This supplement contains information specific to the products listed on the title page. For general ILOM descriptions, refer to Integrated Lights Out Manager (ILOM) Administration Guide.
This document provides information about the following topics:
| Note - The information in this book applies to all products listed on the title page, except where otherwise noted.
|
How to Reset the Service Processor and BIOS Passwords
You can reset the administration password, and clear the BIOS password, using jumper procedure described in the Sun Fire X4100 and Sun Fire X4200 Server Service Manual, 819-1157.
- The administration (root) password becomes changeme.
- The BIOS password is cleared, so that when you attempt to access the BIOS setup utility, it does not prompt for a password.
Service Processor Lost Password Recovery Procedure (6881237)
In ILOM 3.0, the root account--which was used for administrative tasks in ILOM 2.0--has been removed and the default user account is used for initial login, creation of user accounts, and server configuration. After those tasks are performed, the default user account’s access is limited to the CLI on the SP console. Therefore, all subsequent user account changes (creations and modifications) and configuration changes should be done using specific user accounts. This requirement enables accountability to be traced to individual users who have access to specific accounts.
As mentioned, once you login to the default user account, subsequent access to this account is restricted to the CLI on the SP console, which connects through the serial management port. Additionally, by default, the SP requires that a “physical presence” switch be pressed on the server before the SP console can be used for this purpose. This requirement is there for security reasons as it prevents access to the default user account from a remote location, that is, you must have physical access to the server to use this account.
One of the uses of the default user account is lost password recovery. It is meant to be used when you cannot access the account for which the password was lost by using a different user account. User accounts assigned the user (u) role can be used to change and reset passwords on other user accounts. If there are no user accounts that have the ability to reset passwords, you can use the CLI on the SP console to log in to the default user account.
 To Recover a Lost Password Using the default User Account
|
1. Connect a serial cable from the RJ-45 SER MGT port on the server’s back panel to a terminal device.
For instructions, refer to the Sun Fire X4100/X4100 M2 and X4200/X4200 M2 Servers Installation Guide (820-1155).
2. Ensure that the server is powered on.
The localhost login prompt appears.
3. Log in to the default user account. Type:
localhost login: default
4. Press the Locator button once.
This Locator button is on the front of the server.
5. Press the Enter key on the terminal device.
The SP displays the Password prompt.
6. Enter the password for the default user account.
The default user account password is the product serial number and it cannot be changed. The product serial number is printed on the server hardware or on the product purchase documentation.
Once you have successfully logged in, the SP displays its default CLI command prompt: ->
7. You can now use the default user account to reset the passwords for user accounts for which passwords have been lost.
For instructions on how to use the CLI to reset user passwords, see the Sun Integrated Lights Out Manager 3.0 User’s Guide (820-4597).
Hardware Information
This section provides information about the system hardware.
Server Locator Indicator
This is a pair of small lights that you turn on to help you identify a specific server among many in a data center. One light is positioned on the front of the server in the upper-left corner, and the other light is on the back of the server in the upper-center section.
Hardware Port Locations
The ILOM communicates through the server’s serial management port and through a dedicated Ethernet port.
FIGURE 1 shows the location of the serial port and the service processor Ethernet port on Sun Fire X4100/Sun Fire X4100 M2 servers.
FIGURE 1 Sun Fire X4100/X4100 M2 Rear Panel with Service Processor Port Locations
FIGURE 2 shows the location of the serial port and the service processor Ethernet port on Sun Fire X4200/X4200 M2 servers.
FIGURE 2 Sun Fire X4200/X4200 M2 Rear Panel with Service Processor Port Locations
Serial Port (Left) and shows enlarged diagrams of the serial port and the service processor Ethernet port.
FIGURE 3 Service Processor Ethernet Port (Right)
Sensors
These servers include a number of sensors that generate entries in the system event log (SEL) when the sensor crosses a threshold. Many of these readings are used to adjust the fan speeds and perform other actions, such as illuminating LEDs and powering off the chassis.
