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We've gone ahead and moved the 6.6 kernel into the main tree. As previously mentioned when this branch first appeared in /testing, on the 32-bit side there are no longer any -smp labeled kernel packages, so if you were using those previously, you'll need to switch to using to kernel-generic or kernel-huge kernel, including the changes needed to your bootloader setup to load this instead of the -smp labeled kernel. Also, if you happen to be using a first generation Pentium M chip, you will need to append forcepae to your kernel command-line options. Enjoy! :-) a/kernel-firmware-20231211_f2e52a1-noarch-1.txz: Upgraded. a/kernel-generic-6.6.6-x86_64-1.txz: Upgraded. a/kernel-huge-6.6.6-x86_64-1.txz: Upgraded. a/kernel-modules-6.6.6-x86_64-1.txz: Upgraded. ap/qpdf-11.6.4-x86_64-1.txz: Upgraded. d/kernel-headers-6.6.6-x86-1.txz: Upgraded. k/kernel-source-6.6.6-noarch-1.txz: Upgraded. l/imagemagick-7.1.1_23-x86_64-1.txz: Upgraded. l/libsecret-0.21.2-x86_64-1.txz: Upgraded. Thanks to reddog83 and saxa. l/zxing-cpp-2.2.1-x86_64-1.txz: Upgraded. n/postfix-3.8.3-x86_64-2.txz: Rebuilt. OpenSSL upstream says that major versions are ABI/API compatible, so stop warning in the logs that they might not be. Thanks to gildbg and Markus Wiesner. isolinux/initrd.img: Rebuilt. kernels/*: Upgraded. usb-and-pxe-installers/usbboot.img: Rebuilt.
552 lines
19 KiB
Text
552 lines
19 KiB
Text
Slackware RAID HOWTO
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Version 1.02
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2013/03/09
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by Amritpal Bath <amrit@slackware.com>
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Contents
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===============================================================================
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- Changelog
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- Introduction
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- Warnings
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- Planning
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- Setup
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- Using the generic kernel
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- Troubleshooting
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- Appendices
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- Acknowledgements/References
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Changelog
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===============================================================================
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1.02 (2013/05/16):
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- Various fixups
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1.01 (2011/03/15):
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- Added Robby Workman's --metadata edits per James Davies' tip.
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1.00 (2008/04/09):
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- Intitial release.
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Introduction
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===============================================================================
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This document explains how to install Slackware 13.0 (and beyond) on a
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software RAID root filesystem. It is meant to cover only software raid.
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If you are using a RAID expansion card, or the RAID functionality that came
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with your motherboard, this document will not be useful for you.
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In order to follow this document, your computer must have two or more empty
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hard drives. While it is possible to be creative and create RAID arrays on
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drives that already contain data, it can be error prone, so it is not
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covered in this document.
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Warnings
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===============================================================================
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If you perform the following instructions on hard drives with data on them,
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YOU WILL LOSE ALL OF YOUR DATA.
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If you wish to perform these operations on hard drives that hold data of
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any importance, you MUST BACKUP YOUR DATA. The procedure below will
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destroy all of the data on your hard drives, so any important data will
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need to be restored from your backups.
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One more time: *BACKUP YOUR DATA, OR YOU WILL LOSE IT!*
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If you don't backup your data and end up losing it, it will be your fault.
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There is nothing I can do to help you in that case.
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Now, on with the show... :)
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Planning
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===============================================================================
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The first step is to determine which RAID level you want to use.
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It is recommended that you familiarize yourself with basic RAID concepts,
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such as the various RAID levels that are available to you. You can read
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about these in various places - consult your favorite search engine about
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"raid levels", or see the References section.
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Here's a quick summary of the more common RAID levels:
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- RAID 0: Requires 2 drives, can use more. Offers no redundancy, but
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improves performance by "striping", or interleaving, data between all
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drives. This RAID level does not help protect your data at all.
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If you lose one drive, all of your data will be lost.
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- RAID 1: Requires 2 drives, can use more. Offers data redundancy by
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mirroring data across all drives. This RAID level is the simplest way
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to protect your data, but is not the most space-efficient method. For
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example, if you use 3 drives in a RAID 1 array, you gain redundancy, but
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you still have only 1 disk's worth of space available for use.
