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|
#!/bin/sh -
#
# $OpenBSD: MAKEDEV,v 1.20 1997/04/22 19:06:06 todd 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.
#
# @(#)MAKEDEV 5.5 (Berkeley) 5/28/91
#
# Device "make" file. Valid arguments:
# std standard devices
# local configuration specific devices
# Tapes:
# st* ? tape
# Disks:
# sd* SCSI disks
# cd* SCSI cdrom drives
# st* SCSI tape
# ch* SCSI changer
# uk* unknown SCSI
# ss* SCSI scanners
# xy* Xylogic 450/451 disks
# xd* Xylogic 753/7053 disks
# fd* Floppies
# vnd* "file" pseudo-disks
# ccd* concatenated disk devices
# Pseudo terminals:
# pty* set of 16 master and slave pseudo terminals
# Printers:
# Call units:
# Special purpose devices:
# audio
# openprom
# bwtwo*
# cgthree*
# cgfour*
# cgsix*
# cgeight*
# bpf* packet filter
# lkm loadable kernel modules interface
# tun* network tunnel driver
# *random random data source
PATH=/sbin:/bin/:/usr/bin:/usr/sbin:/usr/etc
this=$0
umask 77
case "$os" in # set os in the environment if not OpenBSD
SunOS) add ()
{
expr $1 + $2
}
mult ()
{
expr $1 '*' $2
}
hex ()
{
case $1 in
[0-9]) echo $1;;
10) echo a;;
11) echo b;;
12) echo c;;
13) echo d;;
14) echo e;;
15) echo f;;
esac
}
trunc ()
{
expr $1 : $2'\(.*\)'
}
unt ()
{
expr $1 : '[a-z]*\([0-9]*\)[a-p]*'
}
;;
*) add ()
{
echo "$(( $1 + $2 ))"
}
mult ()
{
echo "$(( $1 * $2 ))"
}
hex ()
{
case $1 in
[0-9]) echo -n $1 ;;
1[0-5]) echo -e -n "\\$(( $1 + 131 ))" ;;
esac
}
trunc ()
{
echo ${1#$2}
}
unt ()
{
if [ "${1#xy}" -ne "$1" ]
then
unt=${1#xy}
else
unt=${1#*d}
fi
echo ${unt%*[a-p]}
}
;;
esac
for i
do
unit=`expr $i : '[a-z][a-z]*\([0-9][0-9]*\)'`
[ "$unit" ] || unit=0
case $i in
all)
sh ${this} std sd0 sd1 sd2 sd3 sd4 xd0 xd1 xd2 xd3 xy0 xy1 xy2 xy3
sh ${this} cd0 st0 st1
sh ${this} fd0 fdB0 fdC0 fdD0 fdE0 fdF0 fdG0 fdH0
sh ${this} uk0 uk1
sh ${this} ss0 ss1
sh ${this} pty0 vnd0 vnd1 vnd2 vnd3 audio tun0 tun1 tun2 tun3
sh ${this} ccd0 ccd1 ccd2 ccd3
sh ${this} bpf0 bpf1 bpf2 bpf3 ipl bwtwo0 cgthree0 cgfour0 cgsix0
sh ${this} cgeight0
sh ${this} lkm random local
;;
floppy)
sh ${this} std random
sh ${this} fd0 sd0 sd1
;;
std)
mknod console c 0 0
mknod tty c 2 0 ; chmod 666 tty
mknod kmem c 3 1 ; chmod 640 kmem ; chown root.kmem kmem
mknod mem c 3 0 ; chmod 640 mem ; chown root.kmem mem
mknod null c 3 2 ; chmod 666 null
mknod zero c 3 12 ; chmod 666 zero
mknod eeprom c 3 11 ; chmod 640 eeprom ; chown root.kmem eeprom
mknod openprom c 70 0 ; chmod 644 openprom
mknod drum c 7 0 ; chmod 640 drum ; chown root.kmem drum
mknod klog c 16 0 ; chmod 600 klog
mknod stdin c 24 0 ; chmod 666 stdin
mknod stdout c 24 1 ; chmod 666 stdout
mknod stderr c 24 2 ; chmod 666 stderr
mknod ttya c 12 0
mknod ttyb c 12 1
mknod fb c 22 0 ; chmod 666 fb
mknod mouse c 13 0 ; chmod 666 mouse
mknod kbd c 29 0 ; chmod 666 kbd
;;
fd)
rm -f fd/*
mkdir fd > /dev/null 2>&1
n=0
(cd fd && while [ $n -lt 64 ]; do mknod $n c 24 $n; n=`add $n 1`; done )
chown -R root.wheel fd
chmod 555 fd
chmod 666 fd/*
;;
bwtwo*)
mknod bwtwo$unit c 27 $unit; chmod 666 bwtwo$unit
