NetBSD/etc/MAKEDEV.tmpl
jdolecek ad4acc4abb allow also tty[0-9] for serial ports, they are convenient synonyms
for tty0[0-9]
as pointed out by David Laight

remove spaces between makedisk_p*() functions, so the output script looks
neater once some of them are filtered out
2003-10-17 19:06:33 +00:00

1744 lines
40 KiB
Bash

#!/bin/sh -
# $NetBSD: MAKEDEV.tmpl,v 1.3 2003/10/17 19:06:33 jdolecek Exp $
#
# Copyright (c) 2003 The NetBSD Foundation, Inc.
# 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 NetBSD
# Foundation, Inc. and its contributors.
# 4. Neither the name of The NetBSD Foundation 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 NETBSD FOUNDATION, INC. 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 FOUNDATION 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.
#
#
###########################################################################
#
# PLEASE RUN "cd ../share/man/man8 ; make makedevs"
# 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 type.
# init A set of devices that is used for MFS /dev by init.
# May be equal to "all".
# floppy devices to be put on install floppies
# ramdisk devices to be put into INSTALL kernel ramdisks.
# std standard devices
# local configuration specific devices
# usbs make USB devices
# isdns make ISDN devices
#
# Tapes:
# st* SCSI tapes
# wt* QIC-interfaced (e.g. not SCSI) 3M cartridge tape
# ht* MASSBUS TM03 and TU??
# mt* MSCP tapes (e.g. TU81, TK50)
# tm* UNIBUS TM11 and TE10 emulations (e.g. Emulex TC-11)
# ts* UNIBUS TS11
# ut* UNIBUS TU45 emulations (e.g. si 9700)
# uu* TU58 cassettes on DL11 controller
#
# Disks:
# ccd* concatenated disk devices
# cd* SCSI or ATAPI CD-ROM
# cgd* cryptographic disk devices
# raid* RAIDframe disk devices
# sd* SCSI disks
# wd* "winchester" disk drives (ST506,IDE,ESDI,RLL,...)
# bmd* Nereid bank memory disks
# ed* IBM PS/2 ESDI disk devices
# fd* "floppy" disk drives (3 1/2", 5 1/4")
# gdrom* Dreamcast "gigadisc" CD-ROM drive
# hk* UNIBUS RK06 and RK07
# hp* MASSBUS RM??
# ld* Logical disk devices (e.g., hardware RAID)
# mcd* Mitsumi CD-ROM
# md* memory pseudo-disk devices
# ofdisk* OpenFirmware disk devices
# ra* MSCP disks (RA??, RD??)
# rb* 730 IDC w/ RB80 and/or RB02
# rd* HDC9224 RD disks on VS2000
# rl* UNIBUS RL02
# rx* MSCP floppy disk (RX33/50/...)
# up* other UNIBUS devices (e.g. on Emulex SC-21V controller)
# vnd* "file" pseudo-disks
# xd* Xylogic 753/7053 disks
# xy* Xylogic 450/451 disks
#
# Pointing devices:
# wsmouse* wscons mouse events
# lms* Logitech bus mouse
# mms* Microsoft bus mouse
# qms* "quadrature mouse"
# pms* PS/2 mouse
# mouse mouse (provides events, for X11)
#
# Keyboard devices:
# wskbd* wscons keyboard events
# kbd raw keyboard (provides events, for X11)
# kbdctl keyboard control
#
# Terminals/Console ports:
# tty[01]* standard serial ports
# tty0* SB1250 ("sbscn") serial ports (sbmips)
# ttyE* wscons - Workstation console ("wscons") glass-tty emulators
# ttyCZ? Cyclades-Z multiport serial boards. Each "unit"
# makes 64 ports.
