Linux Installation History

• The PhoenixBIOS NoteBIOS v4.0 supports the suspend-to-disk or save-to-disk feature of the power management system. The point is that, to use the suspend-to-disk feature, I had to first prepare a disk partition for it. Since I didn't know the partition type required, I had to resort to the Window 95/98 utility, phdisk.exe, provided with the Notebook PC, see the readme.txt file in the System Drivers & Utility CD. The utility phdisk.exe is also included in another CD entitled Recorvery CD, which is bootable. Anyway, it turned out that the necessary partition type seems IBM Thinkpad hibernation, which could be created with the Linux fdisk (or cfdisk). Nevertheless, one may still need phdisk.exe because Linux cannot format such type of partition.
• At the end, however, I had to end up with repartitioing the whole hard disk! Damn!! The utility phdisk.exe, useful as it is, is extremely dangerous. Therefore, if one has any slightest idea to use the suspend-to-disk or save-to-disk feature, preparing the save-to-disk partition should be the very first thing he should do, far before installing any operating system.
• The command was so simple:

  A:> phdisk /c

  It created and formatted the partition /dev/hda4 of type IBM ThinkPad hibernation and with size 100,800 Kbyte. It also installed (probably on CMOS) the Phoenix NoteBIOS v4.0 Save To Disk Manager of Phoenix Technologies Ltd. Fortunately, it works fine so far.
• Partition table. Note that the utility phdisk.exe created the save-to-disk partition (/dev/hda4) automatically at the end of the hard disk. For some unknown reason, it left small amount of unused space at the end.

  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
  

• Below I enlist the diary of things I had tried cocerning this task, which were just waste of time but still might be useful for others.
• Nota Bene: cfdisk didn't work properly; failed to create propery exteded partion including logical partitions in it. fdisk worked fine. Actually, a strange thing has happened. At first, I used cfdisk to create a logical partition /dev/hda5 included in the extended partition /dev/hda4. The problem was /dev/hda4 has only the size just so as to contain /dev/hda5, no more logical partition. Not knowing that, I formatted /dev/hda5, which is mounted to /usr/local, and put some data. Later, using fdisk I deleted the extended partition /dev/hda4, but not /dev/hda5. Of course, /dev/hda5 was also deleted automatically. Then, I enlarged the size of /dev/hda4 and recreated /dev/hda5. Surprisingly, the data I put earlier survived this "disaster". At least, it looks like that, so far.
• Re-reading partition table failed; the following error has been generated by fdisk:

  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.
  

  After rebooting, no problem!

• There's a problem: It repeats one sequence of stream forever.
• Official release for Linux is still RealPlayer® 5.0 which is based on glibc-2.0 and contains a severe bug.
• This version, RealPlayer 7 beta for Linux (i386, glic-2.0) downloaded from the RealAudio site, works fine with SuSE Linux 6.2 (glibc-2.1).
• For installation, just run the binary file they provideo.
  (What about /usr/local/share/RealPlayer7 as a choice of the installation directory?)
• Don't forget to remove RealPlayer G2, which has been expired now.
  (rm -rfv /usr/local/RealPlayerG2; rm -fv ~/.RealNetworks_Real)

• Postfix® has been installed, to replace Sendmail.
• /etc/rc.config (YaST /System Administration /Change configuration file)

    POSTFIX_CREATECF="no"
    "It annoyingly misconfigure Postix. !!"
    POSTFIX_LOCAL_DOMAINS="$myhostname, localhost.$mydomain"
  

• /etc/postfix/main.cf

    myhostname = onoff.home
    mydestination = $myhostname, localhost.$mydomain, localhost
    "For some unknown reason, YaST didn't set this variable correctly."
  

• /etc/postfix/rate.cf

    mal_queue_lifetime = 1
  

• Official release for Linux is still RealPlayer® 5.0 which is based on glibc-2.0 and contains a severe bug.
• This version, downloaded from the RealPlayer site (I don't remember the exact URL), works fine with glibc-2.1.
• For installation, see README file included in the distribution.