;;
cgthree*)
mknod cgthree$unit c 55 $unit; chmod 666 cgthree$unit
;;
cgfour*)
mknod cgfour$unit c 39 $unit; chmod 666 cgfour$unit
;;
cgsix*)
mknod cgsix$unit c 67 $unit; chmod 666 cgsix$unit
;;
cgeight*)
mknod cgeight$unit c 64 $unit; chmod 666 cgeight$unit
;;
audio)
mknod audio c 69 0; chmod 666 audio
;;
openprom)
mknod openprom c 70 0; chmod 600 openprom
;;
bpf*)
rm -f bpf$unit
mknod bpf$unit c 105 $unit
chmod 600 bpf$unit
chown root.wheel bpf$unit
;;
ipl)
mknod ipl c 59 0
chown root.wheel ipl
;;
tun*)
rm -f tun$unit
mknod tun$unit c 111 $unit
chmod 600 tun$unit
chown root.wheel tun$unit
;;
fd*)
umask 2 ; unit=`expr $i : 'fd.*\(.\)$'`
typnam=`expr $i : 'fd\(.\).*'`
case $typnam in
0|1) typnam=; typnum=0;; # no type specified, assume A
A) typnam=; typnum=0;;
B) typnum=1;;
C) typnum=2;;
D) typnum=3;;
E) typnum=4;;
F) typnum=5;;
G) typnum=6;;
H) typnum=7;;
*) echo bad type $typnam for $i; exit 1;;
esac
case $unit in
0|1) blk=16; chr=54;;
*) echo bad unit $unit for $i; exit 1;;
esac
nam=fd${typnam}$unit
rm -f ${nam}? r${nam}?
basenum=`expr $unit '*' 128 + $typnum '*' 16`
mknod ${nam}a b $blk `expr $basenum + 0`
mknod ${nam}b b $blk `expr $basenum + 1`
mknod ${nam}c b $blk `expr $basenum + 2`
#mknod ${nam}d b $blk `expr $basenum + 3`
#mknod ${nam}e b $blk `expr $basenum + 4`
#mknod ${nam}f b $blk `expr $basenum + 5`
#mknod ${nam}g b $blk `expr $basenum + 6`
#mknod ${nam}h b $blk `expr $basenum + 7`
#mknod ${nam}i b $blk `expr $basenum + 8`
#mknod ${nam}j b $blk `expr $basenum + 9`
#mknod ${nam}k b $blk `expr $basenum + 10`
#mknod ${nam}l b $blk `expr $basenum + 11`
#mknod ${nam}m b $blk `expr $basenum + 12`
#mknod ${nam}n b $blk `expr $basenum + 13`
#mknod ${nam}o b $blk `expr $basenum + 14`
#mknod ${nam}p b $blk `expr $basenum + 15`
mknod r${nam}a c $chr `expr $basenum + 0`
mknod r${nam}b c $chr `expr $basenum + 1`
mknod r${nam}c c $chr `expr $basenum + 2`
#mknod r${nam}d c $chr `expr $basenum + 3`
#mknod r${nam}e c $chr `expr $basenum + 4`
#mknod r${nam}f c $chr `expr $basenum + 5`
#mknod r${nam}g c $chr `expr $basenum + 6`
#mknod r${nam}h c $chr `expr $basenum + 7`
#mknod r${nam}i c $chr `expr $basenum + 8`
#mknod r${nam}j c $chr `expr $basenum + 9`
#mknod r${nam}k c $chr `expr $basenum + 10`
#mknod r${nam}l c $chr `expr $basenum + 11`
#mknod r${nam}m c $chr `expr $basenum + 12`
#mknod r${nam}n c $chr `expr $basenum + 13`
#mknod r${nam}o c $chr `expr $basenum + 14`
#mknod r${nam}p c $chr `expr $basenum + 15`
chown root.operator ${nam}[a-p] r${nam}[a-p]
chmod 640 ${nam}[a-p] r${nam}[a-p]
umask 77
;;
ccd*|sd*|xd*|xy*|cd*|vnd*)
umask 2
unit=`unt $i`
if [ 0$unit -gt 15 ]
then
echo bad disk unit: $i - $unit
exit 127
fi
case $i in
ccd*) name=ccd; blk=9; chr=23;;
sd*) name=sd; blk=7; chr=17;;
xd*) name=xd; blk=10; chr=42;;
xy*) name=xy; blk=3; chr=9;;
cd*) name=cd; blk=18; chr=58;;
vnd*) name=vnd; blk=8; chr=110;;
*) echo bad unit for disk in: $i;;
esac
if [ "$unit" = "" ]
then
n=0
while [ $n -lt 32 ]
do
sh ${this} $name$n
n=`add $n 1`
done
fi
rm -f $name$unit? r$name$unit?
