Help with debugging IBM AIX system hang issues when booting off an EMC fibre device.
Article Number:000046860 Version:1
Key Information
Audience: Level 30 = Customers
Article Type: Break Fix
Last Published: Fri May 31 00:24:15 GMT 2013
Validation Status: Final Approved
Summary:
Print Friendly View Rate This Article
Article Content
Attachments
Article Metadata
SR Linking
Article Content
Impact
Help with debugging IBM AIX system hang issues when booting off an EMC fibre device.
Issue
Host is booting off an EMC Fibre device
IBM AIX rootvg contains only one EMC device
IBM AIX host gets LED error 552 when booting of an EMC copy of the rootvg
Error msg: LED 552
Environment
Product: Symmetrix
Product: CLARiiON
System: IBM RS/6000
OS: IBM AIX 5.1 and below
OS: IBM AIX and below
Change
Customer made a copy of the rootvg using TimeFinder
Customer made a copy of the rootvg using a RDF
Secondary host booting from Cloned rootvg device
Resolution
When the initial case is open it is assumed that: 1) All pertinent data is collected including but not limited to: ?An emcgrab from all related hosts
?A detailed description of the Storage Area Network (SAN) including hosts, FC HBAs, and FC Switches
?Details on what the customer is trying to do.details on the exact steps being used
?Details on the error massages and/or problem(s) seen.
2) All components in the environment are configured correctly and at an OS/firmware level that is supported by EMC (referance the EMC Open Host Matrix for details) including but not limited to:
?All CLARiiON parameters and EMC Director flags
?The AIX OS level and EMC AIX ODM file set on all AIX nodes
?The System Firmware on all AIX nodesThe firmware level on all IBM FC HBAs
?The firmware on all Fibre Switches
?All components are in good working order before iplimenting boot off Fibre.
?At no time is there a duplicate PVID for more the one device seen by the same AIX node. (i.e. testing on one AIX node where the STD copy and the BCV copy are seen by the same AIX host.)
If the host is currently hung, reboot the node and go into Maintenance Mode:
When the AIX node hangs trying to boot off an external device, you will need to boot into Maintenance Mode (MM) using disk 1 of the AIX OS install CD. Install the CD, reboot the node, and before the 5th keyword appears on the banner screen (i.e. mouse, keyboard,.....speaker), hit 5 (F5) to get into MM. Note that 1 (F1) = SMS and 8 (F8) = Open Firmware mode. Once in MM select the option to access and mount rootvg.
Collect and send the IPL Data:
When debugging AIX boot issues and the boot images is on an external EMC device (a.k.a. EMC Fibre Boot), the outputs from the list of commands below provide detailed information about the state of the EMC device and how AIX thinks it is currently configured to the host / ODM. Once rootvg? is mounted run the IPL Data Collect commands below and capture the output to a file for review later.
date
oslevel r
lslpp L " grep EMC
/tmp/inq (must use 32-bit inq? in AIX Maintenance Mode)
lsdev -Cc disk
pprootdev fix (only if the PVID of rootvg is on an hdiskpower device)
lspv
lsvg -p rootvg
lslv -m hd5
ls -l /dev/ipldevice
ls -l /dev/rhdisk* (look for ipldevice? major / minor number match)
bootlist -om normal (hould match hdisk with ipldevice? major / minor number)
lquerypv -h /dev/rhdiskX (here X is the device that has the PVID of rootvg?)
Collect and send the AIX boot debugger? data (if needed):
The AIX kernel has an "enter_dbg" variable in it that can be set at the beginning of the boot processing which will cause cfgmgr output to be sent to the system console. In some cases this data can be useful in debugging boot issues. The procedure for setting the boot debugger is as follows.
1.Preparing the System
a. Set up KDB to present an initial debugger screen
# bosboot -ad /dev/ipldevice -I
b. Reboot the machine
# shutdown -Fr
2.Setting up for Kernel boot trace
a. When the debugger screen appears, set enter_dbg to the value we want to go
************* Welcome to KDB *************
Call gimmeabreak...
