4.3BSD/usr/man/man8/crash.8v
.\" Copyright (c) 1980 Regents of the University of California.
.\" All rights reserved. The Berkeley software License Agreement
.\" specifies the terms and conditions for redistribution.
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.\" @(#)crash.8v 6.2 (Berkeley) 5/20/86
.\"
.TH CRASH 8V "May 20, 1986"
.UC 4
.SH NAME
crash \- what happens when the system crashes
.SH DESCRIPTION
This section explains what happens when the system crashes
and (very briefly) how to analyze crash dumps.
.PP
When the system crashes voluntarily it prints a message of the form
.IP
panic: why i gave up the ghost
.LP
on the console, takes a dump on a mass storage peripheral,
and then invokes an automatic reboot procedure as
described in
.IR reboot (8).
(If auto-reboot is disabled on the front panel of the machine the system
will simply halt at this point.)
Unless some unexpected inconsistency is encountered in the state
of the file systems due to hardware or software failure, the system
will then resume multi-user operations.
.PP
The system has a large number of internal consistency checks; if one
of these fails, then it will panic with a very short message indicating
which one failed.
In many instances, this will be the name of the routine which detected
the error, or a two-word description of the inconsistency.
A full understanding of most panic messages requires perusal of the
source code for the system.
.PP
The most common cause of system failures is hardware failure, which
can reflect itself in different ways. Here are the messages which
are most likely, with some hints as to causes.
Left unstated in all cases is the possibility that hardware or software
error produced the message in some unexpected way.
.TP
.B iinit
This cryptic panic message results from a failure to mount the root filesystem
during the bootstrap process.
Either the root filesystem has been corrupted,
or the system is attempting to use the wrong device as root filesystem.
Usually, an alternate copy of the system binary or an alternate root
filesystem can be used to bring up the system to investigate.
.TP
.B Can't exec /etc/init
This is not a panic message, as reboots are likely to be futile.
Late in the bootstrap procedure, the system was unable to locate
and execute the initialization process,
.IR init (8).
The root filesystem is incorrect or has been corrupted, or the mode
or type of /etc/init forbids execution.
.TP
.B IO err in push
.ns
.TP
.B hard IO err in swap
The system encountered an error trying to write to the paging device
or an error in reading critical information from a disk drive.
The offending disk should be fixed if it is broken or unreliable.
.TP
.B realloccg: bad optim
.ns
.TP
.B ialloc: dup alloc
.ns
.TP
.B alloccgblk: cyl groups corrupted
.ns
.TP
.B ialloccg: map corrupted
.ns
.TP
.B free: freeing free block
.ns
.TP
.B free: freeing free frag
.ns
.TP
.B ifree: freeing free inode
.ns
.TP
.B alloccg: map corrupted
These panic messages are among those that may be produced
when filesystem inconsistencies are detected.
The problem generally results from a failure to repair damaged filesystems
after a crash, hardware failures, or other condition that should not
normally occur.
A filesystem check will normally correct the problem.
.TP
.B timeout table overflow
.ns
This really shouldn't be a panic, but until the data structure
involved is made to be extensible, running out of entries causes a crash.
If this happens, make the timeout table bigger.
.TP
.B KSP not valid
.ns
.TP
.B SBI fault
.ns
.TP
.B CHM? in kernel
These indicate either a serious bug in the system or, more often,
a glitch or failing hardware.
If SBI faults recur, check out the hardware or call
field service. If the other faults recur, there is likely a bug somewhere
in the system, although these can be caused by a flakey processor.
Run processor microdiagnostics.
.TP
.B machine check %x:
.I description
.ns
.TP
.I \0\0\0machine dependent machine-check information
.ns
Machine checks are different on each type of CPU.
Most of the internal processor registers are saved at the time of the fault
and are printed on the console.
For most processors, there is one line that summarizes the type of machine
check.
Often, the nature of the problem is apparent from this messaage
and/or the contents of key registers.
The VAX Hardware Handbook should be consulted,
and, if necessary, your friendly field service people should be informed
of the problem.
.TP
.B trap type %d, code=%x, pc=%x
A unexpected trap has occurred within the system; the trap types are:
.sp
.nf
0 reserved addressing fault
1 privileged instruction fault
2 reserved operand fault
3 bpt instruction fault
4 xfc instruction fault
5 system call trap
6 arithmetic trap
7 ast delivery trap
8 segmentation fault
9 protection fault
10 trace trap
11 compatibility mode fault
12 page fault
13 page table fault
.fi
.sp
The favorite trap types in system crashes are trap types 8 and 9,
indicating
a wild reference. The code is the referenced address, and the pc at the
time of the fault is printed. These problems tend to be easy to track
down if they are kernel bugs since the processor stops cold, but random
flakiness seems to cause this sometimes.
The debugger can be used to locate the instruction and subroutine
corresponding to the PC value.
If that is insufficient to suggest the nature of the problem,
more detailed examination of the system status at the time of the trap
usually can produce an explanation.
.TP
.B init died
The system initialization process has exited. This is bad news, as no new
users will then be able to log in. Rebooting is the only fix, so the
system just does it right away.
.TP
.B out of mbufs: map full
The network has exhausted its private page map for network buffers.
This usually indicates that buffers are being lost, and rather than
allow the system to slowly degrade, it reboots immediately.
The map may be made larger if necessary.
.PP
That completes the list of panic types you are likely to see.
.PP
When the system crashes it writes (or at least attempts to write)
an image of memory into the back end of the dump device,
usually the same as the primary swap
area. After the system is rebooted, the program
.IR savecore (8)
runs and preserves a copy of this core image and the current
system in a specified directory for later perusal. See
.IR savecore (8)
for details.
.PP
To analyze a dump you should begin by running
.IR adb (1)
with the
.B \-k
flag on the system load image and core dump.
If the core image is the result of a panic,
the panic message is printed.
Normally the command
``$c''
will provide a stack trace from the point of
the crash and this will provide a clue as to
what went wrong.
A more complete discussion
of system debugging is impossible here.
See, however,
``Using ADB to Debug the UNIX Kernel''.
.SH "SEE ALSO"
adb(1),
reboot(8)
.br
.I "VAX 11/780 System Maintenance Guide"
and
.I "VAX Hardware Handbook"
for more information about machine checks.
.br
.I "Using ADB to Debug the UNIX Kernel"