NetBSD/distrib/notes/amiga/prep

.\"	$NetBSD: prep,v 1.22 2000/10/10 12:55:16 lukem Exp $
.
You will need an AmigaDOS hard drive prep tool to prepare your hard
drives for use with
.Nx*M .
HDToolBox is provided with the
system software and on floppy installation disks since Release 2.0
of AmigaDOS, so we will provide instructions for its use.
.Pp
Note that
.Nx
can't currently be installed on disks with a sector
size other than 512 bytes (e.g., "640 MB" 90mm MO media). You can, however,
mount ADOSFS partitions on such MOs.
.
.Ss2 Preparing your hard disk with HDToolBox
.
.Pp
A full explanation of HDToolBox can be found with your
AmigaDOS manuals and is beyond the scope of this document.
.Pp
The first time you partition a drive, you need to set its drive
type so that you have working geometry parameters. To do this
you enter the "Change drive type" menu, and either use "read
parameters from drive" or set them manually.
.Pp
Note you will be modifying your HD's. If you mess something
up here you could lose everything on all the drives that
you configure.  It is therefore advised that you:
.(enum -offset indent
Write down your current configurations.  Do this
by examining each partition on the drive and the
drives parameters (from Change drive type.)
.It
Back up the partitions you are keeping.
.enum)
.Pp
What you need to do is partition your drives; creating at least
root, swap and /usr partitions and possibly at least one more for
/usr/local if you have the space.
.Pp
This should be done as the HDToolBox manual describes.  One thing
to note is that if you are not using a Commodore controller you
will need to specify the device your SCSI controller uses, e.g.
if you have a Warp Engine you would:
.(tag From\ cli -offset indent
.It From cli
.Dl "hdtoolbox warpdrive.device"
.It From wb
Set the tooltype
.Dl "SCSI_DEVICE_NAME=warpdrive.device"
.tag)
.Pp
The important things you need to do above and beyond normal
partitioning includes (from Partition Drive section):
.(enum
Marking all
.Nx
partitions as non-bootable, with
two exceptions: the root partition, if you want to boot
.Nx
directly, or the swap partition, if you want
to boot the installation miniroot directly.
.It
Changing the file system parameters of the partitions to
.Nx
ones.  This must be done from the
partitioning section and `Advanced options' must
be enabled.
.enum)
.Pp
To make the needed changes:
.Pp
.(enum -compact -offset indent
Click the `Adv. Options' button
.It
Click the `Change file system' button
.It
Choose `Custom File System'
.It
Turn off `Automount' if on.
.It
Set the dostype to one of these three choices:
.(disp
root partition  : 0x4e425207
swap partition  : 0x4e425301
other partitions: 0x4e425507
.disp)
.Pp
Here `other' refers to other partitions you will
format for reading and writing under
.Nx
(e.g.
.Pa /usr )
.Pp
Make sure you press the return key to enter this value
as some versions of HDToolBox will forget your entry
if you don't.
.It
Turn custom boot code off
.It
Set Reserved Blocks start and end to 0.
.It
Click Ok.
.enum)
.Pp
On the root (and, for installation, swap) partition,
set instead this:
.Pp
.(enum -compact -offset indent
Turn custom boot code on
.It
Set Reserved Blocks start and end to 0.
.It
Set Number of Custom Boot Blocks to 16.
.It
Set Automount This Partition on
.It
Click Ok.
.Pp
Mask and maxtransfer are not used with
.Nx .
.enum)
.(tag Caveat:
.It Em Caveat:
The swap (for installation) and the root partition (if you plan to
use the bootblocks) MUST BE WITHIN THE FIRST 4 gigabytes of the disk!
The reason for the former is that xstreamtodev uses trackdisk.device
compatible I/O-calls, the reason for the latter is that the bootblock
gets a 32bit partition offset from the operating system.
.tag)
.Pp
Once this is done
.Nx*M
will be able to recognize your
disks and which partitions it should use.
.
.Ss2 Transferring the miniroot file system
.
The
.Nx*M
installation or upgrade now uses a "miniroot"
file system which is installed on the partition used by NetBSD
for swapping.  This removes the requirement of using a floppy
disk for the file system used by the installation or upgrade
process.  It also allows more utilities to be present on the
file system than would be available when using an 880 KB floppy
disk.
.Pp
Once the hard disk has been prepared for
.Nx ,
the miniroot file system (miniroot.fs) is transferred to the swap
partition configured during the hard disk prep (or the existing
swap partition in the case of an upgrade).  The xstreamtodev
utility provided in the "amiga/installation/misc" directory can
be used on AmigaDOS to transfer the file system for either a new
installation or an upgrade.  The file system can also be
transferred on an existing
.Nx
system for an update by
using dd.  This should only be done after booting NetBSD
into single-user state.  It may also be possible to shutdown
to single-user, providing that the single-user state processes
are not using the swap partition.
.Pp
On AmigaDOS, the command:
.Dl "xstreamtodev --input=miniroot.fs --rdb-name=\*<swap partition\*>"
where \*<swap partition\*> is the name you gave to the NetBSD
partition to be used for swapping.  If xstreamtodev is unable
to determine the SCSI driver device name or the unit number
of the specified partition, you may also need to include the
option
.Dl --device=\*<driver.name\*>
and/or
.Dl --unit=\*<SCSI unit number\*>
.Pp
To transfer the miniroot using
.Nx ,
you should be booted up
in single user state on the current
.Nx
system, or use the
"shutdown now" command to shutdown to single-user state.  Then
copy the miniroot using dd:
.Dl dd if=miniroot.fs of=/dev/rsd0b
where
.Pa /dev/rsd0b
should be the device path of the swap partition
your system is configured to use.  Once the file is copied,
reboot back to AmigaDOS to boot the upgrade kernel.
.(tag Caveat:
.It Em Caveat:
Once you have started installation, if you abort it
and want to retry you must reinstall the miniroot.fs on the swap
partition.
.tag)