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- RAID 5: Requires 3 drives, can use more. Offers data redundancy by
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storing parity data on each drive. Exactly one disk's worth of space
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will be used to hold parity data, so while this RAID level is heaviest
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on the CPU, it is also the most space efficient way of protecting your
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data. For example, if you use 5 drives to create a RAID 5 array, you
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will only lose 1 disk's worth of space (unlike RAID 1), so you will
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end up with 4 disk's worth of space available for use. While simple to
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setup, this level is not quite as straightforward as setting up RAID 1.
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Setup
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===============================================================================
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=== Partition hard drives ===
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Once you have booted the Slackware installer CD, the first step is to
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partition the hard drives that will be used in the RAID array(s).
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I will assume that your first RAID hard drive is /dev/sda. If it is
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/dev/hda or something similar, adjust the following commands appropriately.
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You can see your drives by running: cat /proc/partitions
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- /boot: RAID 0 and RAID 5 users will require a separate boot partition, as
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the computer's BIOS will not understand striped devices. For
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simplicity's sake, we will make /boot a small RAID 1 (mirror) array.
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This means that in the case of RAID 0, it will not matter which drive
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your BIOS attempts to boot, and in the case of RAID 5, losing one drive
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will not result in losing your /boot partition.
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I recommend at least 50MB for this partition, to give yourself room to
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play with multiple kernels in the future, should the need arise. I tend
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to use 100MB, so I can put all sorts of bootable images on the partition,
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such as MemTest86, for example.
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Go ahead and create a small boot partition now on /dev/sda, via cfdisk
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(or fdisk, if you prefer).
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Ensure that the partition type is Linux RAID Autodetect (type FD).
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- /: Every setup will require a root partition. :) You will likely want to
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create a partition takes up most of the rest of the drive. Unless you
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are using LVM (not covered in this document), remember to save some space
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after this partition for your swap partition! (see below)
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If you are not creating a swap partition, I recommend leaving 100MB of
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unused space at the end of the drive. (see "safety" for explanation)
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Go ahead and create your main partition now on /dev/sda, via cfdisk
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(or fdisk, if you prefer).
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Ensure that the partition type is Linux RAID Autodetect (type FD).
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- swap: Swap space is where Linux stores data when you're running low on
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available RAM. For fairly obvious reasons, building this on RAID 0 could
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be painful (if that array develops a bad sector, for example), so I tend
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to build swap on RAID 1 as well. If you understand the danger and still
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want to build swap on RAID 0 to eke out as much performance as possible,
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go for it.
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For RAID 1 swap, create a partition that is the exact size that you want
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your swap space to be (for example, 2GB, if you can't decide).
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For RAID 0 swap (not recommended), create a partition that is equivalent
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to the swap size you want, divided by the number of drives that will be
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in the array.
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For example, 2GB / 3 drives = 683MB swap partition on /dev/sda.
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Ensure that the partition type is Linux RAID Autodetect (type FD).
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I recommend leaving 100MB of unused space at the end of the drive.
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(see "safety" for explanation)
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See also: Appendix A - Striping swap space without RAID 0.
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- safety! I highly recommend leaving 100MB of unpartitioned space at the
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end of each drive that will be used in the RAID array(s).
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In the event that you need to replace one of the drives in the array,
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there is no guarantee that the new drive will be exactly the same size as
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the drive that you are replacing. For example, even if both drives are
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750GB, they may be different revisions or manufacturers, and thus have a
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size difference of some small number of megabytes.
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This is, however, enough to throw a wrench in your drive-replacement
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plans - you cannot replace a failed RAID drive with one of a smaller size,
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for obvious reasons. Having that small 100MB buffer just may save your
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bacon.
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=== Copy and review partitions ===
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Now that /dev/sda is partitioned as appropriate, copy the partitions to all
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the other drives to be used in your RAID arrays.
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An easy way to do this is:
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sfdisk -d /dev/sda | sfdisk --Linux /dev/sdb
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This will destroy all partitions on /dev/sdb, and replicate /dev/sda's
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partition setup onto it.