# ttyCY? Cyclom-Y multiport serial boards. Each "unit" makes
# 32 ports.
# ttye* ITE bitmapped consoles
# ttyv0 pccons
# ttyC? NS16550 ("com") serial ports
# ttyS* SA1110 serial port (hpcarm)
# ttyTX? TX39 internal serial ports (hpcmips)
# ttyB? DEC 3000 ZS8530 ("scc") serial ports (alpha)
# ttyA* mfc serial ports (amiga)
# ttyB* msc serial ports (amiga)
# ttyC* com style serial ports (DraCo, HyperCom) (amiga)
# On the DraCo, units 0 and 1 are the built-in "modem" and
# "mouse" ports, if configured.
# ttyA0 8530 Channel A (formerly ser02) (atari)
# ttyA1 8530 Channel B (formerly mdm02) (atari)
# ttyB0 UART on first 68901 (formerly mdm01) (atari)
# ixpcom IXP12x0 COM ports
# dca* HP200/300 single port serial interface
# dcm* HP200/300 4 port serial mux interface
# apci* HP400 4 port serial mux interface
# ttya 'ttya' system console (luna68k)
# ttyb second system serial port (luna68k)
# tty* Onboard serial ports (mvme68k)
# On the mvme147 these are: ttyZ1, ttyZ2 and ttyZ3.
# On the mvme167, and '177: ttyC1, ttyC2 and ttyC3.
# Note that tty[CZ]0 is grabbed by the console device
# so is not created by default
# dc* PMAX 4 channel serial interface (kbd, mouse, modem, printer)
# scc* 82530 serial interface (pmax)
# ttyZ* Zilog 8530 ("zstty") serial ports
# tty[abcd] Built-in serial ports (sparc)
# tty* Z88530 serial controllers (sparc64)
# ttyh* SAB82532 serial controllers (sparc64)
# tty[a-j] Built-in serial ports (sun2, sun3)
# ttyC? pccons (arc)
# dz* UNIBUS DZ11 and DZ32 (vax)
# dh* UNIBUS DH11 and emulations (e.g. Able DMAX, Emulex CS-11) (vax)
# dmf* UNIBUS DMF32 (vax)
# dhu* UNIBUS DHU11 (vax)
# dmz* UNIBUS DMZ32 (vax)
# dl* UNIBUS DL11 (vax)
#
# Terminal multiplexors:
# apci* HP400 4 port serial mux interface
# dc* 4 channel serial interface (keyboard, mouse, modem, printer)
# dca* HP200/300 single port serial interface
# dcm* HP200/300 4 port serial mux interface
# dh* UNIBUS DH11 and emulations (e.g. Able DMAX, Emulex CS-11)
# dhu* UNIBUS DHU11
# dl* UNIBUS DL11
# dmf* UNIBUS DMF32
# dmz* UNIBUS DMZ32
# dz* UNIBUS DZ11 and DZ32
# scc* 82530 serial interface
#
# Call units:
# dn* UNIBUS DN11 and emulations (e.g. Able Quadracall)
#
# Pseudo terminals:
# pty* set of 62 master and slave pseudo terminals
# opty first 16 ptys, to save inodes on install media
# ipty first 2 ptys, for install media use only
#
# Printers:
# arcpp* Archimedes parallel port
# lpt* stock lp
# lpa* interruptless lp
# par* Amiga motherboard parallel port
#
# USB devices:
# usb* USB control devices
# uhid* USB generic HID devices
# ulpt* USB printer devices
# ugen* USB generic devices
# urio* USB Diamond Rio 500 devices
# uscanner* USB scanners
