These are 1.44 MB bootkernel images for Slackware Linux 3.4.0. These disks currently use Linux 2.0.30. You'll need one of these to get Linux started on your system so that you can install it. Because of the possibility of collisions between the various Linux drivers, several bootkernel disks have been provided. You should use the one with the least drivers possible to maximize your chances of success. All of these disks support UMSDOS. You will be using the bootkernel disk to boot a root-install disk. See the /rootdsks directory for these. A bootkernel disk 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: -------------------------------------------------------------------------------- Here's a description of the disks: IDE bootdisks: (All IDE bootdisks support IDE hard drives and CD-ROM drives, plus additional support listed below) -------------- aztech.i CD-ROM drives: Aztech CDA268-01A, Orchid CD-3110, Okano/Wearnes CDD110, Conrad TXC, CyCDROM CR520, CR540. bare.i (none, just IDE support) bareapm.i IDE support, and APM (Advanced Power Management, often used in laptops to check battery level, allow suspend modes, etc) support. cdu31a.i Sony CDU31/33a CD-ROM. cdu535.i Sony CDU531/535 CD-ROM. cm206.i Philips/LMS cm206 CD-ROM with cm260 adapter card. fat32.i Like the bare.i disk, with support for Microsoft's FAT32 filesystem. goldstar.i Goldstar R420 CD-ROM (sometimes sold in a 'Reveal Multimedia Kit'). mcd.i NON-IDE Mitsumi CD-ROM support. mcdx.i Improved NON-IDE Mitsumi CD-ROM support. net.i Ethernet support. no_pci.i If you're having problems with a hang during PCI probing, try this IDE-supporting bootdisk without PCI BIOS support. (some old PCI motherboards have BIOS bugs and may crash if "PCI bios support" is enabled, but they run fine without this option). optics.i Optics Storage 8000 AT CD-ROM (the 'DOLPHIN' drive). sanyo.i Sanyo CDR-H94A CD-ROM support. sbpcd.i Matsushita, Kotobuki, Panasonic, CreativeLabs (Sound Blaster), Longshine and Teac NON-IDE CD-ROM support. xt.i MFM hard drive support. SCSI bootdisks: (All SCSI bootdisks feature full IDE hard drive and CD-ROM drive support, plus additional drivers listed below) --------------- 7000fast.s Western Digital 7000FASST SCSI support. advansys.s AdvanSys SCSI support. aha152x.s Adaptec 152x SCSI support. aha1542.s Adaptec 1542 SCSI support. aha1740.s Adaptec 1740 SCSI support. aha2x4x.s Adaptec AIC7xxx SCSI support. (For these cards: AHA-274x, AHA-2842, AHA-2940, AHA-2940W, AHA-2940U, AHA-2940UW, AHA-2944D, AHA-2944WD, AHA-3940, AHA-3940W, AHA-3985, AHA-3985W) am53c974.s AMD AM53/79C974 SCSI support. aztech.s All supported SCSI controllers, plus CD-ROM support for Aztech CDA268-01A, Orchid CD-3110, Okano/Wearnes CDD110, Conrad TXC, CyCDROM CR520, CR540. buslogic.s Buslogic MultiMaster SCSI support. cdu31a.s All supported SCSI controllers, plus CD-ROM support for Sony CDU31/33a. cdu535.s All supported SCSI controllers, plus CD-ROM support for Sony CDU531/535. cm206.s All supported SCSI controllers, plus Philips/LMS cm206 CD-ROM with cm260 adapter card. dtc3280.s DTC (Data Technology Corp) 3180/3280 SCSI support. eata_dma.s DPT EATA-DMA SCSI support. (Boards such as PM2011, PM2021, PM2041, PM3021, PM2012B, PM2022, PM2122, PM2322, PM2042, PM3122, PM3222, PM3332, PM2024, PM2124, PM2044, PM2144, PM3224, PM3334.) eata_isa.s DPT EATA-ISA/EISA SCSI support. (Boards such as PM2011B/9X, PM2021A/9X, PM2012A, PM2012B, PM2022A/9X, PM2122A/9X, PM2322A/9X) eata_pio.s DPT EATA-PIO SCSI support. (PM2001 and PM2012A) fat32.s Like the scsi.s disk described below, but with patches to support Microsoft's new FAT32 filesystem. fdomain.s Future Domain TMC-16x0 SCSI support. goldstar.s All supported SCSI controllers, plus Goldstar R420 CD-ROM (sometimes sold in a 'Reveal Multimedia Kit'). in2000.s Always IN2000 SCSI support. iomega.s IOMEGA PPA3 parallel port SCSI support. (also