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1. Getting Started With Solaris Volume Manager 2. Storage Management Concepts 3. Solaris Volume Manager Overview 4. Solaris Volume Manager for Sun Cluster (Overview) 5. Configuring and Using Solaris Volume Manager (Scenario) 8. RAID-0 (Stripe and Concatenation) Volumes (Overview) 9. RAID-0 (Stripe and Concatenation) Volumes (Tasks) 10. RAID-1 (Mirror) Volumes (Overview) 11. RAID-1 (Mirror) Volumes (Tasks) 12. Soft Partitions (Overview) 16. Hot Spare Pools (Overview) 20. Maintaining Solaris Volume Manager (Tasks) 21. Best Practices for Solaris Volume Manager 22. Top-Down Volume Creation (Overview) 23. Top-Down Volume Creation (Tasks) 24. Monitoring and Error Reporting (Tasks) 25. Troubleshooting Solaris Volume Manager (Tasks) Troubleshooting Solaris Volume Manager (Task Map) Overview of Troubleshooting the System Recovering From Disk Movement Problems Device ID Discrepancies After Upgrading to the Solaris 10 Release Recovering the root (/) RAID-1 (Mirror) Volume How to Recover From a Boot Device Failure Recovering From Soft Partition Problems How to Recover Configuration Data for a Soft Partition Recovering Storage From a Different System How to Recover Storage From a Local Disk Set Recovering From Disk Set Problems Performing Mounted Filesystem Backups Using the ufsdump Command How to Perform a Backup of a Mounted Filesystem Located on a RAID-1 Volume How to Recover a System Using a Solaris Volume Manager Configuration A. Important Solaris Volume Manager Files B. Solaris Volume Manager Quick Reference |
Recovering From State Database Replica FailuresIf the state database replica quorum is not met, for example, due to a drive failure, the system cannot be rebooted into multiuser mode. This situation could follow a panic when Solaris Volume Manager discovers that fewer than half of the state database replicas are available. This situation could also occur if the system is rebooted with exactly half or fewer functional state database replicas. In Solaris Volume Manager terminology, the state database has gone “stale.” This procedure explains how to recover from this problem. How to Recover From Insufficient State Database Replicas
In the following example, a disk that contains seven replicas has gone bad. As a result, the system has only three good replicas. The system panics, then cannot reboot into multiuser mode. panic[cpu0]/thread=70a41e00: md: state database problem
403238a8 md:mddb_commitrec_wrapper+6c (2, 1, 70a66ca0, 40323964, 70a66ca0, 3c)
%l0-7: 0000000a 00000000 00000001 70bbcce0 70bbcd04 70995400 00000002 00000000
40323908 md:alloc_entry+c4 (70b00844, 1, 9, 0, 403239e4, ff00)
%l0-7: 70b796a4 00000001 00000000 705064cc 70a66ca0 00000002 00000024 00000000
40323968 md:md_setdevname+2d4 (7003b988, 6, 0, 63, 70a71618, 10)
%l0-7: 70a71620 00000000 705064cc 70b00844 00000010 00000000 00000000 00000000
403239f8 md:setnm_ioctl+134 (7003b968, 100003, 64, 0, 0, ffbffc00)
%l0-7: 7003b988 00000000 70a71618 00000000 00000000 000225f0 00000000 00000000
40323a58 md:md_base_ioctl+9b4 (157ffff, 5605, ffbffa3c, 100003, 40323ba8, ff1b5470)
%l0-7: ff3f2208 ff3f2138 ff3f26a0 00000000 00000000 00000064 ff1396e9 00000000
40323ad0 md:md_admin_ioctl+24 (157ffff, 5605, ffbffa3c, 100003, 40323ba8, 0)
%l0-7: 00005605 ffbffa3c 00100003 0157ffff 0aa64245 00000000 7efefeff 81010100
40323b48 md:mdioctl+e4 (157ffff, 5605, ffbffa3c, 100003, 7016db60, 40323c7c)
%l0-7: 0157ffff 00005605 ffbffa3c 00100003 0003ffff 70995598 70995570 0147c800
40323bb0 genunix:ioctl+1dc (3, 5605, ffbffa3c, fffffff8, ffffffe0, ffbffa65)
%l0-7: 0114c57c 70937428 ff3f26a0 00000000 00000001 ff3b10d4 0aa64245 00000000
panic:
stopped at edd000d8: ta %icc,%g0 + 125
Type 'go' to resume
ok boot -s
Resetting ...
Sun Ultra 5/10 UPA/PCI (UltraSPARC-IIi 270MHz), No Keyboard
OpenBoot 3.11, 128 MB memory installed, Serial #9841776.
Ethernet address 8:0:20:96:2c:70, Host ID: 80962c70.
Rebooting with command: boot -s
Boot device: /pci@1f,0/pci@1,1/ide@3/disk@0,0:a File and args: -s
SunOS Release 5.9 Version s81_39 64-bit
Copyright 1983-2001 Sun Microsystems, Inc. All rights reserved.
configuring IPv4 interfaces: hme0.
Hostname: dodo
metainit: dodo: stale databases
Insufficient metadevice database replicas located.
Use metadb to delete databases which are broken.
Ignore any "Read-only file system" error messages.
Reboot the system when finished to reload the metadevice database.
After reboot, repair any broken database replicas which were deleted.
Type control-d to proceed with normal startup,
(or give root password for system maintenance): root-password
single-user privilege assigned to /dev/console.
Entering System Maintenance Mode
Jun 7 08:57:25 su: 'su root' succeeded for root on /dev/console
Sun Microsystems Inc. SunOS 5.9 s81_39 May 2002
# metadb -i
flags first blk block count
a m p lu 16 8192 /dev/dsk/c0t0d0s7
a p l 8208 8192 /dev/dsk/c0t0d0s7
a p l 16400 8192 /dev/dsk/c0t0d0s7
M p 16 unknown /dev/dsk/c1t1d0s0
M p 8208 unknown /dev/dsk/c1t1d0s0
M p 16400 unknown /dev/dsk/c1t1d0s0
M p 24592 unknown /dev/dsk/c1t1d0s0
M p 32784 unknown /dev/dsk/c1t1d0s0
M p 40976 unknown /dev/dsk/c1t1d0s0
M p 49168 unknown /dev/dsk/c1t1d0s0
# metadb -d c1t1d0s0
# metadb
flags first blk block count
a m p lu 16 8192 /dev/dsk/c0t0d0s7
a p l 8208 8192 /dev/dsk/c0t0d0s7
a p l 16400 8192 /dev/dsk/c0t0d0s7
# The system panicked because it could no longer detect state database replicas on slice /dev/dsk/c1t1d0s0. This slice is part of the failed disk or is attached to a failed controller. The first metadb -i command identifies the replicas on this slice as having a problem with the master blocks. When you delete the stale state database replicas, the root (/) file system is read-only. You can ignore the mddb.cf error messages that are displayed. At this point, the system is again functional, although it probably has fewer state database replicas than it should. Any volumes that used part of the failed storage are also either failed, erred, or hot-spared. Those issues should be addressed promptly. |
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