minor=`mult $unit 8`
for slice in a b c d e f g h i j k l m n o p
do
dev=$name$unit$slice
mknod $dev b $blk $minor
mknod r$dev b $chr $minor
minor=`add $minor 1`
done
chown root.operator $name$unit? r$name$unit?
chmod 640 $name$unit? r$name$unit?
umask 77
umask 77
;;
st*)
umask 2
case $i in
st*) name=st; blk=11; chr=18;;
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
sixt=`mult $unit 16`
mknod $name$unit b $blk `add $sixt 0`
mknod n$name$unit b $blk `add $sixt 1`
mknod e$name$unit b $blk `add $sixt 2`
mknod en$name$unit b $blk `add $sixt 3`
mknod r$name$unit c $chr `add $sixt 0`
mknod nr$name$unit c $chr `add $sixt 1`
mknod er$name$unit c $chr `add $sixt 2`
mknod enr$name$unit c $chr `add $sixt 3`
chown root.operator $name$unit n$name$unit \
e$name$unit en$name$unit \
r$name$unit nr$name$unit \
er$name$unit enr$name$unit
chmod 640 $name$unit n$name$unit \
e$name$unit en$name$unit \
r$name$unit nr$name$unit \
er$name$unit enr$name$unit
umask 77
;;
ch*)
umask 2
case $i in
ch*) name=ch; chr=19;;
esac
rm -f $name$unit
sixt=`mult $unit 16`
mknod $name$unit c $chr `add $sixt 0`
chown root.operator $name$unit
chmod 640 $name$unit
umask 77
;;
lkm)
rm -f lkm
mknod lkm c 112 0
chown root.kmem lkm
chmod 640 lkm
;;
pty*)
case $unit in
0) offset=0 name=p;;
1) offset=16 name=q;;
2) offset=32 name=r;;
3) offset=48 name=s;;
# Note that telnetd, rlogind, and xterm (at least) only look at p-s.
4) offset=64 name=t;;
*) echo bad unit for pty in: $i;;
esac
case $unit in
0|1|2|3|4)
umask 0
n=0
while [ $n -lt 16 ]
do
nam=$name`hex $n`
rm -rf {tty,pty}$n
mknod tty$nam c 5 `add $offset $n`
mknod pty$nam c 6 `add $offset $n`
n=`add $n 1`
done
umask 77
;;
esac
;;
random|srandom|urandom|prandom|arandom)
rm -f random urandom srandom prandom arandom
mknod random c 119 0
mknod srandom c 119 1
mknod urandom c 119 2
mknod prandom c 119 3
mknod arandom c 119 4
chown root.wheel random srandom urandom prandom arandom
chmod 644 random srandom urandom prandom arandom
;;
uk*)
unit=`trunc $i uk`
rm -f uk$unit
mknod uk$unit c 98 $unit
chown root.operator uk$unit
chmod 640 uk$unit
;;
ss*)
unit=`trunc $i ss`
rm -f ss$unit
mknod ss$unit c 99 $unit
chown root.operator ss$unit
chmod 440 ss$unit
# backwards compatibility with older PINTs
rm -f scan$unit
ln -s ss$unit scan$unit
;;
local)
umask 0
sh ${this}.local
;;
*)
echo $i: unknown device
;;
esac
done
|