetic and logic functions. Software written for one microprocessor must usually be revised to run on another microprocessor. CPU is a synonym for microprocessor. MIDI Acronym for musical instrument digital interface.
ms Abbreviation for millisecond(s). MTBF Abbreviation for mean time between failures. multifrequency monitor A monitor that supports several video standards. A multifrequency monitor can adjust to the frequency range of the signal from a variety of video adapters. mV Abbreviation for millivolt(s). name The name of an object or variable is the exact string that identifies it in an SNMP Management Information Base (MIB) file or in a CIM Management Object File (MOF).
noninterlaced A technique for decreasing screen flicker by sequentially refreshing each horizontal line on the screen. ns Abbreviation for nanosecond(s), one billionth of a second. NTFS Abbreviation for the Windows NT File System option in the Windows NT operating system. NTFS is an advanced file system designed for use specifically within the Windows NT operating system. It supports file system recovery, extremely large storage media, and long filenames.
option An argument to a command that modifies its function rather than providing data and is usually set off by a delimiter such as - or /. Some options may or must be followed by a value, for example: utilname -option=argument OTP Abbreviation for one-time programmable. PAM Acronym for Pluggable Authentication Modules. PAM allows system administrators to set an authentication policy without having to recompile authentication programs.
PCMCIA Personal Computer Memory Card International Association. An international trade association that has developed standards for devices, such as modems and external hard drives, that can be plugged into portable computers. PERC Acronym for PowerEdge™ Expandable RAID controller. peripheral device An internal or external device—such as a printer, a disk drive, or a keyboard— connected to a system.
PKIS Abbreviation for Novell Public Key Infrastructure Services. PLCC Abbreviation for plastic leaded chip carrier. PEF Abbreviation for Platform Event Filter. A PEF is a function that compares an event against a set of configurable event filters and triggers a selectable action, such as, an alert on a match. Plug and Play An industry-standard specification that makes it easier to add hardware devices to personal computers.
PQFP Abbreviation for plastic quad flat pack, a type of microprocessor socket in which the microprocessor chip is permanently mounted. program diskette set The set of diskettes from which you can perform a complete installation of an operating system or application program. When you reconfigure a program, you often need its program diskette set.
RAM Acronym for random-access memory. A system's primary temporary storage area for program instructions and data. Each location in RAM is identified by a number called a memory address. Any information stored in RAM is lost when you turn off your system. RAMDAC Acronym for random-access memory digital-to-analog converter. RAM disk A memory-resident program that emulates a hard drive.
readme file A text file included with a software package or hardware product that contains information supplementing or updating the documentation for the software or hardware. Typically, readme files provide installation information, describe new product enhancements or corrections that have not yet been documented, and list known problems or other things you need to be aware of as you use the software or hardware.
rpm Abbreviation for revolutions per minute. RPM Abbreviation for RPM Package Manager. RSA Abbreviation for Rivest, Shamir, and Adleman, the inventors of a public key encryption technology developed by RSA Data Security, Inc. RTC Abbreviation for real-time clock. Battery-powered clock circuitry inside the system that keeps the date and time after you turn off the system. SAN Acronym for storage area network. SAS Acronym for Secure Authentication Services.
SEL Acronym for system event log. The system event log is a time-stamped nonvolatile record of the most recent platform events that have been logged in the shelf. SDMS Abbreviation for SCSI device management system. sec Abbreviation for second(s). SEC Abbreviation for single-edge contact. secure port server An application that makes Web pages available for viewing by Web browsers using the HTTPS protocol. See Web server. serial port An I/O port used most often to connect a modem to your system.
SGRAM Acronym for synchronous graphics RAM. shadowing A computer's system and video BIOS code is usually stored on ROM chips. Shadowing refers to the performance-enhancement technique that copies BIOS code to faster RAM chips in the upper memory area (above 640 KB) during the boot routine. SIMD Abbreviation for Single Instruction Multiple Data. SIMM Acronym for single in-line memory module. A small circuit board containing DRAM chips that connects to the system board.
SNMP Abbreviation for Simple Network Management Protocol. SNMP, a popular network control and monitoring protocol, is part of the original TCP/IP protocol suite. SNMP provides the format in which vital information about different network devices, such as network servers or routers, can be sent to a management application. SNMP trap A notification (event) generated by the RAC or ESM that contains information about state changes on the managed system or about potential hardware problems.