# ttyU* USB modems
#
# ISDN devices:
# isdn communication between userland isdnd and kernel
# isdnctl control device
# isdnbchan* raw b-channel access
# isdntel* telephony device
# isdnteld* telephony dialout device
# isdntrc* trace device
#
# Video devices:
# bwtwo* monochromatic frame buffer
# cgtwo* 8-bit color frame buffer
# cgthree* 8-bit color frame buffer
# cgfour* 8-bit color frame buffer
# cgsix* accelerated 8-bit color frame buffer
# cgeight* 24-bit color frame buffer
# etvme Tseng et-compatible cards on VME
# ik* UNIBUS interface to Ikonas frame buffer
# leo Circad Leonardo VME-bus true color
# ps* UNIBUS interface to Picture System 2
# qv* QVSS (MicroVAX) display
# tcx* accelerated 8/24-bit color frame buffer
#
# Maple bus devices:
# maple Maple bus control devices
# mlcd* Maple bus LCD devices
# mmem* Maple bus storage devices
#
# Special purpose devices:
# ad* UNIBUS interface to Data Translation A/D converter
# agp* AGP GART devices
# altq ALTQ control interface
# apm power management device
# audio* audio devices
# beep PC speaker
# bell* OPM bell device (x86k)
# bktr Brooktree 848/849/878/879 based TV cards
# bpf* packet filter
# cfs* Coda file system device
# ch* SCSI media changer
# cir* Consumer IR
# clockctl clock control for non root users
# crypto hardware crypto access driver
# dmoverio hardware-assisted data movers
# dpt* DPT/Adaptec EATA RAID management interface
# dpti* DPT/Adaptec I2O RAID management interface
# fb* generic framebuffer pseudo-device
# fd file descriptors
# grf* graphics frame buffer device
# hil HP300 HIL input devices
# icp ICP-Vortex/Intel RAID control interface
# iic* IIC bus device
# iop* I2O IOP control interface
# ipl IP Filter
# irframe* IrDA physical frame
# ite* terminal emulator interface to HP300 graphics devices
# joy* joystick device
# kttcp kernel ttcp helper device
# lkm loadable kernel modules interface
# magma* Magma multiport serial/parallel cards
# midi* MIDI
# mlx* Mylex DAC960 control interface
# mly* Mylex AcceleRAID/eXtremeRAID control interface
# np* UNIBUS Ethernet co-processor interface, for downloading.
# nsmb* SMB requester
# openfirm OpenFirmware accessor
# pci* PCI bus access devices
# pf PF packet filter
# pow* power management device (x86k)
# px* PixelStamp Xserver access
# radio* radio devices
# random Random number generator, see rnd(4)
# rtc* Atari RealTimeClock
# satlink* PlanetConnect satellite receiver driver
# scsibus* SCSI busses, see scsi(4), scsictl(8)
# se* SCSI Ethernet
# ses* SES/SAF-TE SCSI Devices
# speaker PC speaker (XXX - installed)
# sram battery backuped memory (x86k)
# ss* SCSI scanner
# stic* PixelStamp interface chip
# sysmon System Monitoring hardware
# systrace syscall tracer
# tun* network tunnel driver
# twe 3ware Escalade control interface
# uk* unknown SCSI device
# veriexec verified executable fingerprint loader
# vmegen* generic VME access
# view* generic interface to graphic displays (Amiga)
# wsfont* console font control
# wsmux* wscons event multiplexor
dialin=0
