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- Create the software image to upload (called the firmware by PPS, hpm1fw.img) by make hpm
From the same network as the shelf manager (currently cds), execute:
Code Block ipmitool-pps -I lan -H shlfmgr02 -t 0x86 -b 0 -A NONE hpm upgrade hpm1fw.img activate
-H shlfmgr02
is the hostname of the Shelf Manager-t 0x86
is the IPMB address of the COB you are upgradinghpm1fw.img
is the path to the software image file created by make hpm
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Here's a couple that will probably be useful:
To activate the payload (initiate M1->M2 transition):
Code Block ipmitool-pps -I lan -H shlfmgr02 -t 0x86 -b 0 -A NONE picmg policy set 0 2 1
To deactivate the payload (initiate M4->M5 transition):
Code Block ipmitool-pps -I lan -H shlfmgr02 -t 0x86 -b 0 -A NONE picmg policy set 0 1 0
And here are a couple of commands which can be typed into the IPMC console to do fun things:
Reset commands over console:
Code Block [B8 00 0D 0A 40 00 XX] XX = 00 current mode = 01 normal mode = 02 standalone mode = 03 manual standalone So: [B8 00 0D 0A 40 00 00] [B8 00 0D 0A 40 00 01] [B8 00 0D 0A 40 00 02] [B8 00 0D 0A 40 00 03] Reset Non-volatile Parameters and Reboot (will cause INIT callbacks to execute) [B8 00 41 0A 40 00]
Set Handle Switch
Code Block [B8 00 08 0A 40 00 00 XX] 00 = Open 01 = Closed 02 = Hardware Switch So: [B8 00 08 0A 40 00 00 00] [B8 00 08 0A 40 00 00 01] [B8 00 08 0A 40 00 00 02]
Custom COB IPMI commands (COB5 and COB6)
These commands can be issued using ipmitool.
Code Block |
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ipmitool-pps -I lan -H <shelfmanager> -t <COB Address> -b 0 -A NONE raw <SLAC_NETFN> <CMD> [DATA_0] [DATA_1] ... [DATA_N]
Where:
<shelfmanager> is the hostname/IP address of the Shelf Manager (ex. shasta-sm)
<COB address> is the IPMB address of the COB board (ex. 0x82, 0x84, 0x86, 0x88, 0x8a)
<SLAC_NETFN> The NetFn for our custom command extensions which is 0x34
<CMD> [DATA_X] is the command to be issued and associated parameter as described below
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or |
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in |
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the |
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IPMC |
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console window: [D0 00 <CMD> [DATA_0] [DATA_1] ... [DATA_N]] Write to Cluster Element BSI: <CMD> = 0x03 The format for this command is |
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Offset Length Description
0 1 |
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BAY |
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Mask |
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1 1 RCE Mask 2 1 Do interrupt ( |
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Does Nothing) |
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5 |
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to |
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write |
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7 |
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N |
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Data to |
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write (if length < 16) |
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length > 16, fill with |
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incrementing data starting with data) NOTE: Including Bays w/o RCEs or which are |
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present |
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in BAY Mask |
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will not result in |
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an error. Similarly, including |
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RCEs which are not present or |
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are currently being |
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reset will not result in an |
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error, nor will |
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RCEs currently held in reset be |
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released |
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from |
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reset as a |
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result of issuing this command. Read from |
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Cluster Element BSI: <CMD> = 0x4 |
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The format for this command is
Offset Length Description
0 1 |
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BAY Number 1 |
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1 |
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RCE Number 2 2 Address |
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4 2 Length to read (Though 2 bytes long, IPMI practically limits this to <16) Read COB Data Board ID PROM: <CMD> = 0x5 The format for this command is Offset Length Description 0 1 |
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BAY Number |
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Returns the ID
0 6 MSB -> LSB 6 byte ID
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Set |
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Monitor |
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Dump |
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Period: |
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<CMD> |
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= 0x07 The format for this command is |
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Offset Length Description
0 1 |
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Dump |
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Index [0=BAY, 1=RCE, 2=BSI, 3=SFP, 4=FP_DISP, 5=BAY_GPIO, 6=BAY_GPIO_FULL] |
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1 |
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2 Seconds [0=Never Dump, 0xffff=Default] Get Monitor Dump Period: <CMD> = |
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0x08 The format for this command is Offset Length Description 0 1 |
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Dump |
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Index [ |
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0=BAY, |
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1=RCE, |
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2=BSI, |
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3=SFP, |
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4=FP_DISP, |
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5=BAY_GPIO, 6=BAY_GPIO_FULL] |
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Returns |
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0 |
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2 |
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Seconds [0=Never Dump] Monitor Dump Immediate: <CMD> |
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= 0x09 |
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The format for this command is Offset Length Description 0 1 |
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Dump |
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Index [ |
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0=BAY, |
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1=RCE, |
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2=BSI, |
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3=SFP, |
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4=FP_DISP, 5=BAY_GPIO, 6=BAY_GPIO_FULL] RCE Reset Command: <CMD> = 0x0A The |
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format for this command is |
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Offset Length |
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Description 0 |
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1 |
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BAY Mask |
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Supported IPMI/ATCA commands
These commands can be issued using ipmitool.
