Installing Debian 6 onto a VIA Epia 5000-L and IDE HDD

First boot with GUI
LXDE + Debian 6.0.5 on 10-year-old Epia 5000-L motherboard

I have a 10-year-old mini-ITX motherboard that I'm cobbling with a few parts into a useful system.

In this post, I discussed testing the old motherboard, and getting it to boot.

Since it arrived without any storage attached, in this post I discussed the hurdles getting it to boot Debian 6 from a USB drive. That wasn't easy, since the motherboard predated most forms of USB-boot, and the BIOS didn't support USB-HDD, the current standard for bootable USB.

Next, in this post, I discussed the adventure of using that USB boot to bootstrap a Debian install into an IDE-connected SD card. This didn't work out - one bootable IDE connector was defective, and a second worked...but wasn't bootable. I may return to this, since 3.5-inch HDDs are enormous - almost as big as the motherboard!

So I finally broke down and spent a few dollars on a 40GB HDD. This has the big advantage that the HDD can be partitioned for experimentation. Installing to the HDD is essentially the same process as installing to the SD card.

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Lessons Learned

Hooked up:
Left: PS/2 Mouse, PS/2 Keyboard, VGA Monitor,
           USB Wireless-g dongle
Bottom: Power button
Right: Power to HDD, Power from wall, IDE to HDD

1) The -i486 architecture is important. This motherboard is too old to support cmov, cx8, and pae. All three of those are in the latest Ubuntu kernels. cmov and cx8 are part of the i686 instruction set, so specifying a i486 kernel gets rid of them. pae is a new default since Debian 6.0. So a Debian 6.0 kernel compiled for x486 will be useful on the motherboard...until I get better at compiling my own kernels.

2) Debootstrap does not include the wireless-tools package, so a bootstrapped system won't have wireless access. Adding wireless-tools is trivial if you remember to do it: During the chroot session when installing the kernel and grub and configuring the accounts and fstab and hostname, install wireless-tools and configure /etc/network/interfaces too.

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For the first HDD experiment, I installed Debian 6 + LXDE onto a partition of the HDD.

Startup test: 45 Seconds from power-on to text-login prompt, 95 seconds to power-on to GDM login prompt.

Next tests: I want to try Debian Live for running the whole system in RAM. And I want to try modding the latest Ubuntu kernel to remove those three features and try Unity on it.

Creating a bootable USB drive when the BIOS supports only USB-ZIP

Mini-ITX Epia 5000-L motherboard, ready to boot.
The red USB stick is the boot medium,
1GB USB stick with a complete Debian 6 install
masquerading as a 250MB USB-ZIP drive.

My used mini-ITX motherboard has a BIOS limitation that prevents it from booting from ordinary hybrid-iso images. The BIOS doesn't recognize USB-HDD (the popular type used today), but only older USB-FDD (USB floppy drive, limited to 1.4MB) or USB-ZIP (USB Zip Drive, limited to 250MB).

Who today has useful systems that fit in 250MB?

This is a demonstration of how to use a chainloader to get around the 250MB restriction. Here is how to build a working full install of Debian 6 on a bootable USB Stick. It's a full install (not a live-install that uses a ramdisk), so all the slow read/writes to the USB stick will make the system very slow and wear out the USB stick prematurely. Again, this is just a demo of how to use a chainloader to get around that 250MB restriction.

1) Create the Linux system

This is the long and complicated part. Use debootstrap to create a complete system somewhere else. I explained how I did it in this post for an SD card, and it's almost exactly the same.

Creating the complete system in, say, /var/usb-env should include creating /boot/initrd.img.version# and vmlinuz.version# , but not grub. We will use initrd.img and vmlinuz in Step #3, and this demo uses the simpler syslinux instead of grub.

2) Prepare the USB Stick

To be understood by the old BIOS, the USB stick needs an MBR up front, followed by a FAT boot partition of less than 250MB and labeled as the 4th partition (though it's really the first partition). After that, we can do whatever we like.

The best tool for creating a USB-ZIP bootable partition is 'mkdiskimage', part of the syslinux package. Everything below should be done as root to the unmounted USB-stick:

MAKE SURE you are using the right /dev/DEVICE
    /dev/sdb was mine, but probably won't be yours!