These sensors can also be configured to generate IPMI PET traps, as described in the Administration Guide.
|
Caution - Do not use any interface other than the ILOM CLI or WebGUI to alter the state or configuration of any sensor or LED. Doing so could void your warranty.
|
This section describes the sensors and provides details about their operation.
Temperature, Voltage, and Fan Sensor Readings
The system monitors six temperature sensors. They all generate IPMI events that are logged in to the system event log (SEL) when an upper threshold is exceeded. Three of these sensor readings are used to adjust the fan speeds and perform other actions, such as illuminating LEDs and powering off the chassis; these are described in Tables Front Panel Ambient Temperature (fp.t_amb) and CPU Die Temperatures (p0.t_core and p1.t_core) follows:
TABLE 1 Front Panel Ambient Temperature (fp.t_amb)
|
|
Temperature (degrees C)
|
|
|
Sun Fire X4100/X4200
|
Sun Fire X4100/X4200 M2
|
|
Upper noncritical
|
30
|
30
|
|
Upper critical
|
35
|
35
|
|
Upper nonrecoverable
|
40
|
45
|
TABLE 2 CPU Die Temperatures (p0.t_core and p1.t_core)
|
|
Temperature (degrees C)
|
|
|
Sun Fire X4100/X4200
|
Sun Fire X4100/X4200 M2
|
|
Upper noncritical
|
55
|
62
|
|
Upper critical
|
65
|
67
|
|
Upper nonrecoverable
|
75
|
75
|
There are three other temperature sensors:
- I/O board ambient temperature (io.t_amb)
- Motherboard ambient temperature (mb.t_amb)
- Power distribution board ambient temperature (pdb.t_amb)
List of Sensors
TABLE 3 lists the sensors. TABLE 4 provides more detailed information about individual sensors.
TABLE 3 List of Sensors
|
Sensor Name
|
Data
|
Status
|
|
sys.id
|
0x10
|
OK
|
|
sys.intsw
|
0x00
|
OK
|
|
sys.psfail
|
0x01
|
OK
|
|
sys.tempfail
|
0x01
|
OK
|
|
sys.fanfail
|
0x01
|
OK
|
|
mb.t_amb
|
25 degrees C
|
OK
|
|
mb.v_bat
|
2.72 Volts
|
OK
|
|
mb.v_+3v3stby
|
3.10 Volts
|
OK
|
|
mb.v_+3v3
|
3.34 Volts
|
OK
|
|
mb.v_+5v
|
4.99 Volts
|
OK
|
|
mb.v_+12v
|
11.84 Volts
|
OK
|
|
mb.v_-12v
|
-12.28 Volts
|
OK
|
|