Static breakpoint:
.gimmeabreak+000000 tweq r8,r8 r8=0000000A
.gimmeabreak+000004 blr <.kdb_init+0002C0> r3=0
KDB(0)> mw enter_dbg
enter_dbg+000000: 00000000 = 42
xmdbg+000000: 00000000 = .
KDB(0)> g
Now, detailed boot output will be displayed on the console. It should stop when it hangs (typically at 552 or 554). Capture this output and copy it to a file for review later.
b. If your system completes booting, you will want to turn enter_dbg off
************* Welcome to KDB *************
Call gimmeabreak...
Static breakpoint:
.gimmeabreak+000000 tweq r8,r8 r8=0000000A
.gimmeabreak+000004 blr <.kdb_init+0002C0> r3=0
KDB(0)> mw enter_dbg
enter_dbg+000000: 00000042 = 0
xmdbg+000000: 00000000 = .
KDB(0)> g
3.When finished using the boot debugger, disable it by running:
# bosdebug -o
# bosboot -ad /dev/ipldevice.
Other Notes and commands that may be useful or needed on occasion:
Feel free to add any other outputs you think will help explain the current problem! Capturing the outputs of all the commands above may be hard from some AIX System Console setups. I use a tip? session through a SUN Workstation to help cut and past the info into a text document that I can then email. You can also use a DOS HyperTerminal window through a PC or laptop connected to the serial port of the AIX node.
lquerypv -h /dev/rhdiskX (3 outputs possible, a) the PVID, b) prompt after a 30 sec timeout, c) prompt back quickly)
ln /dev/rhdiskX /dev/ipldevice to create a new link for /dev/ipldevice.
powermt display dev=X X = the hdiskpower #, or all? to display all.
bosboot -ad /dev/ipldevice ( -vd to get verbose error info.)
odmget CuAt > /tmp/cuat_ .txt
odmget CuDv > /tmp/cudv_ .txt
odmget PdAt > /tmp/pdat_ .txt
odmget PdDv > /tmp/pddv_ .txt
Notes
Carefully consider the following when deciding to boot your host (any vendor) off the internal host storage or an external storage array (any vendor). When debugging a complex problem in the host system or Storage Area Network (SAN), it is a great asset to be able to temporarily disconnect some or all of the external storage arrays from the host and confirm that the problem does or does not still exist. If the host is booting off the external storage arrays the System Administrator loses this debug tool.
Also see EMC Knowledgebase solution 46816, List of known Boot off Fibre" (Symmetrix or CLARiiON) issues
Sample of IPL collect data:
In MM to access rootvg I selected #3 from the display below.
1) Volume Group 0003c89f00004c00000000fedeccfa4f contains these disks:
hdisk4 3768 20-58-01 hdisk5 3768 20-58-01
hdisk6 3768 20-58-01
2) Volume Group 0003c79f00004c00000000f76d36b466 contains these disks:
hdisk0 8678 10-88-00-8,0 hdisk1 8678 10-88-00-9,0
3) Volume Group 0003c89f00004c00000000ff2b4cd6ca contains these disks:
hdisk3 9215 20-58-01
I entered 3 here to boot of the rootvg image which is on hdisk3.