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1 1 RCE Mask This command returns Offset Length Description 0 1 Completion Code 1 1 Mask of Bays with errors |
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NOTE: Including Bays w/o RCEs or which |
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are |
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not |
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Short-hand commands
The following commands are provided as scripts in the bin
of our group area. <shelf>
is a shelf name. <slot>
is a slot number, from 1 to the number of slots in the crate. <element>
is the element number, with 0xff meaning all elements and 0xfe meaning all DPMs, as above.
ipmi_activate
Activate a shelf's payload.Code Block usage: ipmi_activate <shelf> <slot>
ipmi_deactivate
Deactivate a shelf's payload.Code Block usage: ipmi_deactivate <shelf> <slot>
ipmi_boot
Temporarily set the bootstrap word to the supplied value.Code Block usage: ipmi_boot <shelf> <slot> <element> <bootstrap>
ipmi_bootstrap
Permanently set the bootstrap word to the supplied value. If omitted, print the current value of the bootstrap word.Code Block usage: ipmi_bootstrap <shelf> <slot> <element> [<value>]
ipmi_eeprom
Read and print the EEPROM contents at the supplied address and length combination.Code Block usage: ipmi_eeprom <shelf> <slot> <board> <address> [<length>]
ipmi_id
Read COB Data Board ID PROM.Code Block usage: ipmi_id <shelf> <slot> <board>
ipmi_read
Read from the Cluster Element BSI.Code Block usage: ipmi_read <shelf> <slot> <element> <address> [<length>]
ipmi_write
Write the Cluster Element BSI.Code Block usage: ipmi_write <shelf> <slot> <element> <address> <data> [...]
Custom COB IPMI commands for COB 5
These commands can be issued using ipmitool.
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present in BAY Mask will not result in an error. Similarly, including RCEs which are not present or are currently being reset will not result in an error, nor will RCEs currently held in reset be released from reset as a result of issuing this command. Read from RTM EERPOM: <CMD> = 0x0B The format for this command is Offset Length Description 0 1 EEPROM Select (0=RTM Fru Info EEPROM, 1=RMB EEPROM) 1 1 Address 2 1 Length to read (Limited by IPMI to 24 bytes) Write to RTM EERPOM: <CMD> = 0x0C The format for this command is Offset Length Description 0 1 EEPROM Select (0=RTM Fru Info EEPROM, 1=RMB EEPROM) 1 1 |
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Address |
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2 1 Length |
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write |
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3 |
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N Data |
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to |
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write ( |
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Limited by IPMI to 22 bytes) Set FP SFP Switch Group: <CMD> = 0x10 |
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The format for this command |
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Offset Length Description |
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SFP+ Mask |
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1 |
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Group Number 0x00 = No Group 0x01 - 0x10 Group with Slot at Physical address 0x01 - 0x10 0x11 - 0xFF Arbitrary Group Numbers I2C Read: <CMD> = |
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0xF7 Low level I2C Read |
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for this command is Offset Length Description 0 1 I2C Bus 1 |
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(8 bit address) 2 1 |
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read |
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This command returns |
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Data read I2C Write: <CMD> = 0xF8 Low level I2C Write The format for this command is Offset Length Description 0 1 |
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I2C |
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Bus 1 1 Device Address |
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(8 bit address) 2 1 |
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Length to |
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write |
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3 |
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Data to |
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write |
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This command |
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returns Offset Length Description 0 1 |
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Completion |
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Code Cold Data Reset: <CMD> = |
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0xF9 The Cold Data Reset command will reset the IPMC and mark the |
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Cold Data Journal |
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as invalid. This mimics removing power from the IPMC. Set |
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Zombie |
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RCE: <CMD> = |
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0xFA |
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an |
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RCE |
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marked |
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as a Zombie, the IPMC will |
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it to hold up the booting |
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of the board. |
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(For example, it |
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will |
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mark the switch port configuration in the DTM BSI as "Disabled" if the DPM is not Ready. The format for this command is Offset Length Description 0 1 |
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Bay Number 1 1 RCE |
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Number |
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2 1 |
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Zombie |
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State [0= |
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Not a Zombie, 1=BRAINS!] Set Bay Power: <CMD> = |
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0xFB (This is only intended to be used for HW debugging as immediately turns on/off power to a Bay.) The format for this command is Offset Length Description 0 1 |
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BAY MASK |
Supported IPMI/ATCA commands
These commands can be issued using ipmitool.