mb.v_+1v2core
|
1.22 Volts
|
OK
|
|
bp.power
|
0x02
|
OK
|
|
bp.locate
|
0x02
|
OK
|
|
bp.locate.btn
|
0x01
|
OK
|
|
bp.alert
|
0x01
|
OK
|
|
fp.prsnt
|
0x02
|
OK
|
|
fp.t_amb
|
23 degrees C
|
OK
|
|
fp.usbfail
|
0x01
|
OK
|
|
fp.power
|
0x02
|
OK
|
|
fp.locate
|
0x01
|
OK
|
|
fp.locate.btn
|
0x01
|
OK
|
|
fp.alert
|
0x01
|
OK
|
|
fp.ledbd.prsnt
|
0x02
|
OK
|
|
pdb.t_amb
|
24 degrees C
|
OK
|
|
ps0.prsnt
|
0x02
|
OK
|
|
ps0.pwrok
|
0x02
|
OK
|
|
ps0.vinok
|
0x02
|
OK
|
|
ps1.prsnt
|
0x01
|
OK
|
|
ps1.pwrok
|
Not Readable
|
ns
|
|
ps1.vinok
|
Not Readable
|
ns
|
|
io.t_amb
|
22 degrees C
|
OK
|
|
io.id0.prsnt
|
0x01
|
OK
|
|
io.id1.prsnt
|
0x02
|
OK
|
|
io.f0.prsnt
|
0x02
|
OK
|
|
io.f0.speed
|
4000 RPM
|
OK
|
|
io.f0.fail
|
0x01
|
OK
|
|
io.hdd0.fail
|
0x01
|
OK
|
|
io.hdd1.fail
|
0x01
|
OK
|
|
io.hdd2.fail
|
0x01
|
OK
|
|
io.hdd3.fail
|
0x01
|
OK
|
|
p0.t_core
|
40 degrees C
|
OK
|
|
p0.v_vdd
|
1.44 Volts
|
OK
|
|
p0.v_vddio
|
2.63 Volts
|
OK
|
|
p0.v_vtt
|
1.31 Volts
|
OK
|
|
p0.fail
|
0x02
|
OK
|
|
p0.d0.fail
|
0x01
|
OK
|
|
p0.d1.fail
|
0x01
|
OK
|
|
p0.d2.fail
|
0x01
|
OK
|
|
p0.d3.fail
|
0x01
|
OK
|
|
p1.t_core
|
44 degrees C
|
OK
|
|
p1.v_vdd
|
1.45 Volts
|
OK
|
|
p1.v_vddio
|
2.63 Volts
|
OK
|
|
p1.v_vtt
|
1.31 Volts
|
OK
|
|
p1.fail
|
0x02
|
OK
|
|
p1.d0.fail
|
0x01
|
OK
|
|
p1.d1.fail
|
0x01
|
OK
|
|
p1.d2.fail
|
0x01
|
OK
|
|
p1.d3.fail
|
0x01
|
OK
|
|
ft0.fm0.fail
|
0x01
|
OK
|
|
ft0.fm1.fail
|
0x01
|
OK
|
|
ft0.fm2.fail
|
0x01
|
OK
|
|
ft1.fm0.fail
|
0x01
|
OK
|
|
ft1.fm1.fail
|
0x01
|
OK
|
|
ft1.fm2.fail
|
0x01
|
OK
|
|
ft0.fm0.prsnt
|
0x02
|
OK
|
|
ft0.fm1.prsnt
|
0x02
|
OK
|
|
ft0.fm2.prsnt
|
0x02
|
OK
|
|
ft1.fm0.prsnt
|
0x02
|
OK
|
|
ft1.fm1.prsnt
|
0x02
|
OK
|
|
ft1.fm2.prsnt
|
0x02
|
OK
|
|
ft0.fm0.f0.speed
|
11000 RPM
|
OK
|
|
ft0.fm1.f0.speed
|
11000 RPM
|
OK
|
|
ft0.fm2.f0.speed
|
12000 RPM
|
OK
|
|
ft1.fm0.f0.speed
|
12000 RPM
|
OK
|
|
ft1.fm1.f0.speed
|
11000 RPM
|
OK
|
|
ft1.fm2.f0.speed
|
12000 RPM
|
OK
|
TABLE 4 provides detailed information about individual sensors.
