README.md
These are 1.44 MB bootdisk images for Slackware Linux 8.1.0.

These disks use Linux kernel version 2.4.18.

If you are unable to boot the Slackware CD directly, then you'll need one of
these to get Linux started on your system so that you can install it.
There are many bootdisks to support a wide variety of hardware -- read the
details below to select the one that's right for your machine.

You will be using the bootdisk to load the installation rootdisks, or a
rescue disk image. See the /rootdisks directory for these.

A bootdisk is created by writing the image to a formatted floppy disk
with RAWRITE.EXE under DOS. For example, to use RAWRITE.EXE to create the
bare.i bootdisk you'd put a formatted disk in your floppy drive and issue
the following command:

C:\> RAWRITE BARE.I A:

*******************************************************************************
* Tip: If you have no idea which bootdisk to use, start with "bare.i". This *
* is the correct disk to use for most systems with IDE peripherals. *
*******************************************************************************

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Here's a description of the disks:

These are the bootdisks for IDE based systems. All IDE bootdisks support
IDE hard drives and CD-ROM drives, plus additional support listed below.

bare.i This is the disk to use for installation on most IDE
based PCs, with support for nearly all IDE controllers
and support for IDE/ATAPI CD-ROM/DVD drives.
Most CD-ROM drives made today fall into this category.

jfs.i A version of bare.i with support for IBM's Journaled
Filesystem. This required patches to the kernel which
you can find in source/k/jfs/ if you need to rebuild the
kernel.

lowmem.i This is a really stripped-down Linux kernel which might
be useful for installing on IDE systems with a low
amount of RAM (less than 8MB). If bare.i runs into
problems, you might try this. NOTE: On systems with
extremely low memory (4MB), ZipSlack plus the
fourmeg.zip add-on (found in the zipslack directory)
may boot and run even in cases where lowmem.i doesn't.
If use have to use lowmem.i to install, you'll then
probably have to compile a custom kernel with the
minimal additional features that your machine requires.

old_cd.i This is a version of bare.i with additional support
for old CD-ROM drives on non-standard proprietary
interfaces. The CD-ROM drives supported by this
bootdisk are:
Aztech CDA268-01A, Orchid CD-3110, Okano/Wearnes CDD110,
Conrad TXC, CyCDROM CR520, CR540.
Sony CDU31/33a CD-ROM.
Sony CDU531/535 CD-ROM.
Philips/LMS cm206 CD-ROM with cm260 adapter card.
Goldstar R420 CD-ROM (sometimes sold in a 'Reveal
Multimedia Kit').
ISP16/MAD16/Mozart CD-ROM drives.
(Boot time command line options (or 'append=' options
in /etc/lilo.conf) are:
isp16=<port>,<irq>,<dma>,<drive_type>
Valid values for drive_type include: Sanyo, Panasonic
(same as Sanyo), Sony and Mitsumi. Default values are:
port=0x340, irq=0, dma=0, drive_type=Sanyo.)
NON-IDE Mitsumi CD-ROM support.
Optics Storage 8000 AT CD-ROM (the 'DOLPHIN' drive).
Sanyo CDR-H94A CD-ROM support.
Matsushita, Kotobuki, Panasonic, CreativeLabs
(Sound Blaster), Longshine and Teac NON-IDE CD-ROM
support.

pportide.i This is an extended version of bare.i with support for
a wide variety of parallel-port IDE devices. Supports
parallel-port products from MicroSolutions,
Hewlett-Packard, SyQuest, Imation, Avatar, and other
manufacturers.



speakup.i This is like the bare.i (standard IDE) disk, but has
support for Speakup. Speakup provides access to Linux
for the visually impaired community. It does this by
sending console output to a number of different
hardware speech synthesizers. It provides access to
Linux by making screen review functions available.
For more information about speakup and its drivers
check out http://www.linux-speakup.org.
To use this, you'll need to specify one of the
supported synthesizers on the bootdisk's boot prompt:
ramdisk speakup_synth=synth
where 'synth' is one of the supported speech
synthesizers:
acntpc, acntsa, apolo, audptr, bns, decext, dectlk,
dtlk, ltlk, spkout, txprt

usb.i This disk is the same as the generic bare.i bootdisk,
but adds built-in support for USB to allow installing
on machines with USB keyboards.

xfs.i A version of bare.i with support for SGI's XFS
journaling filesystem. This required patches to the
kernel which you can find in source/k/xfs/ if you need
to rebuild the kernel.

xt.i MFM (very very old) hard drive support.

