Otter: Difference between revisions
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===Disks=== | ===Disks=== | ||
It had two 30 GB drives when I got it. I replaced the second hard drive with an 80 GB leftover from a laptop upgrade. | It had two 30 GB drives when I got it. I replaced the second hard drive with an 80 GB leftover from a laptop upgrade. | ||
The 30 GB drive is a Toshiba MK3017. The 80 GB drive is a [http://www.fel.fujitsu.com/home/v3__product.asp?pid=470&inf=cfg&wg=13Fujitsu MHV2080AT]. | |||
===Memory=== | ===Memory=== | ||
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I can PXEboot from a Linux desktop system into a rescue mode. | I can PXEboot from a Linux desktop system into a rescue mode. | ||
===Fans=== | ===Fans=== |
Revision as of 01:33, 29 April 2007
Otter is a Toshiba Magnia SG-20.
History
03-2007-- I've had it for several years now. I used it with the stock Redhat 7.2 for about a year, then shut it down for a while. When I started writing this page, I did most of the upgrades described here.
Hardware
Disks
It had two 30 GB drives when I got it. I replaced the second hard drive with an 80 GB leftover from a laptop upgrade.
The 30 GB drive is a Toshiba MK3017. The 80 GB drive is a MHV2080AT.
Memory
I pulled a 512MB PC133 DIMM out of a computer that I got dumpster diving, it works fine. It's not ECC, so I had to hookup an AGP video card and keyboard and turn off ECC in BIOS. While I was in there I set it to boot from the network. I can PXEboot from a Linux desktop system into a rescue mode.
Fans
The stock power supply fan was too noisy, so I hacked out the case a bit for more air flow. Then I put a 80 mm fan on top of the power supply and run it at a low speed.
Software
Boot from network
You can bypass the hard drive and boot your Magnia from another server on your network. It's not easy, as you have to get BIOS access to switch it on, but once it's set it's set forever.
If you try "PXEboot", you need to set the network adapter in the Magnia to use LAN for booting and you need to use the WAN network port. It's an Intel Etherpro 100. The SG-20 will netboot off any of the other network ports; not the etherswitch LAN ports nor the wireless card if you have one.
I used the "Trinity Rescue Kit", build 279 and was able to ssh into the Magnia. I hacked the TRK startup scripts to allow this; by default it will require entering a new root password from the Magnia console (which is not hooked up, that's the whole point of the netboot.)
Having network booting means that I have another option when the system won't boot from its internal drives. I can netboot, then use ssh to log into the machine and see what happened when it booted, see if it properly detected the hard drives and peripherals and so on.
For example, right now my Magnia is not bootable from the hard drive but I can see this by typing 'dmesg' after booting with TRK.
Probing IDE interface ide0... hda: TOSHIBA MK3017GAP, ATA DISK drive hdb: FUJITSU MHV2080AT, ATA DISK drive
This means that it's seeing both drives; I had to change the jumpers on the 80 GB drive from Master to CSEL (cable select) mode by adding a jumper before the Magnia could see it. I just added this drive from a laptop that I upgraded.
Using the TRK, I can mount /dev/hda1 (where I installed Ubuntu) and edit critical system files. The problem turned out to be in the configuration of the network interfaces. I installed Ubuntu onto the 30 GB drive using a VMWare virtual machine and it set up the ethernet interface wrong.
It was finding the network card as '/dev/eth2' instead of '/dev/eth0' so it was not working.
Boot from hard drive
As I mentioned above I did install Ubuntu 6.10 Server onto my Magnia, and it's running now.
The big deal with operating system upgrades on the Magnia's is the fan control for the CPU and System fans. Without the proper control software, the fans stay on all the time.
I tried installing Debian on it a couple times but then decided I did not want to go with either the Stable (= OLD) or Unstable editions for this server. Ubuntu is closer to the head of the tree for software releases, and the desktop edition is running on two other machines that I use here at home. So Ubuntu it is.
Set up for image
hda1 3.0 GB / ext3 The root filesystem hda2 3.0 GB ext3 Alternate root partition for later upgrades hda3 ext hda5 500 MB SWAP hda6 The rest
I am not mounting the other filesystems right now, to make it easier for you to customize or install onto drives of other sizes.