TABLE 4 Sensor Details
|
Sensor
|
Data
|
|
Sensor ID
|
sys.id (0x0)
|
|
Entity ID
|
23.0 (System Chassis)
|
|
Sensor Type (Discrete)
|
Chassis
|
|
States Asserted
|
Digital State
|
|
|
[State Deasserted]
|
|
Sensor ID
|
sys.intsw (0x1)
|
|
Entity ID
|
23.0 (System Chassis)
|
|
Sensor Type (Discrete)
|
Physical Security
|
|
Assertions Enabled
|
Physical Security
|
|
|
[General Chassis intrusion]
|
|
Sensor ID
|
sys.psfail (0x2)
|
|
Entity ID
|
23.0 (System Chassis)
|
|
Sensor Type (Discrete)
|
Power Supply
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Sensor ID
|
sys.tempfail (0x3)
|
|
Entity ID
|
23.0 (System Chassis)
|
|
Sensor Type (Discrete)
|
Temperature
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Sensor ID
|
sys.fanfail (0x4)
|
|
Entity ID
|
23.0 (System Chassis)
|
|
Sensor Type (Discrete)
|
Fan
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Sensor ID
|
mb.t_amb (0x5)
|
|
Type
|
Temperature
|
|
Class
|
Threshold Sensor
|
|
Value
|
19.000 degree C
|
|
Upper_nonrecov_threshold
|
80.000 degree C
|
|
Upper_critical_threshold
|
75.000 degree C
|
|
Upper_noncritical_threshold
|
70.000 degree C
|
|
Lower_noncritical_threshold
|
N/A
|
|
Lower_critical_threshold
|
N/A
|
|
Lower_nonrecov_threshold
|
N/A
|
|
Sensor ID
|
mb.v_bat (0x6)
|
|
Type
|
Voltage
|
|
Class
|
Threshold Sensor
|
|
Value
|
2.855 Volts
|
|
Upper_nonrecov_threshold
|
3.697 Volts
|
|
Upper_critical_threshold
|
3.510 Volts
|
|
Upper_noncritical_threshold
|
3.307 Volts
|
|
Lower_noncritical_threshold
|
2.621 Volts
|
|
Lower_critical_threshold
|
2.527 Volts
|
|
Lower_nonrecov_threshold
|
2.340 Volts
|
|
Sensor ID
|
mb.v_+3v3stby (0x7)
|
|
Entity ID
|
7.0 (System Board)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Sensor Reading
|
3.114 (+/- 0) Volts
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
3.996
|
|
Upper critical
|
3.789
|
|
Upper noncritical
|
3.598
|
|
Lower nonrecoverable
|
2.595
|
|
Lower critical
|
2.785
|
|
Lower noncritical
|
2.993
|
|
Positive Hysteresis
|
0.087
|
|
Negative Hysteresis
|
0.087
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
mb.v_+3v3 (0x8)
|
|
Entity ID
|
7.0 (System Board)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Sensor Reading
|
3.339 (+/- 0) Volts
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
3.996
|
|
Upper critical
|
3.789
|
|
Upper noncritical
|
3.598
|
|
Lower nonrecoverable
|
2.595
|
|
Lower critical
|
2.785
|
|
Lower noncritical
|
2.993
|
|
Positive Hysteresis
|
0.087
|
|
Negative Hysteresis
|
0.087
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
mb.v_+5v (0x9)
|
|
Entity ID
|
7.0 (System Board)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Sensor Reading
|
4.992 (+/- 0) Volts
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
6.500
|
|
Upper critical
|
5.980
|
|
Upper noncritical
|
5.486
|
|
Lower nonrecoverable
|
3.484
|
|
Lower critical
|
3.978
|
|
Lower noncritical
|
4.498
|
|
Positive Hysteresis
|
0.078
|
|
Negative Hysteresis
|
0.078
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
mb.v_+12v (0xa)
|
|
Entity ID
|
7.0 (System Board)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Sensor Reading
|
11.844 (+/- 0) Volts
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
14.994
|
|
Upper critical
|
13.986
|
|
Upper noncritical
|
12.978
|
|
Lower nonrecoverable
|
8.946
|
