| Asset ID: |
1-79-1346085.1 |
| Update Date: | 2018-05-09 |
| Keywords: | |
Solution Type
Predictive Self-Healing Sure
Solution
1346085.1
:
Netra CT900 ShMM debug.log analysis
| Related Categories |
- PLA-Support>Sun Systems>SPARC>Usx/Blade/Netra>SN-SPARC: Netra Cxxxx
- _Old GCS Categories>Sun Microsystems>Servers>NEBS-Certified Servers
|
In this Document
Applies to:
Sun Netra CT900 Server - Version Not Applicable to Not Applicable [Release N/A]
Information in this document applies to any platform.
Purpose
This document describes how to obtain/analyze a Netra CT900 ShMM debug log.
Details
The Netra CT900 ShMM is the system controller for the chassis, and it is equivalent to SC or CMM. It obtains system event logs & other information that is useful to troubleshoot chassis component problems. Some information can be obtained after a failure in debug.log file (equivalent as ShMM's explorer) & is obtained from ShMM using command "/etc/summary", which will creates file /tmp/debug.log.
The debug.log is a text file that contains output from many ShMM commands; including below:
Shelfman version:
>>> Shelfman version
Pigeon Point Shelf Manager ver. 2.4.8-R3U1P1-RR
This lists the ShMM firmware version, R3U1P1 in this case. This is output from command: "[clia] version".
Document 1345656.1 lists the firmware versions.
Shelfman status:
>>> Shelfman status
Host: "Active"
Ready For Operation: Yes
Detailed State Flags: "Shelf FRU Found" "Backup Healthy" "Initial Update Sent" "Initial Update Received" "RMCP Up"
>>> ShMC IPMB Address
Local IPMB Address = 0x10
This output indicates that the active ShMM is operational & backup ShMM is healthy. This is output from command: "[clia] shmstatus -v" & "[clia] localaddress"
shm1 (top ShMM) has IPMB Address of 0x10; shm2 (bottom) 0x12.
Board Information:
>>> Board Information
Physical Slot # 1
9a: Entity: (0xa0, 0x60) Maximum FRU device ID: 0x02
PICMG Version 2.2
Hot Swap State: M4 (Active), Previous: M3 (Activation In Process), Last State Change Cause: Normal State Change (0x0)
9a: FRU # 0
Entity: (0xa0, 0x60)
Hot Swap State: M4 (Active), Previous: M3 (Activation In Process), Last State Change Cause: Normal State Change (0x0)
Device ID String: "NetraCP-3060"
9a: FRU # 1
Entity: (0xc0, 0x60)
Hot Swap State: M4 (Active), Previous: M3 (Activation In Process), Last State Change Cause: Normal State Change (0x0)
Device ID String: "CP3060 RTM"
9a: FRU # 2
Entity: (0xc1, 0x61)
Hot Swap State: M4 (Active), Previous: M5 (Deactivation Request), Last State Change Cause: State Change due to operator changing a Handle latch (0x2)
Device ID String: "INPH-3676"
===========================
This is a portion of output from command: "[clia] board". Items to take note of are:
1. 9a is associated with the IPMB address of slot 1 per the table below.
============================================================
Physical Slot 1 2 3 4 5 6 7 8 9 10 11 12 13 14
IPMB-Address (Hex) 9A 96 92 8E 8A 86 82 84 88 8C 90 94 98 9c
shm1 (top) has IPMB address of 0x10; shm2 (bottome) 0x12; and chassis 0x20.
2. NOTE: There are 3 FRUs associated with this slot's blade: 0 for the blade which lists type (3060), 1 for its RTM, & 2 for its Advanced Mezzanine Card (AMC).
