A:> phdisk /c
Disk /dev/hda: 128 heads, 63 sectors, 787 cylinders Units = cylinders of 8064 * 512 bytes Device Boot Start End Blocks Id System /dev/hda1 * 1 356 1435360+ 83 Linux /dev/hda2 357 610 1024128 83 Linux /dev/hda3 611 761 608832 5 Extended /dev/hda4 762 786 100800 a0 IBM Thinkpad hibernation /dev/hda5 611 643 133024+ 82 Linux swap /dev/hda6 644 761 475744+ 83 Linux
The partition table has been altered! Clling ioctl() to re-read partition table. Syncing disks. Re-read table failed with error 16: Device or resource busy. Reboot your system to ensure the partition talbe is updated.
POSTFIX_CREATECF="no" "It annoyingly misconfigure Postix. !!" POSTFIX_LOCAL_DOMAINS="$myhostname, localhost.$mydomain"
myhostname = onoff.home mydestination = $myhostname, localhost.$mydomain, localhost "For some unknown reason, YaST didn't set this variable correctly."
mal_queue_lifetime = 1
cat /usr/doc/modutils-2.1.121/README.kerneld The "pid" extension: ------------------- The kerneld protocol can be extended to also send the pid of the process that triggered the kerneld event. The pid of the "triggering" process is then available to kerneld, and all programs that are started by kerneld, via the environment variable KERNELD_TRIGGER. If kerneld was triggered during an interrupt, the pid will be set to 0. The 2.0-kernels are prepared for this, the only thing you have to do is to uncomment the definition in linux/include/linux/kerneld.h, line 18: --- linux/include/linux/kerneld.h.org Mon Jun 10 18:16:31 1996 +++ linux/include/linux/kerneld.h Mon Jun 10 18:17:24 1996 @@ -14,8 +14,8 @@ * Uncomment the following line for the new kerneld protocol * This includes the pid of the kernel level requester into the kerneld header */ -/* #define NEW_KERNELD_PROTOCOL +/* */ #ifdef NEW_KERNELD_PROTOCOL #define OLDIPC_KERNELD 00040000 /* use the kerneld message channel */ I have tried to make kerneld backwards compatible with un-patched kernels, but the patch will require a re-compile of all kerneld-type daemons... The reason for this extension is to make it possible to e.g. create "just-in-time" debuggers for Linux, that are started whenever a fault is detected by the kernel. Another use is to enable custom made "beeps", via the kdsound daemon in the GOODIES directory. The command name, used to select the "beep", can easily be found in the "/proc//cmdline" file, or via e.g.: set `ps hc $KERNELD_TRIGGER` case $5 in xbiff) ..... ;; bash) .... ;; *) ... ;; esac
modprobe: can't locate module pf-3 modprobe: can't locate module pf-4 modprobe: can't locate module pf-5
LILO: linux mem=96M
append = "mem=96M"
1. Preparation of Boot/Root Disks. # This is necessary especially for the Boot Disk. > fdformat /dev/fd0u1440 > dd if=bare.i of=/dev/fd0 > fdformat /dev/fd0u1440 > dd if=color.gz of=/dev/fd0 2. Boot the system with the Boot/Root Disks. After the system boots succefully, > fdisk The partition table looks like: Disk /dev/hda: 128 heads, 63 sectors, 787 cylinders Units = cylinders of 8064 * 512 bytes Device Boot Begin Start End Blocks Id System /dev/hda1 * 1 1 77 310432+ 83 Linux native /dev/hda2 78 78 585 2048256 5 Extended /dev/hda3 586 586 602 68544 82 Linux swap /dev/hda4 603 603 787 745920 6 DOS 16-bit >=32M /dev/hda5 78 78 331 1024096+ 83 Linux native /dev/hda6 332 332 585 1024096+ 83 Linux native The file system table looks like: Filesystem 1024-blocks Used Available Capacity Mounted on /dev/hda1 300513 15799 269193 6% / /dev/hda5 991000 323533 616263 34% /usr /dev/hda6 991000 260843 678953 28% /home 3. Reboot the system with the new partition table. 4. After the system boots successfully, > setup