|
Lower critical
|
9.954
|
|
Lower noncritical
|
10.962
|
|
Positive Hysteresis
|
0.063
|
|
Negative Hysteresis
|
0.063
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
mb.v_-12v (0xb)
|
|
Entity ID
|
7.0 (System Board)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Sensor Reading
|
-12.277 (+/- -16.000) Volts
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
-9.065
|
|
Upper critical
|
-10.014
|
|
Upper noncritical
|
-11.036
|
|
Lower nonrecoverable
|
-15.051
|
|
Lower critical
|
-14.029
|
|
Lower noncritical
|
-13.007
|
|
Positive Hysteresis
|
0.133
|
|
Negative Hysteresis
|
0.133
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
mb.v_+1v2core (0xe)
|
|
Entity ID
|
7.0 (System Board)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Sensor Reading
|
1.220 (+/- 0) Volts
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
1.900
|
|
Upper critical
|
1.700
|
|
Upper noncritical
|
1.500
|
|
Lower nonrecoverable
|
0.600
|
|
Lower critical
|
0.800
|
|
Lower noncritical
|
1.000
|
|
Positive Hysteresis
|
0.100
|
|
Negative Hysteresis
|
0.100
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
bp.power (0xf)
|
|
Entity ID
|
13.1 (Back Panel Board)
|
|
Sensor Type (Discrete)
|
Power Supply
|
|
States Asserted
|
Digital State
|
|
|
[State Asserted]
|
|
Sensor ID
|
bp.locate (0x10)
|
|
Entity ID
|
13.2 (Back Panel Board)
|
|
Sensor Type (Discrete)
|
Button
|
|
States Asserted
|
Digital State
|
|
|
[State Asserted]
|
|
Sensor ID
|
bp.locate.btn (0x11)
|
|
Entity ID
|
13.2 (Back Panel Board)
|
|
Sensor Type (Discrete)
|
Button
|
|
States Asserted
|
Digital State
|
|
|
[State Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[State Asserted]
|
|
Sensor ID
|
bp.alert (0x12)
|
|
Entity ID
|
13.3 (Back Panel Board)
|
|
Sensor Type (Discrete)
|
Platform Alert
|
|
States Asserted
|
Digital State
|
|
|
[State Deasserted]
|
|
Sensor ID
|
fp.prsnt (0x13)
|
|
Entity ID
|
12.0 (Front Panel Board)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
fp.t_amb (0x14)
|
|
Entity ID
|
12.0 (Front Panel Board)
|
|
Sensor Type (Analog)
|
Temperature
|
|
Sensor Reading
|
23 (+/- 0) degrees C
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
43.000
|
|
Upper critical
|
35.000
|
|
Upper noncritical
|
30.000
|
|
Positive Hysteresis
|
Unspecified
|
|
Negative Hysteresis
|
Unspecified
|
|
Minimum sensor range
|
-127.000
|
|
Maximum sensor range
|
127.000
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
unc ucr unr
|
|
Settable Thresholds
|
unc ucr unr
|
|
Threshold Read Mask
|
unc ucr unr
|
|
Assertions Enabled
|
ucr+ unr+
|
|
Deassertions Enabled
|
ucr+ unr+
|
|
Sensor ID
|
fp.usbfail (0x15)
|
|
Entity ID
|
12.0 (Front Panel Board)
|
|
Sensor Type (Discrete)
|
Slot / Connector
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
fp.power (0x16)
|
|
Entity ID
|
12.1 (Front Panel Board)
|
|
Sensor Type (Discrete)
|
Power Supply
|
|
States Asserted
|
Digital State
|
|
|
[State Asserted]
|
|
Sensor ID
|
fp.locate (0x17)
|
|
Entity ID
|
12.2 (Front Panel Board)
|
|
Sensor Type (Discrete)
|
Button
|
|
States Asserted
|
Digital State
|
|
|
[State Deasserted]
|
|
Sensor ID
|
fp.locate.btn (0x18)
|
|
Entity ID
|
12.2 (Front Panel Board)
|
|
Sensor Type (Discrete)
|
Button
|
|
States Asserted
|
Digital State
|
|
|
[State Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[State Asserted]