The bootdisks listed below are for systems that contain a SCSI controller.
All SCSI bootdisks feature full IDE hard drive and CD-ROM drive support,
plus additional SCSI drivers.

adaptec.s This bootdisk supports most Adaptec SCSI controllers,
including these models:
AHA-1510, AHA-1520, AHA-1522, AHA-1522, AHA-1740,
and AHA-2825. The AIC7xxx models, which include the
274x EISA cards; 284x VLB cards; 2902, 2910, 293x,
294x, 394x, 3985 and several other PCI and motherboard
based SCSI controllers from Adaptec. This bootdisk
also supports all of Adaptec's I2O based RAID
controllers as well as the DPT SmartRaid V cards.
In addition, drivers for OEM Adaptec RAID controllers
used by HP and Dell, and Adaptec branded AAC964/5400
RAID controllers are also included.

ibmmca.s This is a bootdisk based on a development kernel which
supports MicroChannel Architecture, found in some IBM
PS/2 machines and laptops. It is a bus system similar to
PCI or ISA. Support for most MCA SCSI, Ethernet, and
Token Ring adapters is included.

raid.s This is a bootdisk with support for some hardware SCSI
and IDE RAID controllers. The install disks now have
preliminary support for these controllers as well. The
drivers included are:
3ware Hardware ATA-RAID controllers.
AMI MegaRAID 418, 428, 438, 466, 762, 490
and 467 SCSI host adapters.
Compaq Smart Array controllers.
Compaq Smart Array 5xxx controllers.
Highpoint 370 IDE RAID.
Promise Fasttrak(tm) IDE RAID.
IBM ServeRAID hardware RAID controllers.
Mylex DAC960, AcceleRAID, and eXtremeRAID controllers.
Many of these controllers will require some degree of
do-it-yourself setup before and/or after installation.

scsi.s This is a SCSI bootdisk with support for various
controllers. Note that this disk does not include
Adaptec support any longer -- you must use the adaptec.s
bootdisk for that.
This disk supports these SCSI controllers:
AdvanSys SCSI support (supports all AdvanSys SCSI
controllers, including some SCSI cards included with
HP CD-R/RW drives, the Iomega Jaz Jet SCSI controller,
and the SCSI controller on the Iomega Buz multimedia
adapter)
AM53/79C974 PCI SCSI support
BusLogic SCSI support
EATA ISA/EISA/PCI (DPT and generic EATA/DMA-compliant
boards) support
Generic NCR5380/53c400 SCSI support
Initio 91XXU(W) and Initio 91XXU(W) support
NCR53c406a SCSI support
NCR53c7,8xx SCSI support
SYM53C8XX Version 2 SCSI support
Qlogic ISP SCSI support
Qlogic QLA 1280 SCSI support

scsi2.s This is a SCSI bootdisk with support for various
controllers not supported by scsi.s.
This disk supports these SCSI controllers:
Western Digital 7000FASST SCSI support
ACARD 870U/W SCSI host adapter support
Always IN2000 SCSI support
Compaq Fibre Channel 64-bit/66Mhz HBA support
Domex DMX3191D SCSI Host Adapters
DTC 3180/3280 SCSI Host Adapters
EATA-DMA [Obsolete] (DPT, NEC, AT&T, SNI, AST,
Olivetti, Alphatronix) support
EATA-PIO (old DPT PM2001, PM2012A) support
Future Domain 16xx SCSI/AHA-2920A support
Intel/ICP (former GDT SCSI Disk Array) RAID
Controller support
NCR53c710 based SCSI host adapters
NCR53C8XX SCSI support
PAS16 SCSI support
PCI2000I EIDE interface card
PCI2220i EIDE interface card
PSI240i EIDE interface card
Qlogic FAS SCSI support
QLogic ISP FC (ISP2100 SCSI-FCP) support
Seagate ST01/ST02, Future Domain TMC-885/950 SCSI
support.
SYM53c416 SCSI host adapter
Tekram DC390(T), DawiControl 2974 and some onboard
PCnet (Am53/79C974) controllers based on the
Am53C974A chipset
UltraStor 14F, 24F and 34F SCSI-2 host adapters