Code Block |
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FRU Control Command (cold/warm reset) ipmitool-pps -I lan -H <shelfmanager> -t <COB Address> -b 0 -A NONE picmg frucontrol <FRU-ID> <OPTION> Where: <shelfmanager> is the hostname/IP address of the Shelf Manager (ex. shasta-sm) <COB address> is the IPMB address of the COB board (ex. 0x82, 0x84, 0x86, 0x88, 0x8a) <FRU-ID> is the FRU-ID of the IPMC which is 0x00 <OPTION> is: 0x00 - Cold Reset, 1=RCE, 2=BSI, 3=SFP, 4=FP_DISP, 5=BAY_GPIO, 6=BAY_GPIO_FULL] RCE Reset Command: <CMD> = 0x0A The format for this command is Offset Length Description 0 1 BAY Mask 1 1 RCE Mask This command0x01 returns - Offset Length Description 0 1 Completion Code 1 1 Mask of Bays with errors NOTE: Including Bays w/o RCEs or which are not present in BAY Mask will not result in an error. Similarly, including RCEs which are not present or are currently being reset will not result in an error, nor will RCEs currently held in reset be released from reset as a result of issuing this command. Cold Data Reset: <CMD> = 0xF9 The Cold Data Reset command will reset the IPMC and mark the Cold Data Journal as invalid. This mimics removing power from the IPMC. Set Zombie RCE: <CMD> = 0xFA When an RCE is marked as a Zombie, the IPMC will not allow it to hold up the booting of the board. (For example, it will mark the switch port configuration in the DTM BSI as "Disabled" if the DPM is not Ready. The format for this command is Offset Length Description 0 1 Bay Number 1 1 RCE Number 2 1 Zombie State [0=Not a Zombie, 1=BRAINS!] Set Bay Power: <CMD> = 0xFB (This is only intended to be used for HW debugging as immediately turns on/off power to a Bay.) The format for this command is Offset Length Description 0 1 BAY MASK Warm Reset |
Short-hand commands
The following commands are provided as scripts in the bin
of our group area. <shelf>
is a shelf name. <slot>
is a slot number, from 1 to the number of slots in the crate. <element>
is the element number, with 0xff meaning all elements and 0xfe meaning all DPMs, as above.
ipmi_activate
Activate a shelf's payload.Code Block usage: ipmi_activate <shelf> <slot>
ipmi_deactivate
Deactivate a shelf's payload.Code Block usage: ipmi_deactivate <shelf> <slot>
ipmi_boot
Temporarily set the bootstrap word to the supplied value.Code Block usage: ipmi_boot <shelf> <slot> <element> <bootstrap>
ipmi_bootstrap
Permanently set the bootstrap word to the supplied value. If omitted, print the current value of the bootstrap word.Code Block usage: ipmi_bootstrap <shelf> <slot> <element> [<value>]
ipmi_eeprom
Read and print the EEPROM contents at the supplied address and length combination.Code Block usage: ipmi_eeprom <shelf> <slot> <board> <address> [<length>]
ipmi_id
Read COB Data Board ID PROM.Code Block usage: ipmi_id <shelf> <slot> <board>
ipmi_read
Read from the Cluster Element BSI.Code Block usage: ipmi_read <shelf> <slot> <element> <address> [<length>]
ipmi_write
Write the Cluster Element BSI.Code Block usage: ipmi_write <shelf> <slot> <element> <address> <data> [...]