|
|
Sensor ID
|
fp.alert (0x19)
|
|
Entity ID
|
12.3 (Front Panel Board)
|
|
Sensor Type (Discrete)
|
Platform Alert
|
|
States Asserted
|
Digital State
|
|
|
[State Deasserted]
|
|
Sensor ID
|
fp.ledbd.prsnt (0x1a)
|
|
Entity ID
|
12.0 (Front Panel Board)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
pdb.t_amb (0x1b)
|
|
Type
|
Temperature
|
|
Class
|
Threshold Sensor
|
|
Value
|
15.000 degree C
|
|
Upper_nonrecov_threshold
|
80.000 degree C
|
|
Upper_critical_threshold
|
75.000 degree C
|
|
Upper_noncritical_threshold
|
70.000 degree C
|
|
Lower_noncritical_threshold
|
N/A
|
|
Lower_critical_threshold
|
N/A
|
|
Lower_nonrecov_threshold
|
N/A
|
|
Sensor ID
|
ps0.prsnt (0x1c)
|
|
Entity ID
|
10.0 (Power Supply)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ps0.pwrok (0x1d)
|
|
Entity ID
|
10.0 (Power Supply)
|
|
Sensor Type (Discrete)
|
Power Supply
|
|
States Asserted
|
Digital State
|
|
|
[State Asserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[State Deasserted]
|
|
|
[State Asserted]
|
|
Sensor ID
|
ps0.vinok (0x1e)
|
|
Entity ID
|
10.0 (Power Supply)
|
|
Sensor Type (Discrete)
|
Power Supply
|
|
States Asserted
|
Digital State
|
|
|
[State Asserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[State Deasserted]
|
|
|
[State Asserted]
|
|
Sensor ID
|
ps1.prsnt (0x1f)
|
|
Entity ID
|
10.1 (Power Supply)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Absent]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ps1.pwrok (0x20)
|
|
Entity ID
|
10.1 (Power Supply)
|
|
Sensor Type (Discrete)
|
Power Supply
|
|
Assertions Enabled
|
Digital State
|
|
|
[State Deasserted]
|
|
|
[State Asserted]
|
|
Sensor ID
|
ps1.vinok (0x21)
|
|
Entity ID
|
10.1 (Power Supply)
|
|
Sensor Type (Discrete)
|
Power Supply
|
|
Assertions Enabled
|
Digital State
|
|
|
[State Deasserted]
|
|
|
[State Asserted]
|
|
Sensor ID
|
io.t_amb (0x22)
|
|
Upper nonrecoverable
|
80.000
|
|
Upper critical
|
75.000
|
|
Upper noncritical
|
70.000
|
|
Sensor ID
|
io.id0.prsnt (0x23)
|
|
Entity ID
|
15.0 (Drive Backplane)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Absent]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
io.id1.prsnt (0x24)
|
|
Entity ID
|
15.0 (Drive Backplane)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
io.f0.prsnt (0x25)
|
|
Entity ID
|
15.0 (Drive Backplane)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
io.f0.speed (0x26)
|
|
Upper nonrecoverable
|
8000.000
|
|
Lower nonrecoverable
|
3000.000
|
|
Sensor ID
|
io.hdd0.fail (0x28)
|
|
Entity ID
|
4.0 (Disk or Disk Bay)
|
|
Sensor Type (Discrete)
|
Drive Slot / Bay
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
io.hdd1.fail (0x29)
|
|
Entity ID
|
4.1 (Disk or Disk Bay)
|
|
Sensor Type (Discrete)
|
Drive Slot / Bay
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
io.hdd2.fail (0x2a)
|
|
Entity ID
|
4.2 (Disk or Disk Bay)
|
|
Sensor Type (Discrete)
|
Drive Slot / Bay
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
io.hdd3.fail (0x2b)
|
|
Entity ID
|
4.3 (Disk or Disk Bay)
|
|
Sensor Type (Discrete)
|
Drive Slot / Bay
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p0.t_core (0x2c)
|
|
Type
|
Temperature
|
|
Class
|
Threshold Sensor
|
|
Value
|
Not Readable
|
|
Upper_nonrecov_threshold
|
75.000 degree C
|
|
Upper_critical_threshold
|