3. The current & previous hot swap states are displayed for each FRU. The states are defined as follows:
| State | Summary | Explanation |
|---|
| M0 |
Not Installed |
FRU IPMC is not reachable. All power to the FRU is off. The blue LED is off. |
| M1 |
FRU Inactive |
The FRU is installed and its IPMC is in communication with the ShMM. The blue LED is on solid. The FRU is not powered up, and none of its connectivity is active. The next state is either M0 or M2. |
| M2 |
FRU Activation Request |
The FRU IPMC is waiting for activation permission from the ShMM. The blue LED has a long blink. FRU removal is not safe. The next state is M3. |
| M3 |
Activation in Progress |
The FRU's IPMC requests power allocation form the ShMM. The blue LED is off. The FRU changes to state M4 when activation is complete. |
| M4 |
FRU Active |
This is the normal FRU operational state. The FRU is powered on and cannot be removed safely. The blue LED is off. The next state is either M5 or M6. |
| M5 |
FRU Deactivation Request |
The FRU's IPMC is requesting deactivation permission form the ShMM. The blue LED shows a short blink. The next state is M6. |
| M6 |
FRU Deactivation in Progress |
The FRU is shutting down and its I/O connections are being deactivated. The blue LED continues its short blink. The next state is M1. |
| M7 |
Communication Lost |
The ShMM has lost contact with the board IPMC, or the board IPMC has lost contact with its own FRUs. This is an abnormal state. The board should return to its previous state when IPMC communication is reestablished. |
The typical states are current M4 & previous is M3. Also, M7 does not indicate that blade is "down", just blade could not communicate to ShMM --- usually a time-out and will recover later automatically.
Fan List:
>>> Fan List
20: FRU # 3
Current Level: 5
Minimum Speed Level: 0, Maximum Speed Level: 15
20: FRU # 4
Current Level: 5
Minimum Speed Level: 0, Maximum Speed Level: 15
20: FRU # 5
Current Level: 5
Minimum Speed Level: 0, Maximum Speed Level: 15
This is output from command: "[clia] fans". NOTE: Fans are typically running speed 5 for normal temperature environments. This speed jump to level 15 at 26 C ambient.
>>> Fan State
Fans state: "Normal"
Sensor(s) at this state: (0x10,8,0) (0x10,10,0) (0x10,11,0) (0x10,13,0)
(0x10,14,0) (0x10,7,0)
This is output form command "[clia] shelf fs". If there is a problem on the fan state, the sensor that has abnormal state will be listed.
System Event Log:
>>> System Event Log
0x01B2: Event: at Jan 27 22:35:09 2010; from:(0x9a,0,0); sensor:(0x02,9); event:0x1(asserted): "Lower Non-Recoverable", 0x04 0xFF 0xFF
0x01B3: Event: at Jan 27 22:43:13 2010; from:(0x9a,0,0); sensor:(0x02,9); event:0x1(deasserted): "Lower Non-Recoverable", 0x04 0xFF 0xFF
This is partial output from command: "[clia] sel".
1. Each row's first hex number corresponds to the event number in ascending order followed by the date of the event.
2. The "from:()" entries correspond to board/FRU location as explained in the Board Information section described above. In this case 0x9a,0,0 corresponds to slot 1, FRU 0 (the blade), LUN 0.
3. The "sensor:()" entries correspond which sensor is related to this event. In these cases the sensor type is 0x02 which is a voltage sensor (0x01 is temperature) and sensor 9 corresponds to the 5.0V source as shown in CP3060 Sensor List shown in final section of this document.
4. The "event"#()" entries indicate if the sensor is within threshold (deasserted), or cross threshold (asserted).
5. The last hex text provides additional information about the event; and can be viewed using "[clia] sel -v".
Shelfman output to syslog:
>>> Shelfman output to syslog
Jan 5 15:02:56 SAT01EBSC03_shmm1 syslog.info -- MARK --
Jan 5 15:03:54 SAT01EBSC03_shmm1 daemon.err [217]: Status change on IPMB 0: flags = c00102 (ONL,ATT_CH,ERR_FAIL,ERR_SLAVE)
Jan 5 15:03:54 SAT01EBSC03_shmm1 daemon.err [217]: IPMB 0 lost attachment
Jan 5 15:03:54 SAT01EBSC03_shmm1 daemon.info [217]: IPMB 0 lost physical connection, reattachment status=0
This contains a small portion of OS and shelf management messages which can be obtained by command: "cat /var/log/messages". The MARK message can be configured to occur at 20 minute intervals & used as a heartbeat to determine roughly when a hang occurs. The other messages correspond to a problem with the ShMM to board (and other ShMM) control bus (IPMB) 0.
Sensor Lists:
The following lists (+ values/limits) are obtained via command: "[clia] sensordata [IPMB-address | board #]".
