NetBSD/etc/etc.amiga/MAKEDEV

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#!/bin/sh -
#
# $NetBSD: MAKEDEV,v 1.58 2000/10/29 13:03:37 tsutsui Exp $
#
# Copyright (c) 1990 The Regents of the University of California.
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# 3. All advertising materials mentioning features or use of this software
# must display the following acknowledgement:
# This product includes software developed by the University of
# California, Berkeley and its contributors.
# 4. Neither the name of the University nor the names of its contributors
# may be used to endorse or promote products derived from this software
# without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
# SUCH DAMAGE.
#
# from:
# hp300/MAKEDEV (1/15/94), from:
# @(#)MAKEDEV 5.5 (Berkeley) 5/28/91
#
###########################################################################
#
# PLEASE RUN "cd ../share/man/man8 ; perl5 MAKEDEV2manpage.pl"
# AFTER CHANGING THIS FILE, AND COMMIT THE UPDATED MANPAGE!
#
###########################################################################
#
# Device "make" file. Valid arguments:
# all makes all known devices, including local devices.
# Tries to make the ``standard'' number of each.
# fd makes fd/* for the fdescfs.
# floppy devices needed for install floppies
# std standard devices
# local configuration specific devices
#
# Tapes:
# st* SCSI tapes
#
# Disks:
# fd* Floppy disks
# wd* IDE disks
# sd* SCSI disks, includes flopticals
# cd* SCSI cdrom discs
# vnd* "file" pseudo-disks
# ccd* concatenated disk driver
# raid* RAIDframe disk driver
# md* memory pseudo-disk devices
#
# Console ports:
# ttye* ite bitmapped consoles
#
# Pointing devices:
# mouse* Amiga mice
#
# Terminal ports:
# tty00 standard serial port
# ttyA* mfc serial ports
# ttyB* msc serial ports
# ttyC* com style serial ports (DraCo, HyperCom)
# On the DraCo, units 0 and 1 are the builtin "modem" and
# "mouse" ports, if configured.
#
# Pseudo terminals:
# pty* set of 16 master and slave pseudo terminals
#
# Printers:
# par0 Amiga motherboard parallel port
# lpt* lpt parallel port (DraCo mainboard, HyperCom etc.)
#
# Special purpose devices:
# grf* custom chip (grf0), Retina Z2/Z3 (grf1/grf2),
# Cirrus boards (grf3), A2410 (grf4) video,
# CyberVision 64 (grf5), ET4000 boards (grf6)
# or CyberVision 64/3D (grf7).
# kbd Amiga keyboard
# view* generic interface to graphic displays
# lkm loadable kernel modules interface
# ipl IP filter
# random Random number generator
# bpf* Berkeley Packet Filter
# tun* network tunnel driver
# scsibus* SCSI busses, see scsictl(8), scsi(4)
# ss* SCSI scanner
# uk* SCSI unknown
# ch* SCSI changer
# audio* one unit of the audio device. On Amiga machines,
# Unit 0 is custom chip audio, if configured
#
# for new-style serial interfaces:
dialin=0