# mkdiskimage -Mz4 -i usb-zip /dev/sdb 15 64 32
    -M and 15: Create a 15 MB partition (I only needed 12 MB)
    -z4: Create a zip-disk geometry on partition 4 (normal for zip disks)
    -i usb-zip: Name of the partition. Use any name you wish
    Of course, your /dev/DEVICENODE may vary. BE SURE you are using the right node!
    15 64 32: 15 MB (see -M), 64 heads, 32 sectors (62 and 32 are required for zip)

After the USB-ZIP partition is made, you can do the rest of the partitions in your favorite editor. I used Gparted to create a 700MB Linux partition and the remaining space on the device as a swap partition.

3) Install files onto the boot partition

The install files consist of the bootloader, and the Linux /boot/initrd.img.version# and vmlinuz.version# files. The bootloader simply tells the system to load the linux kernel (vmlinuz), then to load the temporary system startup files (initrd.img) that the kernel can understand. One of the appended command options tells initrd where to find the final system root mountpoint on the other partition.

There are many bootloaders that can be used here, including grub. For simplicity, I'm using syslinux instead of grub. I don't need all of grub's configuration options - I just want the bootloader to immediately start loading the kernel and initrd.

For syslinux, we only need four files on the boot partition: The syslinux binary, syslinux.cfg, vmlinuz, and initrd.img. We also need to know the UUID of the other partitions for the syslinux.cfg file.

Once again, MAKE SURE you are using the right /dev/DEVICE
    /dev/sdb was mine, but probably won't be yours!

    Check the USB stick partitions before mounting
# fsck -f /dev/sdb1  # Blank linux, -f forces a check
# fsck -f /dev/sdb4  # Blank boot

    Get the UUIDs of the various partitions
# blikd   # Get the UUIDs of the newly created partitions

    Install Syslinux 
# syslinux --install /dev/sdb4

    Mount the boot partition
# mount -t vfat /dev/sdb4 /mnt

    Copy vmlinuz and initrd.img from the prepared system.
    Rename the files to comply with MSDOS 8.3 format
# cp /var/usb-env/vmlinuz.version /mnt/vmlinuz
# cp /var/usb-env/initrd.img.version /mnt/initrd.img

    Create the syslinux.cfg file
# nano /mnt/syslinux.cfg    # Use any editor you wish

##### Begin File
Default USB-Stick

display syslinux.msg
F1      syslinux.f1

prompt 40
timeout 30

Label USB-Stick
  kernel vmlinuz
  append initrd=initrd.img root=UUID=>UUID of the root partition<
##### End file

    Unount the boot partition
# umount /mnt

4) Copy the linux system onto the USB Stick

Once again, MAKE SURE you are using the right /dev/DEVICE
    /dev/sdb was mine, but probably won't be yours!

    Mount the Linux partition
# mount /dev/sdb1 /mnt

    Copy the system files
# cp -r /var/usb-env/{bin,etc,home,lib,media,mnt,opt,root,sbin,selinux,srv,tmp,usr,var} /mnt/

    Create the system mountpoints
# mkdir /mnt/{boot,dev,proc,sys}

    Edit /etc/fstab to add the correct UUIDs for the root, boot, and swap partitions
    and remove the cruft from the creating-system disks.

If you need to discover a UUID, use the 'blkid' command.
# nano /mnt/etc/fstab     # Use any editor you wish, of course

#####Begin File
# <file system> <mount point> <type> <options> <dump>  <pass>
UUID=<UUID of the main system> / ext3 defaults,errors=remount-ro,noatime 0 1
UUID=<UUID of the boot partition> /boot vfat defaults,errors=remount-ro,noatime 0 2 
UUID=<UUID of the swap partition> none  swap sw 0 0 
#####End File

    Unmount the linux partition, check the USB stick for damage once more
# umount /mnt
# fsck -f /dev/sdb4
# fsck -f /dev/sdb1

Successful boot to Debian 6 login prompt!

5) You're Done

Unplug the USB stick, walk over to the system you want to boot, plug in the USB stick, and....well, boot.

Booting an old VIA EPIA-5000L motherboard

I purchased an old VIA fanless mini-ITX motherboard on eBay, including CPU and RAM and shipping, for a reasonable price ($43). I want to play with it and see what I can get it to do. Maybe build a cool case for it...