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After this, your partitions should look something like the following:
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- RAID 0:
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/dev/sda1 50MB /dev/sdb1 50MB
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/dev/sda2 100GB /dev/sdb2 100GB
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/dev/sda3 2GB /dev/sdb3 2GB
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- RAID 1:
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/dev/sda1 100GB /dev/sdb1 100GB
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/dev/sda2 2GB /dev/sdb2 2GB
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- RAID 5:
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/dev/sda1 50MB /dev/sdb1 50MB /dev/sdc1 50MB
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/dev/sda2 100GB /dev/sdb2 100GB /dev/sdc2 100GB
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/dev/sda3 2GB /dev/sdb3 2GB /dev/sdc3 2GB
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All partition types should be Linux RAID Autodetect (type fd).
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=== Create RAID arrays ===
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Now it's time to create the actual RAID arrays based on the partitions that
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were created.
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The parameters for each of these RAID commands specifies, in order:
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- the RAID device node to create (--create /dev/mdX)
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- the name to use for this array (--name=X)
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Note that there is no requirement that you use this format, i.e.
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/dev/md0 --> name=0 ; the result is that /dev/md0 will be /dev/md/0,
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which means you could also do e.g. --name=root and get /dev/md/root
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- the RAID level to use for this array (--level X)
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- how many devices (partitions) to use in the array (--raid-devices X)
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- the actual list of devices (/dev/sdaX /dev/sdbX /dev/sdcX)
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- this is not present on all of them, but "--metadata=0.90" tells mdadm
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to use the older version 0.90 metadata instead of the newer version;
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you must use this for any array from which LILO will be loading a
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kernel image, or else LILO won't be able to read from it.
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- OPTIONAL: if you know the hostname you plan to give the system, you
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could also specify "--homehost=hostname" when creating the arrays.
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Start by creating the RAID array for your root filesystem.
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- RAID 0:
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mdadm --create /dev/md0 --name=0 --level 0 --raid-devices 2 \
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/dev/sda2 /dev/sdb2
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- RAID 1:
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mdadm --create /dev/md0 --level 1 --raid-devices 2 \
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/dev/sda1 /dev/sdb1 --metadata=0.90
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- RAID 5:
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mdadm --create /dev/md0 --name=0 --level 5 --raid-devices 3 \
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/dev/sda2 /dev/sdb2 /dev/sdc2
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Next, let's create the array for the swap partition. This will be RAID 1
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regardless of which RAID level your root filesystem uses, but given our
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partition layouts, each command will still be slightly different.
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- RAID 0:
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mdadm --create /dev/md1 --name=1 --level 1 --raid-devices 2 \
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/dev/sda3 /dev/sdb3
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- RAID 1:
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mdadm --create /dev/md1 --name=1 --level 1 --raid-devices 2 \
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/dev/sda2 /dev/sdb2
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- RAID 5:
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mdadm --create /dev/md1 --name=1 --level 1 --raid-devices 3 \
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/dev/sda3 /dev/sdb3 /dev/sdc3
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Finally, RAID 0 and RAID 5 users will need to create their /boot array.
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RAID 1 users do not need to do this.
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- RAID 0:
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mdadm --create /dev/md2 --name=2 --level 1 --raid-devices 2 \
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/dev/sda1 /dev/sdb1 --metadata=0.90
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- RAID 5:
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mdadm --create /dev/md2 --name=2 --level 1 --raid-devices 3 \
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/dev/sda1 /dev/sdb1 /dev/sdc1 --metadata=0.90
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We're all done creating our arrays! Yay!
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=== Run Slackware setup ===
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First, let's format our swap array, so the installer recognizes it:
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mkswap /dev/md1
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Now run 'setup' as normal.
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When you choose to setup your swap partitions, /dev/md1 will show up.
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Continue with this selected.
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When asked for the target partition, choose the root array (/dev/md0).
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You may choose the format method and filesystem of your choice.
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RAID 0 and RAID 5 users must also setup /boot. When asked about setting up
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extra partitions, choose /dev/md2. When asked where to mount this device,
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enter "/boot".
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After this, continue installation as normal.
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For LILO configuration:
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- When asked about LILO, choose the "simple" setup.
