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Microsoft Windows* Records
Table 92: Boot-up OEM Event Record Typical Characteristics
Byte
1
2
3
4
5
6
7
8
9
10
Record ID
Record Type
Timestamp
Field
IPMI Manufacturer ID
11 Record ID
ID used for SEL Record access.
[7:0] – DCh = OEM timestamped, bytes 8-16 OEM defined
Time when event was logged. LS byte first.
0137h (311d) = IANA enterprise number for Microsoft
Description
Sequential number reflecting the order in which the records are read. The numbers start at 1 for the first entry in the SEL and continue sequentially to n, the number of entries in the SEL.
Timestamp of when system booted into the OS 12
13
14
15
Boot Time
16 Reserved 00h
14.2 Shutdown Event Records
When the system shuts down from the Microsoft Windows* OS, there can be multiple events logged. The first is an OS Stop/Shutdown Event
Record; this can be followed by a shutdown reason code OEM record, and then zero or more shutdown comment OEM records. These are all informational only records.
94 Intel order number G74211-002 Revision 1.1
System Event Log Troubleshooting Guide for Intel
®
4
5
6
7
Byte
1
2
3
8
9
10
Record ID
Record Type
Timestamp
Field
IPMI Manufacturer ID
Table 93: Shutdown Reason Code Event Record Typical Characteristics
Byte
8
9
Field
Generator ID
11 Sensor Type
12 Sensor Number
13 Event Direction and
Event Type
14 Event Data 1
15 Event Data 2
16 Event Data 3
Description
0041h – System Software with an ID = 20h
20h = OS Stop/Shutdown
00h
[7] Event direction
0b = Assertion Event
1b = Deassertion Event
[6:0] Event Type = 6Fh (Sensor Specific)
[7:6] – 00b = Unspecified Event Data 2
[5:4] – 00b = Unspecified Event Data 3
[3:0] – Event Trigger Offset = 3h = OS Graceful Shutdown
Not used
Not used
Table 94: Shutdown Reason OEM Event Record Typical Characteristics
Description
ID used for SEL Record access.
[7:0] – DDh = OEM timestamped, bytes 8-16 OEM defined
Time when event was logged. LS byte first.
0137h (311d) = IANA enterprise number for Microsoft
Revision 1.1 Intel order number G74211-002
Microsoft Windows* Records
95
Microsoft Windows* Records
Byte
11 Record ID
Field
12
13
14
15
Shutdown Reason
16 Reserved
Description
Sequential number reflecting the order in which the records are read. The numbers start at 1 for the first entry in the SEL and continue sequentially to n, the number of entries in the SEL.
Shutdown Reason code from the registry (LSB first.):
HKLM/Software/Microsoft/Windows/CurrentVersion/Reliability/shutdown/ReasonCode
00h
Table 95: Shutdown Comment OEM Event Record Typical Characteristics
Description
ID used for SEL Record access.
[7:0] – DDh = OEM timestamped, bytes 8-16 OEM defined
Time when event was logged. LS byte first.
Byte
1
2
3
Record ID
Field
Record Type
4
5
6
7
8
9
10
Timestamp
IPMI Manufacturer ID
11 Record ID
12
13
14
15
Shutdown Comment
16 Reserved
96
0137h (311d) = IANA enterprise number for Microsoft
0157h (343) = IANA enterprise number for Intel
The value logged depends on the Intelligent Management Bus Driver (IMBDRV) that is loaded.
Sequential number reflecting the order in which the records are read. The numbers start at 1 for the first entry in the SEL and continue sequentially to n, the number of entries in the SEL.