Chassis Sensors:
20: LUN: 0, Sensor # 0 ("FRU 0 HOT_SWAP")
20: LUN: 0, Sensor # 2 ("FRU 1 HOT_SWAP")
20: LUN: 0, Sensor # 3 ("FRU 2 HOT_SWAP")
20: LUN: 0, Sensor # 4 ("FRU 8 HOT_SWAP")
20: LUN: 0, Sensor # 5 ("FRU 3 HOT_SWAP")
20: LUN: 0, Sensor # 6 ("FRU 4 HOT_SWAP")
20: LUN: 0, Sensor # 7 ("FRU 5 HOT_SWAP")
20: LUN: 0, Sensor # 8 ("FRU 6 HOT_SWAP")
20: LUN: 0, Sensor # 9 ("FRU 7 HOT_SWAP")
20: LUN: 0, Sensor # 10 ("IPMB LINK 1")
20: LUN: 0, Sensor # 11 ("IPMB LINK 2")
20: LUN: 0, Sensor # 12 ("Fan Tray 0")
20: LUN: 0, Sensor # 13 ("Fan Tray 1")
20: LUN: 0, Sensor # 14 ("Fan Tray 2")
20: LUN: 0, Sensor # 15 ("IPMB LINK 3")
20: LUN: 0, Sensor # 16 ("IPMB LINK 4")
20: LUN: 0, Sensor # 17 ("IPMB LINK 5")
20: LUN: 0, Sensor # 18 ("IPMB LINK 6")
20: LUN: 0, Sensor # 19 ("IPMB LINK 7")
20: LUN: 0, Sensor # 20 ("IPMB LINK 8")
20: LUN: 0, Sensor # 21 ("IPMB LINK 9")
20: LUN: 0, Sensor # 22 ("IPMB LINK 10")
20: LUN: 0, Sensor # 23 ("IPMB LINK 11")
20: LUN: 0, Sensor # 24 ("IPMB LINK 12")
20: LUN: 0, Sensor # 25 ("IPMB LINK 13")
20: LUN: 0, Sensor # 26 ("IPMB LINK 14")
20: LUN: 0, Sensor # 27 ("IPMB LINK 15")
20: LUN: 0, Sensor # 119 ("TelcoAlarmInput")
20: LUN: 0, Sensor # 120 ("Center Exhaust")
20: LUN: 0, Sensor # 121 ("Left Exhaust")
20: LUN: 0, Sensor # 122 ("Right Exhaust")
20: LUN: 0, Sensor # 123 ("SAP Temp")
20: LUN: 0, Sensor # 124 ("Temp_In Left")
20: LUN: 0, Sensor # 125 ("Temp_In Center")
20: LUN: 0, Sensor # 126 ("Temp_In Right")
20: LUN: 0, Sensor # 131 ("TELCO Alarms")
20: LUN: 0, Sensor # 132 ("BMC Watchdog")
20: LUN: 0, Sensor # 133 ("SYSTEM EVENT")
20: LUN: 0, Sensor # 135 ("FT Oper.Status")
20: LUN: 0, Sensor # 136 ("Cooling State")
20: LUN: 0, Sensor # 137 ("Fans State")
20: LUN: 0, Sensor # 138 ("SHM Redundancy")
20: LUN: 0, Sensor # 150 ("Air Filter")
20: LUN: 0, Sensor # 152 ("SAP")
20: LUN: 0, Sensor # 162 ("PEM A In 2")
20: LUN: 0, Sensor # 163 ("PEM A In 2 Fused")
20: LUN: 0, Sensor # 164 ("PEM A In 1")
20: LUN: 0, Sensor # 165 ("PEM A In 1 Fused")
20: LUN: 0, Sensor # 166 ("PEM A In 4")
20: LUN: 0, Sensor # 167 ("PEM A In 4 Fused")
20: LUN: 0, Sensor # 168 ("PEM A In 3")
20: LUN: 0, Sensor # 169 ("PEM A In 3 Fused")
20: LUN: 0, Sensor # 174 ("PEM B In 2")
20: LUN: 0, Sensor # 175 ("PEM B In 2 Fused")
20: LUN: 0, Sensor # 176 ("PEM B In 1")
20: LUN: 0, Sensor # 177 ("PEM B In 1 Fused")
20: LUN: 0, Sensor # 178 ("PEM B In 4")
20: LUN: 0, Sensor # 179 ("PEM B In 4 Fused")
20: LUN: 0, Sensor # 180 ("PEM B In 3")
20: LUN: 0, Sensor # 181 ("PEM B In 3 Fused")
20: LUN: 0, Sensor # 192 ("PEM A")
20: LUN: 0, Sensor # 193 ("PEM B")
20: LUN: 0, Sensor # 194 ("Shelf EEPROM 1")
20: LUN: 0, Sensor # 195 ("Shelf EEPROM 2")
20: LUN: 0, Sensor # 200 ("PEM A Temp")
20: LUN: 0, Sensor # 201 ("PEM B Temp")