My installation includes the options for DNS and LAMP services. DHCP is turned on. So is ssh.
Usernames and passwords:
root / admin sshuser / user
I suggest you bring the system up disconnected from the Internet, and change these passwords before connecting it. Connect via ssh and use the command
sudo passwd sshuser sudo passwd root
If you need an ssh client for Windows, I recommend 'putty'.
Other packages that I added
I enabled the 'universe' packages by uncommenting the appropriate line in /etc/apt/sources.list then I added
- emacs21-nox emacs text editor
- xfsprogs tools for xfs filesystems
I recommend the use of the XFS filesystem over EXT3 for large (> 1 GB) partitions. I keep the root filesystem on EXT3 because it makes things easier when using recovery tools.
I also added the packages necessary to compile the lcd/fan control program.
Add ons
LCD and Fans
The 'lcd' program is available in source code form from the SG-20 group area on groups.yahoo.com. I compiled and installed it, now I get proper readings on the lcd display. THANKS Hans-Michael and Eric! It uses lm-sensors and smartmonctl.
I hacked it a bit to make it work on my SG-20. I also added a Fahrenheit mode. See /etc/default/lcd Source code is in /usr/src/lcd-2.1/
The lm-sensors package adds the ability to read the system sensors. The standard Ubuntu 2.6 kernel + lm-sensors will give you output like this:
# sensors via686a-isa-6000 Adapter: ISA adapter CPU core: +1.76 V (min = +0.06 V, max = +3.10 V) +2.5V: +2.48 V (min = +2.36 V, max = +2.61 V) I/O: +3.36 V (min = +3.12 V, max = +3.45 V) +5V: +5.03 V (min = +4.73 V, max = +5.20 V) +12V: +11.59 V (min = +11.35 V, max = +12.48 V) CPU Fan: 5720 RPM (min = 0 RPM, div = 2) P/S Fan: 5578 RPM (min = 0 RPM, div = 2) SYS Temp: +15.6°C (high = +146°C, hyst = +133°C) CPU Temp: +16.2°C (high = +146°C, hyst = +133°C) SBr Temp: +24.8°C (high = +141°C, hyst = +54°C)
The smartmontools package talks to the hard disk drives, and can get the drive temperature if the drive has a sensor. I have two drives, the Toshiba drive does not have any sensor but the newer Fujitsu drive does.
Fan control
I put a copy of the fan control program in /usr/bin/fanctl, so that I can type
fanctl --cpu=off --system=off
to turn off the noisy fans when I want to.
Web server
Apache is running but nothing special is installed.
Database server: mysql username and password: root/admin (set with "mysqladmin password admin")
Firewall
I briefly looked at "Shorewall" and decided it was too complex. "Firestarter" requires an X client. The one that seems most appropriate for this project is "lokkit". So I installed that. Lokkit is a simple tool you run to set up iptables rules.
Printing services
I installed cupsys to allow the system to work as a print server. This was one of my primary goals for this system, to allow printing from any of my computers on my little Canon inkjet printer.
This also requires USB support. If you have an SG-30, fine. I happen to have an SG-20 which does not have built in USB ports so I got a PCMCIA card. I plugged in a pair of USB headphones to try the USB card out and the Magnia froze up, so I might end up not using the USB printer after all. Oh well. :-(
I modified /etc/cups/cupsys.conf so that its built-in web server listens on all ethernet addresses, not just localhost. Connect with a browser to port 631, http://mymagnia:631/ for example. You should consider editing /etc/cups/cupsys.conf file to allow connections only from your local network.
Support for Windows clients with Samba
I installed Samba so that you can share file and print services with Windows clients. I installed 'swat' so that you can change the Samba configuration using a web browser. I installed 'inetd' since swat runs as an inetd service. Connect to it with a web browser. It runs on port 901. So for example, http://mymagnia:901/
Personally I don't use swat but I thought you might want to.
DHCP
I installed the DHCPd server. I did not configure it, so it won't start at boot time. You must edit /etc/dhcpd.conf to get it to start on your network.