Shutdown Comment from the registry (LSB first.):
HKLM/Software/Microsoft/Windows/CurrentVersion/Reliability/shutdown/Comment
00h
Intel order number G74211-002 Revision 1.1
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Table of contents
- 11 Introduction
- 11 Purpose
- 11 Industry Standard
- 11 Intelligent Platform Management Interface (IPMI)
- 12 Baseboard Management Controller (BMC)
- 13 Intelligent Power Node Manager Version
- 14 Basic Decoding of a SEL Record
- 14 Default Values in the SEL Records
- 18 Sensor Cross Reference List
- 18 BMC owned Sensors (GID = 0020h)
- 22 BIOS POST owned Sensors (GID = 0001h)
- 22 BIOS SMI owned Sensors (GID = 0033h)
- 24 Hot Swap Controller Firmware owned Sensors (GID = 00C0h/00C2h)
- 25 Node Manager / ME Firmware owned Sensors (GID = 002Ch or 602Ch)
- 26 Microsoft* OS owned Events (GID = 0041)
- 26 Linux* Kernel Panic Events (GID = 0021)
- 27 Power Subsystems
- 27 Voltage Sensors
- 31 Power Unit
- 31 Power Unit Status Sensor
- 32 Power Unit Redundancy Sensor
- 34 Power Supply
- 34 Power Supply Status Sensors
- 35 Power Supply AC Power Input Sensors
- 36 Power Supply Current Output % Sensors
- 37 Power Supply Temperature Sensors
- 39 Cooling Subsystem
- 39 Fan Sensors
- 39 Fan Speed Sensors
- 40 Fan Presence and Redundancy Sensors
- 43 Temperature Sensors
- 43 Regular Temperature Sensors
- 45 Thermal Margin Sensors
- 46 Processor Thermal Control % Sensors
- 47 Discrete Thermal Sensors
- 49 Processor Subsystem
- 49 Processor Status Sensor
- 50 Catastrophic Error Sensor
- 51 Catastrophic Error Sensor – Next Steps
- 51 CPU Missing Sensor
- 52 CPU Missing Sensor – Next Steps
- 52 QuickPath Interconnect Error Sensors
- 52 QPI Correctable Error Sensor
- 53 QPI Non-Fatal Error Sensor
- 54 QPI Fatal and Fatal
- 56 Memory Subsystem
- 56 Memory RAS Mirroring and Sparing
- 56 Mirroring Configuration Status
- 57 Mirrored Redundancy State Sensor
- 59 Sparing Configuration Status
- 60 Sparing Redundancy State Sensor
- 63 ECC and Address Parity
- 63 Memory Correctable and Uncorrectable ECC Error
- 65 Memory Address Parity Error
- 68 PCI Express* and Legacy PCI Subsystem
- 68 PCI Express* Errors
- 68 PCI Express* Correctable Errors
- 69 PCI Express* Fatal Errors
- 71 Legacy PCI Errors
- 73 System BIOS Events
- 73 System Events
- 73 System Boot
- 73 Timestamp Clock Synchronization
- 74 System Firmware Progress (Formerly Post Error)
- 75 System Firmware Progress (Formerly Post Error) – Next Steps
- 81 Chassis Subsystem
- 81 Physical Security
- 81 Chassis Intrusion
- 81 LAN Leash Lost
- 83 FP (NMI) Interrupt
- 83 FP (NMI) Interrupt – Next Steps
- 84 Button Press Events
- 85 Miscellaneous Events
- 85 IPMI Watchdog
- 87 SMI Timeout
- 87 SMI Timeout – Next Steps
- 88 System Event Log Cleared
- 88 System Event – PEF Action
- 89 System Event – PEF Action – Next Steps
- 90 Hot Swap Controller Events
- 90 HSC Backplane Temperature Sensor
- 91 HSC Drive Slot Status Sensor
- 92 HSC Drive Slot Status Sensor – Next Steps
- 92 HSC Drive Presence Sensor
- 93 HSC Drive Presence Sensor – Next Steps
- 95 Manageability Engine (ME) Events
- 95 Node Manager Exception Event
- 96 Node Manager Exception Event – Next Steps
- 96 Node Manager Health Event
- 97 Node Manager Health Event – Next Steps
- 98 Node Manager Operational Capabilities Change
- 99 Node Manager Operational Capabilities Change – Next Steps
- 100 Node Manager Alert Threshold Exceeded
- 101 Node Manager Alert Threshold Exceeded – Next Steps
- 101 ME Firmware Health Event
- 102 ME Firmware Health Event – Next Steps
- 103 Microsoft Windows* Records
- 103 Boot-up Event Records
- 104 Shutdown Event Records
- 107 Bug Check / Blue Screen Event Records
- 109 Linux* Kernel Panic Records