speakup.s This is the scsi.s (standard SCSI) disk with support
added for Speakup. Speakup provides access to Linux
for the visually impaired community. It does this by
sending console output to a number of different
hardware speech synthesizers. It provides access to
Linux by making screen review functions available.
For more information about speakup and its drivers
check out http://www.linux-speakup.org.
To use this, you'll need to specify one of the
supported synthesizers on the bootdisk's boot prompt:
ramdisk speakup_synth=synth
where 'synth' is one of the supported speech
synthesizers:
acntpc, acntsa, apolo, audptr, bns, decext, dectlk,
dtlk, ltlk, spkout, txprt

speakup2.s This is the scsi2.s with Speakup support.

speakaha.s This is the adaptec.s with Speakup support.

usb.s This disk is the same as the scsi.s bootdisk, but adds
built-in support for USB to allow installing on machines
with USB keyboards.

usb2.s This disk is the scsi2.s bootdisk with USB support.

usbaha.s This disk is the adaptec.s bootdisk with USB support.


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IMPORTANT HELPFUL HINTS: (AND WHAT TO DO IF THE INSTALLED SYSTEM WON'T BOOT)

If the system doesn't boot after installation, but the installation itself
worked, the usual reason is that a different kernel was installed than what was
used for the installation. Basically, any time you use one kernel to install,
and a different kernel the first time the installed system is started, you run
the risk that the second kernel won't be compatible for some reason.

If this happens, don't panic. You can probably use the same bootdisk or CD that
you installed with to start your system now. Just boot, and on the "boot:"
prompt tell the kernel to mount your root partition:

mount root=/dev/hdb1

On a similar note, here's how to compile and install a new kernel. You might
want to do this anyway, since a custom compiled kernel containing only the
drivers your system requires and optimized for your CPU will offer optimal
performance. You'll also need to recompile your kernel to enable support for
certain drivers like ACPI (too large to include in the standard build), or to
enable SMP (Symmetric Multi-Processing, or support for multiple CPUs).

To compile a custom kernel, follow these steps:

0. If you haven't installed the C compiler and kernel source, do that.

1. If you have to, use the bootdisk/CD you installed with to start your machine.
At the LILO prompt, enter:

mount root=/dev/hda1
^^^^^^^^^ Or whatever your root Linux partition is.

Ignore any error messages as the system starts up.

2. Log in as root, and recompile the kernel with these steps. (Comments will be
placed in parenthesis)

cd /usr/src/linux

make menuconfig Choose your drivers. Repeat this step until you are
satisfied with your choices. Note that menuconfig gets
its defaults from .config, which as supplied contains the
choices used to compile the bare.i kernel. If you wish
to recreate some other Slackware kernel (and maybe tweak
the choices a little), then you'll need to copy the
appropriate config file over .config before you run
menuconfig. For example, you could copy the defaults for
the adaptec.s kernel:
cp kernels/adaptec.s/config /usr/src/linux/.config
The "kernels" directory is usually found on the Slackware
installation CD, or on the Slackware FTP site.

If you are using LILO, here's how to build and install the new kernel:

First, build the kernel:

make dep ; make clean ; make bzImage

Then, install the new kernel in /boot:

cp arch/i386/boot/bzImage /boot/vmlinuz

And also the System.map:

cp System.map /boot

Finally, reinstall LILO:

lilo

If you are using a bootdisk, then installing the kernel in /boot is optional.
To make a bootdisk from the newly built kernel, use the makebootdisk command:

makebootdisk arch/i386/boot/bzImage

That should do it! You should now have a Linux kernel that can make full use of
all supported hardware installed in your machine. Reboot and try it out.

Good luck!

---
Patrick Volkerding
volkerdi@slackware.com

PS - Bug reports welcome. Requests for help may be answered if time permits.
I've been happy to do this in the past, but lately I've had both a lot
more work to do and a lot more mail to deal with. It's just not as
possible to keep up with my mail as it once was.