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- When asked about additional "append=" parameters, RAID 0 and
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RAID 5 users should type in "root=/dev/md0", to ensure that the proper
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array is mounted on / at bootup.
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- When asked about where to install LILO, choose MBR.
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You may see some warnings scroll by. This is OK.
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=== Finishing touches ===
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After exiting the installer, we have just a few settings to tweak.
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Start by switching into your actual installation directory:
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- chroot /mnt
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Let's make sure LILO boots from the RAID arrays properly. Using your
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favorite editor (vim/nano/pico), edit /etc/lilo.conf:
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- add a new line (add it anywhere, but don't indent it):
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raid-extra-boot = mbr-only
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- You will need to change the following line:
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boot = <something>
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RAID 0 and RAID 5 users, change it to:
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boot = /dev/md2
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RAID 1 users, change it to:
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boot = /dev/md0
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- Save the file and exit your editor.
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- run "lilo".
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Now's let's create a customized /etc/mdadm.conf for your system:
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- mdadm -Es > /etc/mdadm.conf
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You should get something like this (note that this output is not consistent
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with the instructions above):
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ARRAY /dev/md0 UUID=bb259b84:6bf27834:208cdb8d:9e23b04b
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ARRAY /dev/md1 metadata=1.2 UUID=ea798427:4ae79ea8:9e7e263d:5ae8f69e name=slackware:1
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ARRAY /dev/md2 metadata=1.2 UUID=4ca90e7a:99de6d09:f1f9ca9d:b2ea6e1b name=slackware:2
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If this is done on a live running system, you will notice that the arrays
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created with 1.2 metadata will show /dev/md/$name (e.g. /dev/md/1) instead
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of /dev/md1 in /etc/mdadm.conf; this is perfectly acceptable, and actually
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preferable, so you might want to go ahead and fix that now.
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If you plan to run the generic kernel (which is probably necessary, but you
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are certainly welcome to try the huge kernel instead), then continue on to
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the next section; otherwise, skip to the exit and reboot part.
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Using the generic kernel
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===============================================================================
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The official Slackware recommendation is to switch to the "generic"
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Slackware kernel after installation has been completed. If you wish to use
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the generic kernel, you must create an initrd. This section gives a quick
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example of booting a RAID system in this fashion.
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If you require more information on initrds, please read /boot/README.initrd.
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Typically, a user switches to a generic kernel by booting the system, and
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afterwards running the following:
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- cd /boot
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- rm vmlinuz System.map config
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- ln -s vmlinuz-generic-* vmlinuz
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- ln -s System.map-generic-* System.map
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- ln -s config-generic-* config
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Don't run lilo yet, we'll do that soon.
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Next, edit (create, if necessary) /etc/mkinitrd.conf and add:
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MODULE_LIST="ext4"
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RAID="1"
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Obviously, this assumes that you are using the EXT4 filesystem. If you are
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using another filesystem, adjust the module appropriately (reiserfs or xfs,
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for example). If you wish to read more about the MODULE_LIST variable,
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consult "man mkinitrd.conf". Alternatively, you might find that the helper
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script at /usr/share/mkinitrd/mkinitrd_command_generator.sh works well for
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you by doing this:
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/usr/share/mkinitrd/mkinitrd_command_generator.sh > /etc/mkinitrd.conf
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Note: If the module for your hard drive controller is not compiled into the
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generic kernel, you will want to add that module to the MODULE_LIST variable
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in mkinitrd.conf. For example, my controller requires the mptspi module, so
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my /etc/mkinitrd.conf looks like:
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MODULE_LIST="ext4:mptspi"
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RAID="1"
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We're almost done.
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Edit /etc/lilo.conf, and find the line at the very end that says:
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image = /boot/vmlinuz
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Add a new line after it that says:
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initrd = /boot/initrd.gz
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In this case, be sure to indent the line you've added!
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Next, create the initrd based on the config file created earlier.
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mkinitrd -F
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Finally, run "lilo" to make the new settings take effect, give yourself a
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pat on the back, and reboot your finished system. :)
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When that's done, let's exit the installation and reboot:
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- exit
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- reboot
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Voila!