# date
Mon Sep 27 16:12:04 UTC 2004
# oslevel -r
5100-03
# lslpp -L " grep EMC
EMC.Symmetrix.aix.rte 5.1.0.0 C F EMC Symmetrix AIX Support
EMC.Symmetrix.fcp.rte 5.1.0.0 C F EMC Symmetrix Fibre Channel
EMCpower.base 3.0.5.0 C F PowerPath Base Driver and
EMCpower.multi_path 3.0.5.0 C F PowerPath Multi_Pathing
# lsdev -Cc disk
hdisk0 Available 10-88-00-8,0 16 Bit LVD SCSI Disk Drive
hdisk1 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk2 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk3 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk4 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk5 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk6 Available 20-60-01 EMC Symmetrix FCP Disk
hdiskpower0 Available 20-60-01 PowerPath Device
hdiskpower1 Available 20-60-01 PowerPath Device
hdiskpower2 Available 20-60-01 PowerPath Device
hdiskpower3 Available 20-60-01 PowerPath Device
hdiskpower4 Available 20-60-01 PowerPath Device
hdisk8 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk9 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk10 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk11 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk12 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk13 Available 20-58-01 EMC Symmetrix FCP Disk
# lspv
hdisk0 0003c79ffad466aa None
hdisk1 none None
hdisk2 0003c89fd4026412 rootvg <-- PVID of 'rpptvg'
hdisk3 none None
hdisk4 none None
hdisk5 none None
hdisk6 none None
hdiskpower0 none None
hdiskpower1 0003c89fb704e821 None
hdiskpower2 0003c89fd8f622ea None
hdiskpower3 0003c89fd8f6239e None
hdiskpower4 0003c89fdeccecad None
hdisk8 none None
hdisk9 0003c89fd4026412 rootvg
hdisk10 none None
hdisk11 none None
hdisk12 none None
hdisk13 none None
# lsvg -p rootvg
rootvg:
PV_NAME PV STATE TOTAL PPs FREE PPs FREE DISTRIBUTION
hdisk2 active 575 465 114..83..38..115..115
# lslv -m hd5
hd5:N/A
LP PP1 PV1 PP2 PV2 PP3 PV3
0001 0001 hdisk2
Notice, up to now, it looks like hdisk2 or hdisk9 is the boot device.
# ls -l /dev/ipldevice
brw------- 2 root system 21, 1 Sep 27 16:12 /dev/ipldevice
# ls -l /dev/rhdisk*
crw------- 1 root system 14, 1 Sep 27 16:12 /dev/rhdisk0
crw------- 1 root system 14, 2 Sep 27 16:12 /dev/rhdisk1
crw------- 1 root system 21, 3 Sep 27 16:12 /dev/rhdisk2
crw------- 1 root system 21, 1 Sep 27 16:12 /dev/rhdisk3
crw------- 1 root system 21, 2 Sep 27 16:12 /dev/rhdisk4
crw------- 1 root system 21, 4 Sep 27 16:12 /dev/rhdisk5
crw------- 1 root system 21, 0 Sep 27 16:12 /dev/rhdisk6
# bootlist -om normal
-
But, notice now hdisk3 is pointed to by /dev/ipldevice as the boot device!! This is a common problem. To confirm which hdisk is really the boot device, use the lquerypv command as shown below. It is one of the few commands that actually read the data from disk rather then from the ODM.
hdiskpower0 is in boot disk's VGDA <-- When ipl_varyon is called it scans the ODM and finds a match for the PVID but it's the incorrect device. It should be hdisk5
NO_QUORUM 1158
Number of PVs: 1
ERROR: lvm_VaryonVG() rc=-146
+ rc=1
+ loopled 0x552 IPLVARYON ERROR <-- Here is the 552 LED
Notes (Employees and Partners)
Note: If booting off a copy of rootvg, see Solution 46894
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2013年10月18日 21:00
这是主机设置BOOT FROM SAN了、
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Help with debugging IBM AIX system hang issues when booting off an EMC fibre device.
Article Number:000046860 Version:1
Key Information
Audience: Level 30 = Customers
Article Type: Break Fix
Last Published: Fri May 31 00:24:15 GMT 2013
Validation Status: Final Approved
Summary:
Print Friendly View Rate This Article
Article Content
Attachments
Article Metadata
SR Linking
Article Content
Impact
Help with debugging IBM AIX system hang issues when booting off an EMC fibre device.