SSL Abbreviation for secure socket layer. state Refers to the condition of an object that can have more than one condition. For example, an object may be in the not ready state. status Refers to the health or functioning of an object. For example, a temperature probe can have the status normal if the probe is measuring acceptable temperatures. When the probe begins reading temperatures that exceed limits set by the user, it reports a critical status.
system board As the main circuit board, the system board usually contains most of your system's integral components, such as the following: • Microprocessor • RAM • Controllers for standard peripheral devices, such as the keyboard • Various ROM chips Frequently used synonyms for system board are motherboard and logic board. system configuration information Data stored in memory that tells a system what hardware is installed and how the system should be configured for operation.
TAP Abbreviation for Telelocator Alphanumeric Protocol, which is a protocol used for submitting requests to a pager service. TCP/IP Abbreviation for Transmission Control Protocol/Internet Protocol. A system for transferring information over a computer network containing dissimilar systems, such as systems running Windows and UNIX®. termination Some devices (such as the last device at each end of a SCSI cable) must be terminated to prevent reflections and spurious signals in the cable.
• LowerThresholdCritical • LowerThresholdFatal time-out A specified period of system inactivity that must occur before an energy conservation feature is activated. tpi Abbreviation for tracks per inch. TQFP Abbreviation for thin quad flat pack. TSR Abbreviation for terminate-and-stay-resident. A TSR program runs in the background.
unicode A fixed width, 16-bit world wide character encoding, developed and maintained by the Unicode Consortium. UPS Abbreviation for uninterruptible power supply. A battery-powered unit that automatically supplies power to your system in the event of an electrical failure. URL Abbreviation for Uniform Resource Locator (formerly Universal Resource Locator). USB Abbreviation for Universal Serial Bus.
Validation Process of checking a command. varbind An algorithm used to assign an object identifier (OID). The varbind gives rules for arriving at the decimal prefix that uniquely identifies an enterprise, as well as the formula for specifying a unique identifier for the objects defined in that enterprise's MIB. variable A component of a managed object.
video adapter The logical circuitry that provides—in combination with the monitor—your system's video capabilities. A video adapter may support more or fewer features than a specific monitor offers. Typically, a video adapter comes with video drivers for displaying popular application programs and operating systems in a variety of video modes. On some systems, a video adapter is integrated into the system board. Also available are many video adapter cards that plug into an expansion-card connector.
virtual memory A method for increasing addressable RAM by using the hard drive. For example, in a system with 16 MB of RAM and 16 MB of virtual memory set up on the hard drive, the operating system would manage the system as though it had 32 MB of physical RAM. virus A self-starting program designed to inconvenience you. Virus programs have been known to corrupt the files stored on a hard drive or to replicate themselves until a computer system or network runs out of memory.
W Abbreviation for watt(s). Wakeup on LAN The ability for the power in a client station to be turned on by the network. Remote wake-up enables software upgrading and other management tasks to be performed on users' machines after the work day is over. It also enables remote users to gain access to machines that have been turned off. Intel calls remote wake-up Wake-onLAN. WAN Abbreviation for wide area network.
Windows 95 An integrated and complete Microsoft Windows operating system that does not require MS-DOS and that provides advanced operating system performance, improved ease of use, enhanced workgroup functionality, and simplified file management and browsing. Windows NT High-performance server and workstation operating system software developed by Microsoft that is intended for technical, engineering, and financial applications. write-protected Read-only files are said to be write-protected.
Index D O disk partitioning UPINIT, 175 options RACADM, 184 disk partitioning utilities, 11 options and arguments RAIDCFG, 126 UPINIT, 176 disk partitioning utility, 11 DTK utilities overview, 10 E error codes, 213 error messages, 19, 213 overview DTK utilities, 10 R RAC configuration utilities RACADM, 11 RAC configuration utility, 11 F features RACADM, 183 RAIDCFG, 125 SYSCFG, 21 UPINIT, 175 M messages and codes, 213 RACADM, 183 features, 183 options, subcommands, and arguments, 188 RACADM subc
RAID configuration utilities, 10 RAID configuration utility RAIDCFG, 10 RAIDCFG, 125 error codes and messages, 225 features, 125 options and arguments, 126, 132 supported RAID controllers, 125, 175, 183 replication, 11 requirements, 10 utilities disk partitioning, 11 RAC configuration, 11 RACADM, 11, 183 RAIDCFG, 10, 125 SYSCFG, 10, 21 UPINIT, 175 utility UPINIT, 175 utility types RAID configuration, 10 system configuration and update, 10 S SYSCFG, 21 error checking and messages, 213 features, 21 options