20: LUN: 0, Sensor # 208 ("24V FT 0")
20: LUN: 0, Sensor # 209 ("-48A bus FT 0")
20: LUN: 0, Sensor # 210 ("-48A FT 0")
20: LUN: 0, Sensor # 211 ("-48B bus FT 0")
20: LUN: 0, Sensor # 212 ("-48B FT 0")
20: LUN: 0, Sensor # 213 ("-48A FT 0 Fuse")
20: LUN: 0, Sensor # 214 ("-48B FT 0 Fuse")
20: LUN: 0, Sensor # 215 ("24V FT 1")
20: LUN: 0, Sensor # 216 ("-48A bus FT 1")
20: LUN: 0, Sensor # 217 ("-48A FT 1")
20: LUN: 0, Sensor # 218 ("-48B bus FT 1")
20: LUN: 0, Sensor # 219 ("-48B FT 1")
20: LUN: 0, Sensor # 220 ("-48A FT 1 Fuse")
20: LUN: 0, Sensor # 221 ("-48B FT 1 Fuse")
20: LUN: 0, Sensor # 222 ("24V FT 2")
20: LUN: 0, Sensor # 223 ("-48A bus FT 2")
20: LUN: 0, Sensor # 224 ("-48A FT 2")
20: LUN: 0, Sensor # 225 ("-48B bus FT 2")
20: LUN: 0, Sensor # 226 ("-48B FT 2")
20: LUN: 0, Sensor # 227 ("-48A FT 2 Fuse")
20: LUN: 0, Sensor # 228 ("-48B FT 2 Fuse")
20: LUN: 0, Sensor # 244 ("3V3_RAD")
ARTM Sensors for one of the slot:
9a: LUN: 0, Sensor # 24 ("ARTM 3V3STBY") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 25 ("ARTM 3V3MAIN") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 26 ("ARTM 12V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 27 ("ARTM 5V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 28 ("ARTM 1V2") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 29 ("ARTM TEMP-AIR") Type: Threshold (0x01), "Temperature" (0x01)
9a: LUN: 0, Sensor # 30 ("ARTM TEMP-LSI") Type: Threshold (0x01), "Temperature" (0x01)
9a: LUN: 0, Sensor # 31 ("ARTM TEMP-ADM") Type: Threshold (0x01), "Temperature" (0x01)
CP3060 Sensors:
92: LUN: 0, Sensor # 0 ("FRU 0 Hot Swap")
92: LUN: 0, Sensor # 1 ("RTM Hot Swap")
92: LUN: 0, Sensor # 2 ("HotSwap AMC 0")
92: LUN: 0, Sensor # 3 ("IPMB Physical")
92: LUN: 0, Sensor # 4 ("BMC Watchdog")
92: LUN: 0, Sensor # 5 ("CPU Temp1")
92: LUN: 0, Sensor # 6 ("CPU Temp2")
92: LUN: 0, Sensor # 7 ("Board Temp")
92: LUN: 0, Sensor # 8 ("12.0V")
92: LUN: 0, Sensor # 9 ("5.0V")
92: LUN: 0, Sensor # 10 ("3.3V")
92: LUN: 0, Sensor # 11 ("3.3V STBY")
92: LUN: 0, Sensor # 12 ("2.5V STBY")
92: LUN: 0, Sensor # 13 ("1.0V")
92: LUN: 0, Sensor # 14 ("1.2V CPU")
92: LUN: 0, Sensor # 15 ("1.2V")
92: LUN: 0, Sensor # 16 ("1.5V")
92: LUN: 0, Sensor # 17 ("0.9V VTTL")
92: LUN: 0, Sensor # 18 ("0.9V VTTR")
92: LUN: 0, Sensor # 19 ("1.8V DDR2L")
92: LUN: 0, Sensor # 20 ("1.8V DDR2R")
92: LUN: 0, Sensor # 21 ("2.5V")
92: LUN: 0, Sensor # 22 ("1.2V STBY")
92: LUN: 0, Sensor # 23 ("AMC 12V")
92: LUN: 0, Sensor # 24 ("AMC 3.3V")
92: LUN: 0, Sensor # 25 ("RTM Presence")
92: LUN: 0, Sensor # 26 ("Version change")
92: LUN: 0, Sensor # 27 ("+3.3V")
92: LUN: 0, Sensor # 28 ("+5V")
92: LUN: 0, Sensor # 29 ("+12V")
92: LUN: 0, Sensor # 30 ("LM60 Temp")
92: LUN: 0, Sensor # 31 ("DS75 Temp")