Issue
Host is booting off an EMC Fibre device
IBM AIX rootvg contains only one EMC device
IBM AIX host gets LED error 552 when booting of an EMC copy of the rootvg
Error msg: LED 552
Environment
Product: Symmetrix
Product: CLARiiON
System: IBM RS/6000
OS: IBM AIX 5.1 and below
OS: IBM AIX and below
Change
Customer made a copy of the rootvg using TimeFinder
Customer made a copy of the rootvg using a RDF
Secondary host booting from Cloned rootvg device
Resolution
When the initial case is open it is assumed that: 1) All pertinent data is collected including but not limited to: ?An emcgrab from all related hosts
?A detailed description of the Storage Area Network (SAN) including hosts, FC HBAs, and FC Switches
?Details on what the customer is trying to do.details on the exact steps being used
?Details on the error massages and/or problem(s) seen.
2) All components in the environment are configured correctly and at an OS/firmware level that is supported by EMC (referance the EMC Open Host Matrix for details) including but not limited to:
?All CLARiiON parameters and EMC Director flags
?The AIX OS level and EMC AIX ODM file set on all AIX nodes
?The System Firmware on all AIX nodesThe firmware level on all IBM FC HBAs
?The firmware on all Fibre Switches
?All components are in good working order before iplimenting boot off Fibre.
?At no time is there a duplicate PVID for more the one device seen by the same AIX node. (i.e. testing on one AIX node where the STD copy and the BCV copy are seen by the same AIX host.)
If the host is currently hung, reboot the node and go into Maintenance Mode:
When the AIX node hangs trying to boot off an external device, you will need to boot into Maintenance Mode (MM) using disk 1 of the AIX OS install CD. Install the CD, reboot the node, and before the 5th keyword appears on the banner screen (i.e. mouse, keyboard,.....speaker), hit 5 (F5) to get into MM. Note that 1 (F1) = SMS and 8 (F8) = Open Firmware mode. Once in MM select the option to access and mount rootvg.
Collect and send the IPL Data:
When debugging AIX boot issues and the boot images is on an external EMC device (a.k.a. EMC Fibre Boot), the outputs from the list of commands below provide detailed information about the state of the EMC device and how AIX thinks it is currently configured to the host / ODM. Once rootvg? is mounted run the IPL Data Collect commands below and capture the output to a file for review later.
date
oslevel r
lslpp L " grep EMC
/tmp/inq (must use 32-bit inq? in AIX Maintenance Mode)
lsdev -Cc disk
pprootdev fix (only if the PVID of rootvg is on an hdiskpower device)
lspv
lsvg -p rootvg
lslv -m hd5
ls -l /dev/ipldevice
ls -l /dev/rhdisk* (look for ipldevice? major / minor number match)
bootlist -om normal (hould match hdisk with ipldevice? major / minor number)
lquerypv -h /dev/rhdiskX (here X is the device that has the PVID of rootvg?)
Collect and send the AIX boot debugger? data (if needed):
The AIX kernel has an "enter_dbg" variable in it that can be set at the beginning of the boot processing which will cause cfgmgr output to be sent to the system console. In some cases this data can be useful in debugging boot issues. The procedure for setting the boot debugger is as follows.
1.Preparing the System
a. Set up KDB to present an initial debugger screen
# bosboot -ad /dev/ipldevice -I
b. Reboot the machine
# shutdown -Fr
2.Setting up for Kernel boot trace
a. When the debugger screen appears, set enter_dbg to the value we want to go
************* Welcome to KDB *************
Call gimmeabreak...
Static breakpoint:
.gimmeabreak+000000 tweq r8,r8 r8=0000000A
.gimmeabreak+000004 blr <.kdb_init+0002C0> r3=0
KDB(0)> mw enter_dbg
enter_dbg+000000: 00000000 = 42
xmdbg+000000: 00000000 = .