dialout=524288 # high bit of the minor number
PATH=/sbin:/bin:/usr/sbin:/usr/bin
umask 77
for i
do
case $i in
all)
sh $0 std fd fd0 fd1 fd2 fd3 kbd mouse0 mouse1 par0
sh $0 lpt0 lpt1 lpt2 lpt3
sh $0 ttye0 ttye1 ttye2 ttye3 ttye4 ttye5 ttye6 ttye7
sh $0 grf0 grf1 grf2 grf3 grf4 grf5 grf6 grf7
sh $0 tty00 ttyA0 ttyA1
sh $0 ttyB0 ttyB1 ttyB2 ttyB3 ttyB4 ttyB5 ttyB6 ttyB7
sh $0 ttyC0 ttyC1 ttyC2 ttyC3 ttyC4 ttyC5 ttyC6 ttyC7
sh $0 view00 view01 view02 view03 view04 view05 pty0 pty1 pty2 pty3
sh $0 sd0 sd1 sd2 sd3 sd4 sd5 sd6 sd7 sd8 sd9 cd0 st0 wd0 wd1
sh $0 ss0 ch0 uk0 uk1 ccd0 ccd1 ccd2 ccd3 md0 md1
sh $0 raid0 raid1 raid2 raid3
sh $0 vnd0 vnd1 vnd2 vnd3 vnd4 vnd5 vnd6
sh $0 bpf0 bpf1 bpf2 bpf3 bpf4 bpf5 bpf6 bpf7
sh $0 tun0 tun1 lkm ipl random local
sh $0 audio0 audio1 audio2 audio3
sh $0 scsibus0 scsibus1 scsibus2 scsibus3
;;
floppy)
sh $0 std fd0 fd1 fd2 fd3 kbd pty0 tun0 tun1
sh $0 ttye0 ttye1 ttye2 ttye3 ttye4 ttye5 ttye6 ttye7
sh $0 grf0 grf1 grf2 grf3 grf4 grf5 grf6 grf7
sh $0 tty00 ttyA0 ttyB0 ttyC0
sh $0 sd0 sd1 sd2 sd3 sd4 sd5 sd6 sd7 sd8 sd9 cd0 st0 wd0 wd1 md0
;;
std)
rm -f console drum kmem mem reload null zero tty
rm -f klog stdin stdout stderr
mknod console c 0 0
mknod drum c 3 0 ; chmod 640 drum ; chgrp kmem drum
mknod kmem c 2 1 ; chmod 640 kmem ; chgrp kmem kmem
mknod mem c 2 0 ; chmod 640 mem ; chgrp kmem mem
mknod reload c 2 20 ; chmod 600 reload
mknod zero c 2 12 ; chmod 666 zero
mknod null c 2 2 ; chmod 666 null
mknod tty c 1 0 ; chmod 666 tty
mknod klog c 6 0 ; chmod 600 klog
mknod stdin c 21 0 ; chmod 666 stdin
mknod stdout c 21 1 ; chmod 666 stdout
mknod stderr c 21 2 ; chmod 666 stderr
;;
fd)
rm -f fd/*
mkdir fd > /dev/null 2>&1
n=0
while [ $n -lt 64 ]; do
mknod fd/$n c 21 $n
n=$(($n + 1))
done
chown -R root.wheel fd
chmod 755 fd
chmod 666 fd/*
;;
fd*)
unit=${i#fd}; blk=2; chr=18
rm -f fd$unit? rfd$unit?
case $unit in
0|1|2|3)
mknod fd${unit}a b $blk $(($unit * 16 + 0))
mknod fd${unit}b b $blk $(($unit * 16 + 1))
mknod rfd${unit}a c $chr $(($unit * 16 + 0))
mknod rfd${unit}b c $chr $(($unit * 16 + 1))
chgrp operator fd$unit? rfd$unit?
chmod 640 fd$unit? rfd$unit?
;;
*)
echo bad unit for floppy disk in: $i
;;
esac
;;
md*)
unit={$i#md}; blk=15; chr=43;
rm -f md${unit}? rmd${unit}?
mknod md${unit}a b $blk $(($unit * 16 + 0))
mknod md${unit}c b $blk $(($unit * 16 + 2))
# mknod rmd${unit}a c $chr $(($unit * 16 + 0))
# mknod rmd${unit}c c $chr $(($unit * 16 + 2))
chgrp operator md${unit}? #rmd${unit}?
chmod 640 md${unit}? #rmd${unit}?
;;
sd*|vnd*|ccd*|raid*|wd*)
case $i in
sd*) name=sd; unit=${i#sd}; blk=4; chr=8;;
vnd*) name=vnd; unit=${i#vnd}; blk=6; chr=19;;
ccd*) name=ccd; unit=${i#ccd}; blk=8; chr=7;;
raid*) name=raid; unit=${i#raid}; blk=16; chr=50;;
wd*) name=wd; unit=${i#wd}; blk=17; chr=52;;
esac
rm -f $name$unit? r$name$unit?