• Since I had to rearrange the hard disk partition, this time, I couldn't update the existing system. I had to install new Linux from the scratch.
• Directly from ftp://ftp.suse.com/pub/suse/i386/6.2/, I installed Version 6.2 with no difficulty.
• MpegTV® 1.0 for Linux is now available as a shareware. Looks pretty good.
• I still have to install RealPlayer® 5.0, because they didn't put the package in the FTP dicrectory tree. Possibly the license problem. Since it worked (with a small patch) before, it should work with this version, too. Problem is that it's boring to download, install and configure it. :-(

• From ftp://ftp.suse.com/pub/suse/i386/6.1/, I could update the system to SuSE Linux 6.1 from the previous version 6.0. I followed the instructions in SuSE Linux Manual, Chapter 15 "Updating the system and package management".
• I uninstalled the two packages from SuSE Linux 6.0, sdb_cgi and suseppp, about which the YaST complained "There is no such packages in the installation medium. No update for these!"
• RealPlayer® 5.0 for Linux 2.0 does not work because it uses old C library (libc5). Fortunately, RealPlayer 5.0 for RedHat® 5.x is compiled with glibc (libc6), but it still has a problem which has something to do with /dev/dsp and old kernels 2.0.x. Thanks to B. Muller (real credit should be given to some other person), I could fix this bug by following his instruction.

• Slackware 3.6 was quite unstable and eventually down at some point, crashing the file system. And I switched to this new Linux distribution, S.u.S.E Linux 6.0, which looks perfect, at least, so far.
• I rebuilt the kernel; there was no need to fix such kerneld problems as I had to fix in Slackware 3.6 (see below the old installation history).
• I followed the standard FTP installation method for the S.u.S.E Linux, nothing special at all, but just in case, here I give a brief summary of procedures I followed to install the S.u.S.E Linux 6.0:
• Here, I summarize the procedures I followed to install the S.u.S.E Linux 6.0.

  1. I downloaded the boot disk eide01 from ftp://ftp.suse.com/pub/SuSE-Linux/6.0/disks/eide01, then with the command dd if=eide01 of=/dev/fd0 I could make an book disk. This boot disk included the module 3c589_cs for my PCMCIA Ethernet card (3Com 589D) as well as other required PCMCIA modules (quite a luck for me!).
  2. I could successfully boot the system with the new boot disk. The boot disk automatically lauched the installation/setup utility, called YaST, of S.u.S.E. Linux. From that point, all I had to do was to follow the menu-driven instructions of the YaST program. I chose FTP installation as the installation method.
  3. It took 2 hours or so to choose, download, and install the packages from the main FTP server ( ftp://ftp.suse.com/pub/SuSE-Linux/6.0/) of S.u.S.E. Linux. (Later, I found there is a mirroring site, ftp://sunsite.cnlab-switch.ch/, closer to Basel and much faster.

• The distribution Slackware 3.6 has been successfully installed from a hard disk partition with the Boot Disk 'bare.i' and the Root Disk 'color.gz'.
• [Kerneld problem] The Linux kernel 2.0.35 rebuilt from the kernel source tree had some serious problem with communication with the kerneld daemon; the result was that kerneld did not recognized which module was required and could not load the proper module required by the kernel. This problem was fixed with the help of README.kerneld in the modutils 2.1.121. The relevant part of this document reads like

  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
  

• [Unloadable modules errors] In the previouly build kernels, some times (e.g., when running the ifconfig), the kerneld forced modprobe to load some modules (ax25, ipx, appletalk), which cannot actually be absent and modprobe reported the following error messages:

  modprobe: can't locate module pf-3
  modprobe: can't locate module pf-4
  modprobe: can't locate module pf-5
  

  But this problme also have been resolved by the presciption described above. See also /usr/src/linux/Documentation/modules.txt.

• The distribution Slackware 3.4 has been successfully installed from the CD-ROM with the Boot Disk 'bare.i' and the Root Disk 'color.gz' (there is a PCI-detection problem, possibly, due to the CardBus bridge controller). The CD-ROM drive was detected by the kernel on the Boot Disk 'bare.i' as the device /dev/hdc. In fact, at first, I tried with 'net.i' boot disk, in order to install via NFS. For some unresolved reason, however, it does not boot the system.
• [Problem of RAM larger than 64MB] When I added an additional 64MB RAM module to the 32MB on-board memory, the Linux 2.0.33 reported only 64MB of RAM, apparently seems not able to determine how much memory the system had. This was fixed by adding "mem=96M" kernel argument on LILO prompt (see The Linux BootPrompt-HowTo):

   LILO: linux mem=96M 

  Later I added the line

   append = "mem=96M" 

  in the /etc/lilo.conf file. It is also interesting to notice that Linux 2.0.36, with which I tried even later, well recognized the full 96MB of the total RAM.
• Here, I summarize the steps I followed.

  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