CRASH(8) NetBSD/hp300 System Manager's Manual CRASH(8)
NAME
crash -- UNIX system failures
DESCRIPTION
This section explains a bit about system crashes and (very briefly) how to analyze crash dumps. When the system crashes voluntarily it prints a message of the form panic: why i gave up the ghost on the console, takes a dump on a mass storage peripheral, and then invokes an automatic reboot procedure as described in reboot(8). 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. 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 rou- tine which detected the error, or a two-word description of the inconsis- tency. A full understanding of most panic messages requires perusal of the source code for the system. 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. 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 alternative copy of the system binary or an alternative root filesystem can be used to bring up the system to investigate. Can't exec /sbin/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, init(8). The root filesystem is incorrect or has been corrupted, or the mode or type of /sbin/init forbids execution. IO err in push 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. realloccg: bad optim ialloc: dup alloc alloccgblk:cyl groups corrupted ialloccg: map corrupted free: freeing free block free: freeing free frag ifree: freeing free inode 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 nor- mally occur. A filesystem check will normally correct the prob- lem. timeout table overflow 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. trap type %d, code = %x, v = %x An unexpected trap has occurred within the system; the trap types are: 0 bus error 1 address error 2 illegal instruction 3 divide by zero 4 chk instruction 5 trapv instruction 6 privileged instruction 7 trace trap 8 MMU fault 9 simulated software interrupt 10 format error 11 FP coprocessor fault 12 coprocessor fault 13 simulated AST The favorite trap type in system crashes is trap type 8, indicat- ing a wild reference. ``code'' (hex) is the concatenation of the MMU status register (see <hp300/cpu.h>) in the high 16 bits and the 68020 special status word (see the 68020 manual, page 6-17) in the low 16. ``v'' (hex) is the virtual address which caused the fault. Additionally, the kernel will dump about a screenful of semi-useful information. ``pid'' (decimal) is the process id of the process running at the time of the exception. Note that if we panic in an interrupt routine, this process may not be related to the panic. ``ps'' (hex) is the 68020 processor status register ``ps''. ``pc'' (hex) is the value of the program counter saved on the hardware exception frame. It may not be the PC of the instruction causing the fault. ``sfc'' and ``dfc'' (hex) are the 68020 source/destination function codes. They should always be one. ``p0'' and ``p1'' are the VAX-like region registers. They are of the form: <length> '@' <kernel VA> where both are in hex. Following these values are a dump of the processor registers (hex). Finally, is a dump of the stack (user/kernel) at the time of the offense. 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. 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 imme- diately. The map may be made larger if necessary. That completes the list of panic types you are likely to see. 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 savecore(8) runs and preserves a copy of this core image and the current system in a specified directory for later perusal. See savecore(8) for details. To analyze a dump you should begin by running adb(1) with the -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. For more details consult Using ADB to Debug the UNIX Kernel.
SEE ALSO
adb(1), reboot(8) MC68020 32-bit Microprocessor User's Manual. Using ADB to Debug the UNIX Kernel. 4.3BSD for the HP300.
HISTORY
A crash man page appeared in Version 6 AT&T UNIX. NetBSD 7.1.2 January 12, 1994 NetBSD 7.1.2
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