KDB(0)> g
Now, detailed boot output will be displayed on the console. It should stop when it hangs (typically at 552 or 554). Capture this output and copy it to a file for review later.
b. If your system completes booting, you will want to turn enter_dbg off
************* Welcome to KDB *************
Call gimmeabreak...
Static breakpoint:
.gimmeabreak+000000 tweq r8,r8 r8=0000000A
.gimmeabreak+000004 blr <.kdb_init+0002C0> r3=0
KDB(0)> mw enter_dbg
enter_dbg+000000: 00000042 = 0
xmdbg+000000: 00000000 = .
KDB(0)> g
3.When finished using the boot debugger, disable it by running:
# bosdebug -o
# bosboot -ad /dev/ipldevice.
Other Notes and commands that may be useful or needed on occasion:
Feel free to add any other outputs you think will help explain the current problem! Capturing the outputs of all the commands above may be hard from some AIX System Console setups. I use a tip? session through a SUN Workstation to help cut and past the info into a text document that I can then email. You can also use a DOS HyperTerminal window through a PC or laptop connected to the serial port of the AIX node.
lquerypv -h /dev/rhdiskX (3 outputs possible, a) the PVID, b) prompt after a 30 sec timeout, c) prompt back quickly)
ln /dev/rhdiskX /dev/ipldevice to create a new link for /dev/ipldevice.
powermt display dev=X X = the hdiskpower #, or all? to display all.
bosboot -ad /dev/ipldevice ( -vd to get verbose error info.)
odmget CuAt > /tmp/cuat_ .txt
odmget CuDv > /tmp/cudv_ .txt
odmget PdAt > /tmp/pdat_ .txt
odmget PdDv > /tmp/pddv_ .txt
Notes
Carefully consider the following when deciding to boot your host (any vendor) off the internal host storage or an external storage array (any vendor). When debugging a complex problem in the host system or Storage Area Network (SAN), it is a great asset to be able to temporarily disconnect some or all of the external storage arrays from the host and confirm that the problem does or does not still exist. If the host is booting off the external storage arrays the System Administrator loses this debug tool.
Also see EMC Knowledgebase solution 46816, List of known Boot off Fibre" (Symmetrix or CLARiiON) issues
Sample of IPL collect data:
In MM to access rootvg I selected #3 from the display below.
1) Volume Group 0003c89f00004c00000000fedeccfa4f contains these disks:
hdisk4 3768 20-58-01 hdisk5 3768 20-58-01
hdisk6 3768 20-58-01
2) Volume Group 0003c79f00004c00000000f76d36b466 contains these disks:
hdisk0 8678 10-88-00-8,0 hdisk1 8678 10-88-00-9,0
3) Volume Group 0003c89f00004c00000000ff2b4cd6ca contains these disks:
hdisk3 9215 20-58-01
I entered 3 here to boot of the rootvg image which is on hdisk3.