92: LUN: 0, Sensor # 32 ("BMC Watchdog")
92: LUN: 0, Sensor # 33 ("Exhaust Temp")
CP3260 Sensors:
9a: LUN: 0, Sensor # 0 ("FRU 0 Hot Swap") Type: Discrete (0x6f), "Hot Swap" (0xf0)
9a: LUN: 0, Sensor # 2 ("IPMB Physical") Type: Discrete (0x6f), "IPMB Link" (0xf1)
9a: LUN: 0, Sensor # 3 ("BMC Watchdog") Type: Discrete (0x6f), "Watchdog 2" (0x23)
9a: LUN: 0, Sensor # 4 ("CPU Temp1") Type: Threshold (0x01), "Temperature" (0x01)
9a: LUN: 0, Sensor # 5 ("CPU Temp2") Type: Threshold (0x01), "Temperature" (0x01)
9a: LUN: 0, Sensor # 6 ("Board Temp") Type: Threshold (0x01), "Temperature" (0x01)
9a: LUN: 0, Sensor # 7 ("12.0V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 8 ("5.0V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 9 ("3.3V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 10 ("3.3V STBY") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 11 ("3.0 VBAT/STBY") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 12 ("1.0V VDD") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 13 ("1.1V/1.28V CPU") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 14 ("VDD 1.1V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 15 ("1.5V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 16 ("VDD 1.55V/1.8V F") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 17 ("VDD 2.5V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 18 ("VDD_IO 1.2V") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 1 ("ARTM HotSwap") Type: Discrete (0x6f), "Hot Swap" (0xf0)
9a: LUN: 0, Sensor # 19 ("Version change") Type: Discrete (0x6f), "reserved" (0x2b)
9a: LUN: 0, Sensor # 20 ("P48V Alarm") Type: Discrete (0x70), "OEM reserved" (0xc0)
9a: LUN: 0, Sensor # 23 ("VDD 1.8V M0") Type: Threshold (0x01), "Voltage" (0x02)
9a: LUN: 0, Sensor # 21 ("Sys fw progress") Type: Discrete (0x6f), "System Firmware Progress " (0x0f)
9a: LUN: 0, Sensor # 22 ("Graceful reboot") Type: Discrete (0x6f), "OEM reserved" (0xc0)
T3-1BA Sensors:
90: LUN: 0, Sensor # 0 ("FRU 0 Hot Swap")
90: LUN: 0, Sensor # 2 ("IPMB Physical")
90: LUN: 0, Sensor # 3 ("BMC Watchdog")
90: LUN: 0, Sensor # 4 ("CPU 0 Temp")
90: LUN: 0, Sensor # 5 ("CPU 1 Temp")
90: LUN: 0, Sensor # 6 ("Vbat")
90: LUN: 0, Sensor # 7 ("3.3V STBY")
90: LUN: 0, Sensor # 8 ("12.0V")
90: LUN: 0, Sensor # 9 ("5.0V")
90: LUN: 0, Sensor # 10 ("3.3V MAIN")
90: LUN: 0, Sensor # 11 ("B0 BDD 1.1V")
90: LUN: 0, Sensor # 12 ("B1 VDD 1.1V")
90: LUN: 0, Sensor # 13 ("B2 VDD 1.1V")
90: LUN: 0, Sensor # 14 ("B3 VDD 1.1V")
90: LUN: 0, Sensor # 15 ("RF CPU VDD 1.5V")
90: LUN: 0, Sensor # 16 ("VTT M0 0.75V")
90: LUN: 0, Sensor # 17 ("VDD M0 1.5V")
90: LUN: 0, Sensor # 18 ("VDD 1.5V")
90: LUN: 0, Sensor # 19 ("VDD 2.5V")
90: LUN: 0, Sensor # 20 ("Version change")
90: LUN: 0, Sensor # 21 ("System Event")