mknod ${name}${unit}a b $blk $(($unit * 16 + 0))
mknod ${name}${unit}b b $blk $(($unit * 16 + 1))
mknod ${name}${unit}c b $blk $(($unit * 16 + 2))
mknod ${name}${unit}d b $blk $(($unit * 16 + 3))
mknod ${name}${unit}e b $blk $(($unit * 16 + 4))
mknod ${name}${unit}f b $blk $(($unit * 16 + 5))
mknod ${name}${unit}g b $blk $(($unit * 16 + 6))
mknod ${name}${unit}h b $blk $(($unit * 16 + 7))
mknod ${name}${unit}i b $blk $(($unit * 16 + 8))
mknod ${name}${unit}j b $blk $(($unit * 16 + 9))
mknod ${name}${unit}k b $blk $(($unit * 16 + 10))
mknod ${name}${unit}l b $blk $(($unit * 16 + 11))
mknod ${name}${unit}m b $blk $(($unit * 16 + 12))
mknod ${name}${unit}n b $blk $(($unit * 16 + 13))
mknod ${name}${unit}o b $blk $(($unit * 16 + 14))
mknod ${name}${unit}p b $blk $(($unit * 16 + 15))
mknod r${name}${unit}a c $chr $(($unit * 16 + 0))
mknod r${name}${unit}b c $chr $(($unit * 16 + 1))
mknod r${name}${unit}c c $chr $(($unit * 16 + 2))
mknod r${name}${unit}d c $chr $(($unit * 16 + 3))
mknod r${name}${unit}e c $chr $(($unit * 16 + 4))
mknod r${name}${unit}f c $chr $(($unit * 16 + 5))
mknod r${name}${unit}g c $chr $(($unit * 16 + 6))
mknod r${name}${unit}h c $chr $(($unit * 16 + 7))
mknod r${name}${unit}i c $chr $(($unit * 16 + 8))
mknod r${name}${unit}j c $chr $(($unit * 16 + 9))
mknod r${name}${unit}k c $chr $(($unit * 16 + 10))
mknod r${name}${unit}l c $chr $(($unit * 16 + 11))
mknod r${name}${unit}m c $chr $(($unit * 16 + 12))
mknod r${name}${unit}n c $chr $(($unit * 16 + 13))
mknod r${name}${unit}o c $chr $(($unit * 16 + 14))
mknod r${name}${unit}p c $chr $(($unit * 16 + 15))
chgrp operator $name$unit? r$name$unit?
chmod 640 $name$unit? r$name$unit?
;;
st*)
case $i in
st*) name=st; unit=${i#st}; chr=20; blk=5;;
esac
rm -f $name$unit n$name$unit e$name$unit en$name$unit \
r$name$unit nr$name$unit er$name$unit enr$name$unit \
$name$unit[hml] [ne]$name$unit[hml] en$name$unit[hml] \
r$name$unit[hml] [ne]r$name$unit[hml] enr$name$unit[hml]
mknod $name${unit} b $blk $(($unit * 16 + 0))
mknod n$name${unit} b $blk $(($unit * 16 + 1))
mknod e$name${unit} b $blk $(($unit * 16 + 2))
mknod en$name${unit} b $blk $(($unit * 16 + 3))
mknod $name${unit}h b $blk $(($unit * 16 + 4))
mknod n$name${unit}h b $blk $(($unit * 16 + 5))
mknod e$name${unit}h b $blk $(($unit * 16 + 6))
mknod en$name${unit}h b $blk $(($unit * 16 + 7))
mknod $name${unit}m b $blk $(($unit * 16 + 8))
mknod n$name${unit}m b $blk $(($unit * 16 + 9))
mknod e$name${unit}m b $blk $(($unit * 16 + 10))
mknod en$name${unit}m b $blk $(($unit * 16 + 11))
mknod $name${unit}l b $blk $(($unit * 16 + 12))
mknod n$name${unit}l b $blk $(($unit * 16 + 13))
mknod e$name${unit}l b $blk $(($unit * 16 + 14))
mknod en$name${unit}l b $blk $(($unit * 16 + 15))
mknod r$name${unit} c $chr $(($unit * 16 + 0))
mknod nr$name${unit} c $chr $(($unit * 16 + 1))
mknod er$name${unit} c $chr $(($unit * 16 + 2))