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Troubleshooting
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===============================================================================
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Any number of typos can result in a system that does not boot on its own,
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but all is not lost. Put the rubber chicken and the lemon away...
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Booting your Slackware media (DVD, for example) can make it very easy to
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switch into your installed system and make repairs:
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- Boot Slackware CD/DVD.
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- Login to installer as normal.
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- Scan for, and then assemble the RAID arrays:
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mdadm -Es > /etc/mdadm.conf
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mdadm -As
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- Mount root partition:
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mount /dev/md0 /mnt
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- Switch to installed OS:
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chroot /mnt
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- Mount remaining filesystems:
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mount /boot (RAID 0 and RAID 5 users only)
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mount /proc
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mount sys /sys -t sysfs
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At this point, you can bring up your favorite editor, tweak config files,
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re-run mkinitrd/lilo/etc as you wish, or anything else you need to do to
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make your system bootable again.
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When you're finished making your changes, rebooting is simple:
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- cd /
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- umount boot proc sys
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- exit
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- reboot
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If you are having issues that you're unable to resolve, shoot me an email.
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Perhaps the answer will make it into this section. :)
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Appendices
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||
===============================================================================
|
||
|
||
=== Appendix A: Striping swap space without RAID 0 ===
|
||
|
||
For completeness' sake, I should mention that swap space can be striped to
|
||
improve performance without creating a RAID 0 array.
|
||
|
||
To accomplish this, start by forgetting about any instructions having to do
|
||
with /dev/md1, which would be our swap array - create the swap partitions on
|
||
the hard drives, but do not create this particular array.
|
||
|
||
When creating the swap partitions, ensure that the partition type is set to
|
||
Linux Swap (type 82).
|
||
|
||
During setup, the installer will recognize the swap partitions. Ensure that
|
||
all of them are selected, and continue as normal.
|
||
|
||
|
||
After installation is complete, go ahead and boot your system - we can
|
||
finish this once the system is booted, in the interest of simplicity.
|
||
|
||
|
||
When the system boots, edit /etc/fstab with your favorite editor. Find the
|
||
lines that describe your swap partitions - they say "swap" in the second
|
||
column.
|
||
|
||
Each of these lines says "default" in the fourth column. Simply change that
|
||
to "default,pri=0" for each line.
|
||
|
||
After saving the file, either reboot, or simply run:
|
||
swapoff -a
|
||
swapon -a
|
||
|
||
To confirm that the setting has taken effect, you can run:
|
||
swapon -s
|
||
|
||
Verify that the Priority column reads 0 for each partition, and we're done!
|
||
|
||
|
||
|
||
|
||
Acknowledgements/References
|
||
===============================================================================
|
||
|
||
- In depth explanation of RAID levels:
|
||
"LasCon Storage - Different types of RAID"
|
||
http://www.lascon.co.uk/d008005.htm
|
||
|
||
- Thanks to John Jenkins (mrgoblin) for some tips in:
|
||
"Installing with Raid on Slackware 12.0+"
|
||
http://slackware.com/~mrgoblin/articles/raid1-slackware-12.php
|
||
|
||
- Thanks to Karl Magnus Kolst<73> (karlmag) for his original writeup on
|
||
Slackware and RAID, ages ago!
|
||
"INSTALLING SLACKWARE LINUX version 8.1 WITH ROOT PARTITION ON A SOFTWARE
|
||
RAID level 0 DEVICE"
|
||
http://slackware.com/~mrgoblin/articles/raid0-slackware-linux.php
|
||
|
||
- Of course, thanks to Patrick "The Man" Volkerding for creating Slackware!
|
||
http://slackware.com/
|
||
|
||
- Also thanks to the rest of the guys that proofread, tested, and suggested!
|
||
Eric Hameleers (alienBOB), Robby Workman, Alan Hicks,
|
||
Piter Punk, Erik Jan Tromp (alphageek)...
|
||
|
||
- My contact info:
|
||
Primary email: amrit@slackware.com
|
||
Secondary email: amrit@transamrit.net
|
||
On certain IRC networks: "amrit" (or some variation :) )
|
||
|
||
- This latest version of this document can be found at:
|
||
http://slackware.com/~amrit/
|
||
http://transamrit.net/docs/slackware/
|