67.000 degree C
|
|
Upper_noncritical_threshold
|
62.000 degree C
|
|
Lower_noncritical_threshold
|
N/A
|
|
Lower_critical_threshold
|
N/A
|
|
Lower_nonrecov_threshold
|
N/A
|
|
Sensor ID
|
p0.v_vdd (0x2d)
|
|
Type
|
Voltage
|
|
Class
|
Threshold Sensor
|
|
Value
|
Not Readable
|
|
Nonrecov_threshold
|
0.792 Volts
|
|
Upper_nonrecov_threshold
|
1.800 Volts
|
|
Upper_critical_threshold
|
1.692 Volts
|
|
Upper_noncritical_threshold
|
1.596 Volts
|
|
Lower_noncritical_threshold
|
0.996 Volts
|
|
Lower_critical_threshold
|
0.900 Volts
|
|
Lower_nonrecov_threshold
|
0.792 Volts
|
|
Sensor ID
|
p0.v_vddio (0x2e) and p1.v_vddio (0x37)
/SYS/MB/P0/V_VDDIO
|
|
Type
|
Voltage
|
|
Class
|
Threshold Sensor
|
|
Value
|
Not Readable
|
|
Upper_nonrecov_threshold
|
2.196 Volts
|
|
Upper_critical_threshold
|
2.100 Volts
|
|
Upper_noncritical_threshold
|
1.992 Volts
|
|
Lower_noncritical_threshold
|
1.596 Volts
|
|
Lower_critical_threshold
|
1.500 Volts
|
|
Lower_nonrecov_threshold
|
1.392 Volts
|
|
Sensor ID
|
p0.v_vtt (0x2f)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Class
|
Threshold Sensor
|
|
Value
|
Not Readable
|
|
Upper nonrecoverable threshold
|
1.200 Volts
|
|
Upper critical threshold
|
1.092 Volts
|
|
Upper noncritical threshold
|
0.996 Volts
|
|
Lower noncritical threshold
|
0.792 Volts
|
|
Lower critical threshold
|
0.696 Volts
|
|
Lower nonrecoverable threshold
|
0.600 Volts
|
|
Sensor ID
|
p0.fail (0x30)
|
|
Entity ID
|
3.0 (Processor)
|
|
Sensor Type (Discrete)
|
Processor
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p0.d0.fail (0x31)
|
|
Entity ID
|
32.0 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p0.d1.fail (0x32)
|
|
Entity ID
|
32.1 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p0.d2.fail (0x33)
|
|
Entity ID
|
32.2 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p0.d3.fail (0x34)
|
|
Entity ID
|
32.3 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p1.t_core (0x35)
|
|
Entity ID
|
3.1 (Processor)
|
|
Sensor Type (Analog)
|
Temperature
|
|
Sensor Reading
|
44 (+/- 0) degrees C
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
75.000
|
|
Upper critical
|
65.000
|
|
Upper noncritical
|
60.000
|
|
Positive Hysteresis
|
2.000
|
|
Negative Hysteresis
|
2.000
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
unc ucr unr
|
|
Settable Thresholds
|
unc ucr unr
|
|
Threshold Read Mask
|
unc ucr unr
|
|
Assertions Enabled
|
ucr+ unr+
|
|
Deassertions Enabled
|
ucr+ unr+
|
|
Sensor ID
|
p1.v_vdd (0x36)
|
|
Entity ID
|
3.1 (Processor)
|
|
Sensor Type (Analog)
|
Voltage
|
|
Sensor Reading
|
1.452 (+/- 0) Volts
|
|
Status
|
OK
|
|
Upper nonrecoverable
|
1.8
|
|
Upper critical
|
1.7
|
|
Upper noncritical
|
1.6
|
|
Lower nonrecoverable
|
0.8
|
|
Lower critical
|
0.9
|
|
Lower noncritical
|
1.0
|
|
Positive Hysteresis
|
0.096
|
|
Negative Hysteresis
|
0.096
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
p1.v_vtt (0x38)
|
|
Type
|
Voltage
|
|
Class
|
Threshold sensor
|
|
Value
|
Not readable
|
|
Upper non-reoverable threshold
|
1.200 volts
|
|
Upper critical threshold
|
1.092 volts
|
|
Upper noncritical threshold
|
0.996 volts
|
|
Lower noncritical threshold
|
0.792 volts
|
|
Lower critical threshold
|
0.696 volts
|
|
Lower nonrecoverable threshold
|
0.600 volts
|
|
Minimum sensor range
|
Unspecified
|
|
Maximum sensor range