# date
Mon Sep 27 16:12:04 UTC 2004
# oslevel -r
5100-03
# lslpp -L " grep EMC
EMC.Symmetrix.aix.rte 5.1.0.0 C F EMC Symmetrix AIX Support
EMC.Symmetrix.fcp.rte 5.1.0.0 C F EMC Symmetrix Fibre Channel
EMCpower.base 3.0.5.0 C F PowerPath Base Driver and
EMCpower.multi_path 3.0.5.0 C F PowerPath Multi_Pathing
# lsdev -Cc disk
hdisk0 Available 10-88-00-8,0 16 Bit LVD SCSI Disk Drive
hdisk1 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk2 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk3 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk4 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk5 Available 20-60-01 EMC Symmetrix FCP Disk
hdisk6 Available 20-60-01 EMC Symmetrix FCP Disk
hdiskpower0 Available 20-60-01 PowerPath Device
hdiskpower1 Available 20-60-01 PowerPath Device
hdiskpower2 Available 20-60-01 PowerPath Device
hdiskpower3 Available 20-60-01 PowerPath Device
hdiskpower4 Available 20-60-01 PowerPath Device
hdisk8 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk9 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk10 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk11 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk12 Available 20-58-01 EMC Symmetrix FCP Disk
hdisk13 Available 20-58-01 EMC Symmetrix FCP Disk
# lspv
hdisk0 0003c79ffad466aa None
hdisk1 none None
hdisk2 0003c89fd4026412 rootvg <-- PVID of 'rpptvg'
hdisk3 none None
hdisk4 none None
hdisk5 none None
hdisk6 none None
hdiskpower0 none None
hdiskpower1 0003c89fb704e821 None
hdiskpower2 0003c89fd8f622ea None
hdiskpower3 0003c89fd8f6239e None
hdiskpower4 0003c89fdeccecad None
hdisk8 none None
hdisk9 0003c89fd4026412 rootvg
hdisk10 none None
hdisk11 none None
hdisk12 none None
hdisk13 none None
# lsvg -p rootvg
rootvg:
PV_NAME PV STATE TOTAL PPs FREE PPs FREE DISTRIBUTION
hdisk2 active 575 465 114..83..38..115..115
# lslv -m hd5
hd5:N/A
LP PP1 PV1 PP2 PV2 PP3 PV3
0001 0001 hdisk2
Notice, up to now, it looks like hdisk2 or hdisk9 is the boot device.
# ls -l /dev/ipldevice
brw------- 2 root system 21, 1 Sep 27 16:12 /dev/ipldevice
# ls -l /dev/rhdisk*
crw------- 1 root system 14, 1 Sep 27 16:12 /dev/rhdisk0
crw------- 1 root system 14, 2 Sep 27 16:12 /dev/rhdisk1
crw------- 1 root system 21, 3 Sep 27 16:12 /dev/rhdisk2
crw------- 1 root system 21, 1 Sep 27 16:12 /dev/rhdisk3
crw------- 1 root system 21, 2 Sep 27 16:12 /dev/rhdisk4
crw------- 1 root system 21, 4 Sep 27 16:12 /dev/rhdisk5
crw------- 1 root system 21, 0 Sep 27 16:12 /dev/rhdisk6
# bootlist -om normal
-
But, notice now hdisk3 is pointed to by /dev/ipldevice as the boot device!! This is a common problem. To confirm which hdisk is really the boot device, use the lquerypv command as shown below. It is one of the few commands that actually read the data from disk rather then from the ODM.
# lquerypv -h /dev/rhdisk2
00000000 00000000 00000000 00000000 00000000 "................"
00000010 00000000 00000000 00000000 00000000 "................"
00000020 00000000 00000000 00000000 00000000 "................"
00000030 00000000 00000000 00000000 00000000 "................"
00000040 00000000 00000000 00000000 00000000 "................"
00000050 00000000 00000000 00000000 00000000 "................"
00000060 00000000 00000000 00000000 00000000 "................"
00000070 00000000 00000000 00000000 00000000 "................"
00000080 00000000 00000000 00000000 00000000 "................" <-- has no PVID
00000090 00000000 00000000 00000000 00000000 "................"
000000A0 00000000 00000000 00000000 00000000 "................"
000000B0 00000000 00000000 00000000 00000000 "................"
000000C0 00000000 00000000 00000000 00000000 "................"
000000D0 00000000 00000000 00000000 00000000 "................"
000000E0 00000000 00000000 00000000 00000000 "................"
000000F0 00000000 00000000 00000000 00000000 "................"
# lquerypv -h /dev/rhdisk3
00000000 C9C2D4C1 00000000 00000000 00000000 "................"
00000010 00000000 00000000 00000000 00000000 "................"
00000020 00000000 0000479D 00000000 00001100 "......G........."
00000030 00000000 00000000 00000000 00000000 "................"
00000040 01000100 000057B8 000057B8 00000000 "......W...W....."
00000050 00000000 00000000 00000000 00000000 "................"