dialout=524288
callunit=262144
# Keep /usr/etc so SunOS can find chown
PATH=/sbin:/usr/sbin:/bin:/usr/bin:/usr/etc
# only allow read&write for owner by default
umask 077
# Check if we have fdesc mounted
if [ -d fd ]; then
case "`df fd`" in
*fdesc*) nofdesc=false;;
*) nofdesc=true;;
esac
else
nofdesc=true
fi
# called from makedev, with params
# mkdev name b/c major minor [mode] [group]
mkdev() {
rm -f $1
mknod $1 $2 $3 $4
test -n "$5" && chmod $5 $1
test -n "$6" && chgrp $6 $1
}
makedev()
{
for i
do
case $i in
%MD_DEVICES%
all)
makedev all_md
makedev std fd pty0
makedev ccd0 ccd1 ccd2 ccd3
makedev cgd0 cgd1 cgd2 cgd3
makedev md0 md1
makedev raid0 raid1 raid2 raid3 raid4 raid5 raid6 raid7
makedev vnd0 vnd1 vnd2 vnd3
makedev bpf0 bpf1 bpf2 bpf3 bpf4 bpf5 bpf6 bpf7
makedev tun0 tun1 tun2 tun3
makedev ipl pf crypto random systrace
makedev lkm clockctl
makedev local
;;
init)
# unless overridden by MD entry, this is equal to 'all'
makedev all
;;
%MI_DEVICES_BEGIN%
audio)
makedev audio0 audio1 audio2 audio3
ln -fs sound0 sound
ln -fs audio0 audio
ln -fs mixer0 mixer
ln -fs audioctl0 audioctl
;;
radio)
makedev radio0 radio1
ln -fs radio0 radio
;;
ramdisk)
makedev floppy md0
;;
usbs)
makedev usb usb0 usb1 usb2 usb3 usb4 usb5 usb6 usb7
makedev uhid0 uhid1 uhid2 uhid3
makedev ulpt0 ulpt1
makedev ttyU0 ttyU1
makedev urio0
makedev uscanner0 uscanner1
makedev ugen0
;;
isdns)
makedev isdn isdnctl isdnbchan0 isdnbchan1 isdntel0 isdntel1 isdnteld0 isdnteld1 isdntrc0 isdntrc1
;;
std)
rm -f console constty drum mem kmem null zero io klog ksyms
mknod console c %cons_chr% 0
mknod constty c %cons_chr% 1
mknod drum c %swap_chr% 0 ; chmod 640 drum ; chgrp kmem drum
mknod kmem c %mem_chr% 1 ; chmod 640 kmem ; chgrp kmem kmem
mknod mem c %mem_chr% 0 ; chmod 640 mem ; chgrp kmem mem
mknod null c %mem_chr% 2 ; chmod 666 null
mknod zero c %mem_chr% 12 ; chmod 666 zero
mknod klog c %log_chr% 0 ; chmod 600 klog
mknod ksyms c %ksyms_chr% 0 ; chmod 444 ksyms
if $nofdesc; then
rm -f tty stdin stdout stderr
mknod tty c %ctty_chr% 0 ; chmod 666 tty
mknod stdin c %filedesc_chr% 0 ; chmod 666 stdin
mknod stdout c %filedesc_chr% 1 ; chmod 666 stdout
mknod stderr c %filedesc_chr% 2 ; chmod 666 stderr
fi
;;
usb*)
unit=${i#usb}
if [ "$unit" = "" ]; then
unit=255
usb=usb
else
usb=usb$unit
fi
major=%usb_chr%
rm -f $usb
mknod $usb c $major $unit
chmod 600 $usb
;;
uhid*)
unit=${i#uhid}
uhid=uhid$unit
major=%uhid_chr%
rm -f $uhid
mknod $uhid c $major $unit
chmod 666 $uhid
;;
ulpt*)
unit=${i#ulpt}
ulpt=ulpt$unit
ulpn=ulpn$unit
major=%ulpt_chr%
rm -f $ulpt $ulpn
mknod $ulpt c $major $unit
mknod $ulpn c $major $(($unit + 64))
chmod 600 $ulpt $ulpn
;;
urio*)