mknod enr$name${unit} c $chr $(($unit * 16 + 3))
mknod r$name${unit}h c $chr $(($unit * 16 + 4))
mknod nr$name${unit}h c $chr $(($unit * 16 + 5))
mknod er$name${unit}h c $chr $(($unit * 16 + 6))
mknod enr$name${unit}h c $chr $(($unit * 16 + 7))
mknod r$name${unit}m c $chr $(($unit * 16 + 8))
mknod nr$name${unit}m c $chr $(($unit * 16 + 9))
mknod er$name${unit}m c $chr $(($unit * 16 + 10))
mknod enr$name${unit}m c $chr $(($unit * 16 + 11))
mknod r$name${unit}l c $chr $(($unit * 16 + 12))
mknod nr$name${unit}l c $chr $(($unit * 16 + 13))
mknod er$name${unit}l c $chr $(($unit * 16 + 14))
mknod enr$name${unit}l c $chr $(($unit * 16 + 15))
chgrp operator $name$unit n$name$unit e$name$unit en$name$unit \
r$name$unit nr$name$unit er$name$unit enr$name$unit \
$name$unit[hml] [ne]$name$unit[hml] en$name$unit[hml] \
r$name$unit[hml] [ne]r$name$unit[hml] enr$name$unit[hml]
chmod 660 $name$unit n$name$unit e$name$unit en$name$unit \
r$name$unit nr$name$unit er$name$unit enr$name$unit \
$name$unit[hml] [ne]$name$unit[hml] en$name$unit[hml] \
r$name$unit[hml] [ne]r$name$unit[hml] enr$name$unit[hml]
;;
cd*)
case $i in
cd*) name=cd; unit=${i#cd}; blk=7; chr=9;;
esac
rm -f $name$unit? r$name$unit?
mknod ${name}${unit}a b $blk $(($unit * 16 + 0))
mknod ${name}${unit}c b $blk $(($unit * 16 + 2))
mknod r${name}${unit}a c $chr $(($unit * 16 + 0))
mknod r${name}${unit}c c $chr $(($unit * 16 + 2))
chgrp operator $name$unit? r$name$unit?
chmod 640 $name$unit? r$name$unit?
;;
ss*)
case $i in
ss*) name=ss; unit=${i#ss}; chr=37;;
esac
rm -f $name$unit n$name$unit en$name$unit
mknod $name$unit c $chr $(($unit * 16 + 0))
mknod n$name$unit c $chr $(($unit * 16 + 1))
mknod en$name$unit c $chr $(($unit * 16 + 3))
chgrp operator $name$unit n$name$unit en$name$unit
chmod 640 $name$unit n$name$unit en$name$unit
;;
ch*|uk*)
case $i in
ch*) name=ch; unit=${i#ch}; chr=38;;
uk*) name=uk; unit=${i#uk}; chr=39;;
esac
rm -f $name$unit
mknod $name$unit c $chr $unit
chgrp operator $name$unit
chmod 640 $name$unit
;;
tty0*|ttyA*|ttyB*)
case $i in
tty0*) name=tty0; mname=ttym; unit=${i#tty0}; chr=12; mult=1; add=128;;
ttyA*) name=ttyA; mname=ttyAm; unit=${i#ttyA}; chr=17; mult=1; add=128;;
ttyB*) name=ttyB; mname=ttyBm; unit=${i#ttyB}; chr=31; mult=2; add=1;;
esac
rm -f $name$unit $mname$unit
rm -f ser$unit
rm -f ttyM$unit
mknod $name$unit c $chr $(($unit * $mult))
mknod $mname$unit c $chr $(($unit * $mult + $add))
chown uucp:wheel $name$unit $mname$unit
;;
# newstyle tty devices:
ttyC*)
case $i in
ttyC*) name=ttyC; mname=dtyC; unit=${i#ttyC}; chr=32;;
esac
rm -f $name$unit $mname$unit
mknod $name$unit c $chr $(($unit + $dialin))
mknod $mname$unit c $chr $(($unit + $dialout))
chown uucp:wheel $name$unit $mname$unit
;;
par*)
unit=${i#par}; chr=11
rm -f par$unit
case $unit in
0)
mknod par$unit c $chr $unit
;;
*)
echo bad unit for par in: $i
;;
esac
;;
lpt*)
unit=${i#lpt}; chr=33
rm -f lpt${unit} lpt${unit}a