90: LUN: 0, Sensor # 22 ("P48V alarm")
90: LUN: 0, Sensor # 23 ("Sys fw progress")
90: LUN: 0, Sensor # 24 ("Graceful reboot")
90: LUN: 0, Sensor # 25 ("Slot power")
90: LUN: 0, Sensor # 26 ("Thermal trip")
Connectivity:
If there are non-working interfaces, check the connectivity record in "Shelf FRU Info" section:
>>> Shelf FRU Info
PICMG Backplane Point-to-Point Connectivity Record (ID=0x04)
Version = 0
P2P Slot Descriptor:
Channel Type = 0x0D PICMG 3.0 ShMC Cross-Connect
LocalSlot/HW Address = 0x41
Channel Count = 0x02
Channel Descriptor = LocalChannel 1, RemoteChannel 1, RemoteSlot 0x08
Channel Descriptor = LocalChannel 2, RemoteChannel 2, RemoteSlot 0x09
P2P Slot Descriptor:
Channel Type = 0x0D PICMG 3.0 ShMC Cross-Connect
LocalSlot/HW Address = 0x42
Channel Count = 0x02
Channel Descriptor = LocalChannel 1, RemoteChannel 1, RemoteSlot 0x09
Channel Descriptor = LocalChannel 2, RemoteChannel 2, RemoteSlot 0x08
P2P Slot Descriptor:
Channel Type = 0x0B PICMG 3.0 Base Interface
LocalSlot/HW Address = 0x41
Channel Count = 0x0D
Channel Descriptor = LocalChannel 2, RemoteChannel 2, RemoteSlot 0x42
Channel Descriptor = LocalChannel 3, RemoteChannel 1, RemoteSlot 0x43
Channel Descriptor = LocalChannel 4, RemoteChannel 1, RemoteSlot 0x44
Channel Descriptor = LocalChannel 5, RemoteChannel 1, RemoteSlot 0x45
Channel Descriptor = LocalChannel 6, RemoteChannel 1, RemoteSlot 0x46
Channel Descriptor = LocalChannel 7, RemoteChannel 1, RemoteSlot 0x47
Channel Descriptor = LocalChannel 8, RemoteChannel 1, RemoteSlot 0x48
Channel Descriptor = LocalChannel 9, RemoteChannel 1, RemoteSlot 0x49
Channel Descriptor = LocalChannel 10, RemoteChannel 1, RemoteSlot 0x4A
Channel Descriptor = LocalChannel 11, RemoteChannel 1, RemoteSlot 0x4B
Channel Descriptor = LocalChannel 12, RemoteChannel 1, RemoteSlot 0x4C
Channel Descriptor = LocalChannel 13, RemoteChannel 1, RemoteSlot 0x4D
Channel Descriptor = LocalChannel 14, RemoteChannel 1, RemoteSlot 0x4E
P2P Slot Descriptor:
Channel Type = 0x0B PICMG 3.0 Base Interface
LocalSlot/HW Address = 0x42
Channel Count = 0x0D
Channel Descriptor = LocalChannel 2, RemoteChannel 2, RemoteSlot 0x41
Channel Descriptor = LocalChannel 3, RemoteChannel 2, RemoteSlot 0x43
Channel Descriptor = LocalChannel 4, RemoteChannel 2, RemoteSlot 0x44
Channel Descriptor = LocalChannel 5, RemoteChannel 2, RemoteSlot 0x45
Channel Descriptor = LocalChannel 6, RemoteChannel 2, RemoteSlot 0x46
Channel Descriptor = LocalChannel 7, RemoteChannel 2, RemoteSlot 0x47
Channel Descriptor = LocalChannel 8, RemoteChannel 2, RemoteSlot 0x48
Channel Descriptor = LocalChannel 9, RemoteChannel 2, RemoteSlot 0x49
Channel Descriptor = LocalChannel 10, RemoteChannel 2, RemoteSlot 0x4A