unit=${i#urio}
urio=urio$unit
major=%urio_chr%
rm -f $urio
mknod $urio c $major $unit
chmod 666 $urio
;;
uscanner*)
unit=${i#uscanner}
uscanner=uscanner$unit
major=%uscanner_chr%
rm -f $uscanner
mknod $uscanner c $major $unit
chmod 600 $uscanner
;;
ttyU*)
unit=${i#ttyU}
ttyU=ttyU$unit
dtyU=dtyU$unit
ctyU=ctyU$unit
major=%ucom_chr%
rm -f $ttyU $dtyU $ctyU
mknod $ttyU c $major $(($unit + $dialin ))
mknod $dtyU c $major $(($unit + $dialout ))
mknod $ctyU c $major $(($unit + $callunit))
chown uucp $ttyU $dtyU $ctyU
chmod 600 $ttyU $dtyU $ctyU
;;
ugen*)
unit=${i#ugen}
ugen=ugen$unit
major=%ugen_chr%
for j in 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15
do
ugenj=$ugen.$j
rm -f $ugenj
mknod $ugenj c $major $(($unit * 16 + ${j#0}))
chmod 600 $ugenj
done
;;
wscons)
makedev ttyE0 ttyE1 ttyE2 ttyE3 ttyE4 ttyE5 ttyE6 ttyE7
makedev wsmouse0 wsmouse1 wsmouse2 wsmouse3
makedev wskbd0 wskbd1 wskbd2 wskbd3
makedev wsmux0 wsmux1 wsmux2 wsmux3
makedev wsmouse wskbd
makedev ttyEcfg ttyEstat
makedev wsfont
;;
wsmouse)
rm -f wsmouse
mknod wsmouse c %wsmouse_chr% 0
chmod 600 wsmouse
;;
wskbd)
rm -f wskbd
mknod wskbd c %wskbd_chr% 1
chmod 600 wskbd
;;
wsmux*)
unit=${i#wsmux}
unitctl=$(($unit + 128))
wsmux=wsmux$unit
wsmuxctl=wsmuxctl$unit
major=%wsmux_chr%
rm -f $wsmux $wsmuxctl
mknod $wsmux c $major $unit
chmod 600 $wsmux
mknod $wsmuxctl c $major $unitctl
chmod 200 $wsmuxctl
;;
ttyEstat)
chr=%wsdisplay_chr%
rm -f ttyEstat
mknod ttyEstat c $chr 254
chmod 600 ttyEstat
;;
ttyEcfg)
chr=%wsdisplay_chr%
rm -f ttyEcfg
mknod ttyEcfg c $chr 255
chmod 600 ttyEcfg
;;
ttyE*)
chr=%wsdisplay_chr%; unit=${i#ttyE}
rm -f ttyE$unit
mknod ttyE$unit c $chr $unit
;;
wsmouse*)
unit=${i#wsmouse}
wsmouse=wsmouse$unit
major=%wsmouse_chr%
rm -f $wsmouse
mknod $wsmouse c $major $unit
chmod 600 $wsmouse
;;
wskbd*)
unit=${i#wskbd}
wskbd=wskbd$unit
major=%wskbd_chr%
rm -f $wskbd
mknod $wskbd c $major $unit
chmod 600 $wskbd
;;
fd)
if $nofdesc; then
rm -f fd/*
mkdir fd 2>/dev/null
n=0
while [ $n -lt 64 ]; do
mknod fd/$n c 22 $n
n=$(($n + 1))
done
chmod 755 fd
chmod 666 fd/*
fi
;;
wt*)
case $i in
wt*) name=wt; unit=${i#wt}; chr=%wt_chr%; blk=%wt_blk%;;
esac
for sub in $unit $(($unit+8)) $(($unit+16))
do
rm -f $name$sub n$name$sub r$name$sub nr$name$sub
mknod $name$sub b $blk $(($sub + 0))
mknod n$name$sub b $blk $(($sub + 4))
mknod r$name$sub c $chr $(($sub + 0))
mknod nr$name$sub c $chr $(($sub + 4))
chgrp operator $name$sub n$name$sub r$name$sub nr$name$sub
chmod 660 $name$sub n$name$sub r$name$sub nr$name$sub
done
;;
md*)
unit=${i#md}; blk=%md_blk%; chr=%md_chr%
rm -f md${unit}? rmd${unit}?
mknod md${unit}a b $blk $(($unit * 8 + 0))
mknod md${unit}d b $blk $(($unit * 8 + 3))
# mknod rmd${unit}a c $chr $(($unit * 8 + 0))
# mknod rmd${unit}d c $chr $(($unit * 8 + 3))
chgrp operator md${unit}? #rmd${unit}?
chmod 640 md${unit}? #rmd${unit}?