mknod lpt${unit} c $chr $unit
mknod lpt${unit}a c $chr $(($unit + 128))
;;
ttye*)
unit=${i#ttye}; chr=13
rm -f ttye$unit
rm -f ite*
case $unit in
0|1|2|3|4|5|6|7)
mknod ttye$unit c $chr $unit
;;
*)
echo bad unit for ttye in: $i
;;
esac
;;
grf*)
unit=${i#grf}; chr=10
rm -f grf$unit
case $unit in
0|1|2|3|4|5|6|7)
mknod grf$unit c $chr $unit
chmod 666 grf$unit
;;
*)
echo bad unit for grf in: $i
;;
esac
# for those that need it, also make overlay and image devices:
rm -f grfov$unit grfim$unit
case $unit in
4)
mknod grfov$unit c $chr $(($unit + 16))
chmod 666 grfov$unit
mknod grfim$unit c $chr $(($unit + 32))
chmod 666 grfim$unit
;;
esac
;;
mouse*)
unit=${i#mouse}; chr=15
rm -f mouse$unit
case $unit in
0|1)
mknod mouse$unit c $chr $unit
chmod 666 mouse$unit
if [ $unit = 0 ]
then
rm -f mouse; ln -s mouse$unit mouse
fi
;;
*)
echo bad unit for mouse in: $i
;;
esac
;;
kbd)
rm -f kbd
mknod kbd c 14 0
;;
view*)
unit=${i#view}; chr=16
rm -f view$unit
mknod view$unit c $chr $unit
chmod 666 view$unit
;;
pty*)
class=${i#pty}
case $class in
0) name=p;;
1) name=q;;
2) name=r;;
3) name=s;;
4) name=t;;
5) name=u;;
6) name=v;;
7) name=w;;
8) name=x;;
9) name=y;;
10) name=z;;
11) name=P;;
12) name=Q;;
13) name=R;;
14) name=S;;
15) name=T;;
*) echo "$0: $i: pty unit must be between 0 and 15"
continue ;;
esac
rm -f tty$name[0-9a-f] pty$name[0-9a-f]
for j in 0 1 2 3 4 5 6 7 8 9 a b c d e f
do
case $j in
[0-9]) jn=$j ;;
a) jn=10 ;;
b) jn=11 ;;
c) jn=12 ;;
d) jn=13 ;;
e) jn=14 ;;
f) jn=15 ;;
esac
unit=$(($class * 16 + $jn))
mknod tty$name$j c 4 $unit
mknod pty$name$j c 5 $unit
done
chgrp wheel tty$name? pty$name?
chmod 666 tty$name? pty$name?
;;
bpf*|tun*)
case $i in
bpf*) name=bpf; unit=${i#bpf}; chr=22;;
tun*) name=tun; unit=${i#tun}; chr=23;;
esac
rm -f $name$unit
mknod $name$unit c $chr $unit
chown root.wheel $name$unit
;;
lkm)
rm -f lkm
mknod lkm c 24 0
chown root:kmem lkm
chmod 640 lkm
;;
ipl)
rm -f ipl ipnat ipstate ipauth
mknod ipl c 40 0
mknod ipnat c 40 1
mknod ipstate c 40 2
mknod ipauth c 40 3
chown root.wheel ipl ipnat ipstate ipauth
chmod 600 ipl ipnat ipstate ipauth
;;
audio*)
unit=${i#audio}
audio=audio$unit
sound=sound$unit
mixer=mixer$unit
major=41
audioctl=audioctl$unit
if [ "$unit" = "" ]; then unit=0; fi
rm -f $audio $sound $mixer $audioctl
mknod $sound c $major $(($unit + 0))
mknod $audio c $major $(($unit + 128))
mknod $mixer c $major $(($unit + 16))
mknod $audioctl c $major $(($unit + 192))
chown root.wheel $audio $sound $mixer $audioctl
chmod 666 $audio $sound $mixer $audioctl
;;
random)
rm -f random urandom
mknod random c 42 0
mknod urandom c 42 1
chown root.wheel random urandom
chmod 444 random
chmod 644 urandom
;;
scsibus*)
unit=${i#scsibus};
rm -f scsibus$unit
mknod scsibus$unit c 44 $unit
chown root:wheel scsibus$unit
chmod 644 scsibus$unit
;;
local)
umask 0
sh $0.local all
umask 77
;;
*)
echo $i: unknown device
;;
esac
done