|
Unspecified
|
|
Event Message Control
|
Per-threshold
|
|
Readable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Settable Thresholds
|
lnr lcr lnc unc ucr unr
|
|
Threshold Read Mask
|
lnr lcr lnc unc ucr unr
|
|
Assertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Deassertions Enabled
|
lnc- lcr- lnr- unc+ ucr+ unr+
|
|
Sensor ID
|
p1.fail (0x39)
|
|
Entity ID
|
3.1 (Processor)
|
|
Sensor Type (Discrete)
|
Processor
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p1.d0.fail (0x3a)
|
|
Entity ID
|
32.4 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p1.d1.fail (0x3b)
|
|
Entity ID
|
32.5 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p1.d2.fail (0x3c)
|
|
Entity ID
|
32.6 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
p1.d3.fail (0x3d)
|
|
Entity ID
|
32.7 (Memory Device)
|
|
Sensor Type (Discrete)
|
Memory
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
ft0.fm0.fail (0x3e)
|
|
Entity ID
|
29.0 (Fan Device)
|
|
Sensor Type (Discrete)
|
Fan
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
ft0.fm1.fail (0x3f)
|
|
Entity ID
|
29.1 (Fan Device)
|
|
Sensor Type (Discrete)
|
Fan
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
ft0.fm2.fail (0x40)
|
|
Entity ID
|
29.2 (Fan Device)
|
|
Sensor Type (Discrete)
|
Fan
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
ft1.fm0.fail (0x41)
|
|
Entity ID
|
29.3 (Fan Device)
|
|
Sensor Type (Discrete)
|
Fan
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
ft1.fm1.fail (0x42)
|
|
Entity ID
|
29.4 (Fan Device)
|
|
Sensor Type (Discrete)
|
Fan
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
ft1.fm2.fail (0x43)
|
|
Entity ID
|
29.5 (Fan Device)
|
|
Sensor Type (Discrete)
|
Fan
|
|
States Asserted
|
Digital State
|
|
|
[Predictive Failure Deasserted]
|
|
Assertions Enabled
|
Digital State
|
|
|
[Predictive Failure Asserted]
|
|
Sensor ID
|
ft0.fm0.prsnt (0x44)
|
|
Entity ID
|
29.0 (Fan Device)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ft0.fm1.prsnt (0x45)
|
|
Entity ID
|
29.1 (Fan Device)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ft0.fm2.prsnt (0x46)
|
|
Entity ID
|
29.2 (Fan Device)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ft1.fm0.prsnt (0x47)
|
|
Entity ID
|
29.3 (Fan Device)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ft1.fm1.prsnt (0x48)
|
|
Entity ID
|
29.4 (Fan Device)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ft1.fm2.prsnt (0x49)
|
|
Entity ID
|
29.5 (Fan Device)
|
|
Sensor Type (Discrete)
|
Entity Presence
|
|
States Asserted
|
Availability State
|
|
|
[Device Present]
|
|
Assertions Enabled
|
Availability State
|
|
|
[Device Absent]
|
|
|
[Device Present]
|
|
Sensor ID
|
ft0.fm0.f0.speed (0x4a),
ft0.fm1.f0.speed (0x4b),
ft0.fm2.f0.speed (0x4c),
ft1.fm0.f0.speed (0x4d),
ft1.fm1.f0.speed (0x4e),
ft1.fm2.f0.speed (0x4f)
|
|
Type
|
Fan
|
|
Class
|
Threshold Sensor
|
|
Value
|
Not Readable
|
|
Upper_nonrecov_threshold
|
22000.000 RPM
|
|
Upper_critical_threshold
|
N/A
|
|
Upper_noncritical_threshold
|
N/A
|
|
Lower_noncritical_threshold
|
N/A
|
|
Lower_critical_threshold
|
N/A
|
|
Lower_nonrecov_threshold
|
3000.000 RPM
|
| Integrated Lights Out Manager (ILOM) Supplement for Sun Fire X4100/X4100 M2 and X4200/X4200 M2 Servers
|
819-5464-16
|
    |
Copyright © 2010 Sun Microsystems, Inc. All rights reserved.