Channel Descriptor = LocalChannel 11, RemoteChannel 2, RemoteSlot 0x4B
Channel Descriptor = LocalChannel 12, RemoteChannel 2, RemoteSlot 0x4C
Channel Descriptor = LocalChannel 13, RemoteChannel 2, RemoteSlot 0x4D
Channel Descriptor = LocalChannel 14, RemoteChannel 2, RemoteSlot 0x4E
PICMG Backplane Point-to-Point Connectivity Record (ID=0x04)
Version = 0
P2P Slot Descriptor:
Channel Type = 0x0A PICMG 3.0 Full Channel Fabric Interface
LocalSlot/HW Address = 0x41
Channel Count = 0x0D
Channel Descriptor = LocalChannel 1, RemoteChannel 1, RemoteSlot 0x42
Channel Descriptor = LocalChannel 2, RemoteChannel 1, RemoteSlot 0x43
Channel Descriptor = LocalChannel 3, RemoteChannel 1, RemoteSlot 0x44
Channel Descriptor = LocalChannel 4, RemoteChannel 1, RemoteSlot 0x45
Channel Descriptor = LocalChannel 5, RemoteChannel 1, RemoteSlot 0x46
Channel Descriptor = LocalChannel 6, RemoteChannel 1, RemoteSlot 0x47
Channel Descriptor = LocalChannel 7, RemoteChannel 1, RemoteSlot 0x48
Channel Descriptor = LocalChannel 8, RemoteChannel 1, RemoteSlot 0x49
Channel Descriptor = LocalChannel 9, RemoteChannel 1, RemoteSlot 0x4A
Channel Descriptor = LocalChannel 10, RemoteChannel 1, RemoteSlot 0x4B
Channel Descriptor = LocalChannel 11, RemoteChannel 1, RemoteSlot 0x4C
Channel Descriptor = LocalChannel 12, RemoteChannel 1, RemoteSlot 0x4D
Channel Descriptor = LocalChannel 13, RemoteChannel 1, RemoteSlot 0x4E
P2P Slot Descriptor:
Channel Type = 0x0A PICMG 3.0 Full Channel Fabric Interface
LocalSlot/HW Address = 0x42
Channel Count = 0x0D
Channel Descriptor = LocalChannel 1, RemoteChannel 1, RemoteSlot 0x41
Channel Descriptor = LocalChannel 2, RemoteChannel 2, RemoteSlot 0x43
Channel Descriptor = LocalChannel 3, RemoteChannel 2, RemoteSlot 0x44
Channel Descriptor = LocalChannel 4, RemoteChannel 2, RemoteSlot 0x45
Channel Descriptor = LocalChannel 5, RemoteChannel 2, RemoteSlot 0x46
Channel Descriptor = LocalChannel 6, RemoteChannel 2, RemoteSlot 0x47
Channel Descriptor = LocalChannel 7, RemoteChannel 2, RemoteSlot 0x48
Channel Descriptor = LocalChannel 8, RemoteChannel 2, RemoteSlot 0x49
Channel Descriptor = LocalChannel 9, RemoteChannel 2, RemoteSlot 0x4A
Channel Descriptor = LocalChannel 10, RemoteChannel 2, RemoteSlot 0x4B
Channel Descriptor = LocalChannel 11, RemoteChannel 2, RemoteSlot 0x4C
Channel Descriptor = LocalChannel 12, RemoteChannel 2, RemoteSlot 0x4D
Channel Descriptor = LocalChannel 13, RemoteChannel 2, RemoteSlot 0x4E
NOTE: 0x41 is switch blade in slot 7, and 0x42 slot 8
NOTE: LocalChannel is # on status LED panel of switch blade
NOTE: RemoteSlot is physical address of a slot, IPMB address is physical address multiple by 2:
physical address 0x43 x 2 = 0x86 (IPMB address) --- this is physical slot 6
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