supports the parallel port version of the ZIP drive) mcd.s All supported SCSI controllers, plus standard non-IDE Mitsumi CD-ROM support. mcdx.s All supported SCSI controllers, plus enhanced non-IDE Mitsumi CD-ROM support. n53c406a.s NCR 53c406a SCSI support. n_5380.s NCR 5380 and 53c400 SCSI support. n_53c7xx.s NCR 53c7xx, 53c8xx SCSI support. (Most NCR PCI SCSI controllers use this driver) no_pci.s If you're having problems with a hang during PCI probing, try this SCSI-supporting bootdisk without PCI BIOS support. (some old PCI motherboards have BIOS bugs and may crash if "PCI bios support" is enabled, but they run fine without this option). optics.s All supported SCSI controllers, plus support for the Optics Storage 8000 AT CD-ROM (the 'DOLPHIN' drive). pas16.s Pro Audio Spectrum/Studio 16 SCSI support. qlog_fas.s ISA/VLB/PCMCIA Qlogic FastSCSI! support. (also supports the Control Concepts SCSI cards based on the Qlogic FASXXX chip) qlog_isp.s Supports all Qlogic PCI SCSI controllers, except the PCI-basic, which is supported by the AMD SCSI driver. sanyo.s All supported SCSI controllers, plus Sanyo CDR-H94A CD-ROM support. sbpcd.s All supported SCSI controllers, plus Matsushita, Kotobuki, Panasonic, CreativeLabs (Sound Blaster), Longshine and Teac NON-IDE CD-ROM support. scsi.s A generic SCSI bootdisk, with support for most SCSI controllers that work under Linux. (NOTE: This disk wastes a lot of memory, since it contains nearly *all* of the SCSI drivers. If you know which SCSI controller your system has, it's *far* better to use the disk designed especially for it. But, if you don't know, then this generic disk might just work for you.) scsinet.s All supported SCSI controllers, plus full ethernet support. seagate.s Seagate ST01/ST02, Future Domain TMC-885/950 SCSI support. trantor.s Trantor T128/T128F/T228 SCSI support. ultrastr.s UltraStor 14F, 24F, and 34F SCSI support. ustor14f.s UltraStor 14F and 34F SCSI support. --------------------------------------------------------------------------------- IMPORTANT HELPFUL HINTS: (AND WHAT TO DO IF THE INSTALLED SYSTEM WON'T BOOT) The kernels provided with the Slackware A series (ide and scsi) are reasonably generic to maximize the chances that your system will boot after installation. However, you should compile a custom kernel after installing, selecting only the drivers your system requires. This will offer optimal performance. You'll need to recompile your kernel to enable support for non-SCSI CD-ROM drives, bus-mice, sound cards, and many other pieces of hardware. The drivers could not be included with the pre-compiled kernels because they cause system hangs and other compatiblity problems for people that don't have the hardware installed. On a similar note, 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 your system fails to reboot after installation, you'll have to compile a custom kernel for your hardware. Follow these steps: 0. If you haven't installed the C compiler and kernel source, do that. 1. Use the bootkernel disk 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 config (Choose your drivers. Repeat this step until you are satisfied with your choices) If you are using LILO, this will build and install the new kernel: make dep ; make clean ; make zlilo rdev -R /vmlinuz 1 If you are using a bootdisk, these commands will build the kernel and create a new bootdisk for your machine: make dep ; make clean ; make zImage rdev -R zImage 1 (If you use UMSDOS for your root partition, use 'rdev -R zImage 0' instead) rdev -v zImage -1 rdev zImage /dev/hda1 (replace /dev/hda1 with the name of your root Linux partition) (Now, put a disk into your floppy drive to be made into the new bootdisk:) fdformat /dev/fd0u1440 cat zImage > /dev/fd0 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@mhd1.moorhead.msus.edu 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.