00000060 00000000 0000479D 00000000 00001100 "......G........."
00000070 00000000 00000000 00000000 00000000 "................"
00000080 0003C89F D4026412 00000000 00000000 "......d........." <-- PVID of rootvg!
00000090 00000000 00000000 00000000 00000000 "................"
000000A0 00000000 00000000 00000000 00000000 "................"
000000B0 00000000 00000000 00000000 00000000 "................"
000000C0 00000000 00000000 00000000 00000000 "................"
000000D0 00000000 00000000 00000000 00000000 "................"
000000E0 00000000 00000000 00000000 00000000 "................"
000000F0 00000000 00000000 00000000 00000000 "................"
To fix the issue in this scenario, run rmdev-dl hdisk2, rmdev-dl hdisk9 and reboot the node.
Sample of boot debugger? data
In this case I first searched for the second occurrence of ln, looked at the lines just before the hang at 552 and made the notes in Blue.
showled + + bootinfo -b
dvc=hdisk5
+ [ ! hdisk5 ]
+ echo rc.boot: boot device is hdisk5
+ 1>> /tmp/boot_log
+ ln /dev/rhdisk5 /dev/ipldevice <-- Boot device is pointing to hdisk5 which should be the correct device.
+ exit 0
+ PHASE=2
+ + bootinfo -p
PLATFORM=chrp
+ [ ! -x /usr/lib/boot/bin/bootinfo_chrp ]
+ [ 2 -eq 1 ]
+ + bootinfo -t
BOOTYPE=1
+ [ 0 -ne 0 ]
+ [ -z 1 ]
+ unset pdev_to_ldev native_netboot_cfg
+ unset disknet_odm_init config_ATM
+ /usr/lib/methods/showled 0x551 VARYON IPL DEV
showled + echo rc.boot: executing "ipl_varyon -v"
+ 1>> /tmp/boot_log
+ ipl_varyon -v
Starting device is ipldevice
Starting device's PVID: 0000957a978019d40000000000000000
Root VGID: 0000957a00004c00
hdiskpower0 is in boot disk's VGDA <-- When ipl_varyon is called it scans the ODM and finds a match for the PVID but it's the incorrect device. It should be hdisk5
NO_QUORUM 1158
Number of PVs: 1
ERROR: lvm_VaryonVG() rc=-146
+ rc=1
+ loopled 0x552 IPLVARYON ERROR <-- Here is the 552 LED
Notes (Employees and Partners)
Note: If booting off a copy of rootvg, see Solution 46894
Attachments
Article Metadata
Product
PowerPath, Symmetrix, CLARiiON, TimeFinder, CLARiiON CX Series, Symmetrix Remote Data Facility (SRDF)
Requested Publish Date
5/25/2013 2:07 PM
External Source
Primus
Primus/Webtop solution ID
emc96534
SR Linking : 10 of 11
SR Number
Linked
Solved My Problem
Linking User
Linked Date / Time
12849375
CSKImportAdmin
4/14/2005 4:10 PM
12921990
CSKImportAdmin
4/25/2005 7:40 PM
13243886
CSKImportAdmin
6/16/2005 9:30 PM
13734335
CSKImportAdmin
9/12/2005 9:22 AM
13861351
CSKImportAdmin
9/27/2005 2:47 PM
14307205
CSKImportAdmin
12/10/2005 6:46 PM
15234554
CSKImportAdmin
5/19/2006 1:27 AM
28489280
CSKImportAdmin
3/15/2009 11:46 AM
28584616
CSKImportAdmin
4/5/2009 10:56 AM
31293640
CSKImportAdmin
11/16/2009 9:22 AM
iamgoust
42 消息
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2013年10月19日 22:00
操作系统重装试试
Roger_Wu
2 Intern
2 Intern
•
4K 消息
1
2013年10月20日 06:00
我也怀疑是设置了Boot from SAN。开不起来的具体症状是什么?屏幕上有任何报错不?