MB attached to ordinary ATX power supply, VGA monitor, and PS/2 Mouse.
Tiny black rectangle on the right is the on/off jumper.

Step 1: Hook it up

Happily, I have an old PS/2 keyboard, VGA monitor, and ATX power supply handy.
Hook them all up...and nothing.

Of course, the power switch.
Get the manual, read the manual, find the jumper, and use a spare jumper to connect them for a moment.

Hooray! Fans on the power supply start to spin! Beep! Splash appears on the monitor!

I made the following BIOS changes:

• Always restart upon power loss (since I don't have a power switch!)
• Enable fast startup (skip memtest, faster boot)
• Skip splash (annoying)
• Skip BIOS summary (annoying)
• Change the boot device to USB-ZIP (not USB-FDD, essential for USB-boot later)

Step 2: Create a Debian Boot USB drive.

This is a pretty old motherboard, so the standard USB-HDD booting option is missing. That means Live-USB (hybrid USB/CD) .iso files won't work without some tweaking. The available USB options are USB-ZIP and USB-FDD. A quick web search turns up this page of instructions, but it doesn't work. Further digging reveals this page, a version of which does work.

1. Select a USB Drive (small). Everything on it will be erased, so backup if needed.
2. On a different (working) Debian or Ubuntu system, as root (use 'sudo su' to get a root prompt on Ubuntu). Not all commands will work with sudo alone.
3. Plugin the USB drive. If your system automatically mounts it, then unmount (not eject) it.
4. Use dmesg to find the USB drive's /dev/sd* node. For example, mine was sdz and sdz3.
5. Format the USB drive to a bootable configuration. This will limit the accessible size to 250MB (the old ZIP-format maximum), so CD-sized live .isos won't work. See this page for mkdiskimage commands for other-size drives.

   mkdiskimage -4 /dev/sdz 0 64 32   # 1GB and below USB drives only

6. Install the MBR:

   cat /usr/lib/syslinux/mbr.bin > /dev/sdz

7. Get and install the boot image:

   wget -O /tmp/boot.img.gz http://ftp.debian.org/debian/dists/squeeze/main/installer-i386/current/images/hd-media/boot.img.gz
   zcat /tmp/boot.img.gz > /dev/sdz1

8. Download the Live Session image. In this case, I used a Debian businesscard installer simply because it was a very small download:

   wget -O /tmp/debian-6.0.3-i386-businesscard.iso http://cdimage.debian.org/debian-cd/6.0.3/i386/iso-cd/debian-6.0.3-i386-businesscard.iso
   md5sums /tmp/debian-6.0.3-i386-businesscard.iso

   Compare the md5sum result to http://cdimage.debian.org/debian-cd/6.0.3/i386/iso-cd/MD5SUMS
9. Mount the USB drive, and install the Live Session image:

   mkdir /tmp/usbmountpoint
   mount /dev/sdz3 /tmp/usbmountpoint
   cp /tmp/debian-6.0.3-i386-businesscard.iso /tmp/usbmountpoint/
   umount /tmp/usbmountpoint

10. Check the resulting filesystem, and correct any errors (there may be a couple!)

    fsck.msdos -r /dev/sdz3

    My resulting filesystem is about 214MB, below the 250MB limit.
    
11. Clean-up is optional, since all working files are in /tmp and will be deleted upon reboot anyway.
12. Unplug the USB drive (it should already be unmounted)

Step 3: Boot Debian

The BIOS should be set to a startup device of USB-ZIP (step 1), and you should have a Debian USB drive (step 2). Put them together - try to boot the new motherboard from it. In my case, success!

I don't have a hard drive installed yet, so I'm not ready to actually install. But this was a successful power-on and boot.


UPDATE #1: For Xmas, one of the kids got a toy butterly-in-a-jar. It has a "Try Me" feature for in the store, a button that detached after opening the package. The button's connector looked just right to fit the power jumper, and indeed now I have a real power button for the motherboard. This turns out to be handy, because a stable system needs better power control than flipping the switch on the power supply...and my new silent power supply has no switch!

UPDATE #2: A chainloader can be used to bypass the USB-ZIP 250MB boot limit. I did a successful USB-ZIP boot to a complete Debian 6 system.