;;
ss*)
case $i in
ss*) name=ss; unit=${i#ss}; chr=%ss_chr%;;
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
;;
ccd*|cgd*|raid*|sd*|vnd*)
case $i in
ccd*) name=ccd; unit=${i#ccd}; blk=%ccd_blk%; chr=%ccd_chr%;;
cgd*) name=cgd; unit=${i#cgd}; blk=%cgd_blk%; chr=%cgd_chr%;;
raid*) name=raid; unit=${i#raid}; blk=%raid_blk%; chr=%raid_chr%;;
sd*) name=sd; unit=${i#sd}; blk=%sd_blk%; chr=%sd_chr%;;
vnd*) name=vnd; unit=${i#vnd}; blk=%vnd_blk%; chr=%vnd_chr%;;
esac
%MKDISK% $name $unit $blk $chr
;;
wd*)
name=wd; unit=${i#wd}; blk=%wd_blk%; chr=%wd_chr%
%MKDISK% $name $unit $blk $chr
;;
fd*)
name=fd; unit=${i#fd}; blk=%fd_blk%; chr=%fd_chr%
%MKDISK% $name $unit $blk $chr
;;
ld*)
name=ld; unit=${i#ld}; blk=%ld_blk%; chr=%ld_chr%
%MKDISK% $name $unit $blk $chr
;;
ed*)
name=ed; unit=${i#ed}; blk=%ed_blk%; chr=%ed_chr%
%MKDISK% $name $unit $blk $chr
;;
ofdisk*)
name=ofdisk; unit=${i#ofdisk}; blk=%ofdisk_blk%; chr=%ofdisk_chr%
%MKDISK% $name $unit $blk $chr
;;
ttyCZ*)
unit=${i#ttyCZ}
major=%cz_chr%
minor=$(($unit * 64))
eminor=$(($minor + 64))
while [ $minor -lt $eminor ]; do
if [ $minor -lt 10 ]; then
nminor=000$minor
elif [ $minor -lt 100 ]; then
nminor=00$minor
elif [ $minor -lt 1000 ]; then
nminor=0$minor
else
nminor=$minor
fi
rm -f ttyCZ$nminor dtyCZ$nminor
mknod ttyCZ$nminor c $major $(($minor + $dialin ))
mknod dtyCZ$nminor c $major $(($minor + $dialout ))
chown uucp ttyCZ$nminor dtyCZ$nminor
chmod 600 ttyCZ$nminor dtyCZ$nminor
minor=$(($minor + 1))
done
;;
ttyCY*)
unit=${i#ttyCY}
major=%cy_chr%
minor=$(($unit * 32))
eminor=$(($minor + 32))
while [ $minor -lt $eminor ]; do
if [ $minor -lt 10 ]; then
nminor=00$minor
elif [ $minor -lt 100 ]; then
nminor=0$minor
else
nminor=$minor
fi
rm -f ttyCY$nminor dtyCY$nminor
mknod ttyCY$nminor c $major $(($minor + $dialin ))
mknod dtyCY$nminor c $major $(($minor + $dialout ))
chown uucp ttyCY$nminor dtyCY$nminor
chmod 600 ttyCY$nminor dtyCY$nminor
minor=$(($minor + 1))
done
;;
tty0*|tty1*|tty[0-9])
ounit=${i#tty}
ounit=$(($ounit + 0))
if [ $ounit -lt 10 ]; then
unit=0$ounit
else
unit=$ounit
fi
rm -f tty$unit dty$unit
mknod tty$unit c %com_chr% $(($ounit + $dialin ))
mknod dty$unit c %com_chr% $(($ounit + $dialout))
chown uucp tty$unit dty$unit
;;
ttyC*)
# some archs call it ttyC traditionally
unit=${i#ttyC}
rm -f ttyC$unit dtyC$unit
mknod ttyC$unit c %com_chr% $(($unit + $dialin))
mknod dtyC$unit c %com_chr% $(($unit + $dialout))
chown uucp ttyC$unit dtyC$unit
;;
ttyh*)
unit=${i#ttyh}
rm -f ttyh$unit dtyh$unit
mknod ttyh$unit c %sabtty_chr% $(($unit + $dialin ))
mknod dtyh$unit c %sabtty_chr% $(($unit + $dialout))
chown uucp ttyh$unit dtyh$unit
;;
ttyZ*)
name=ttyZ; dname=dtyZ; unit=${i#ttyZ}; chr=%zstty_chr%
rm -f $name$unit $dname$unit
mknod $name$unit c $chr $(($unit + $dialin ))
mknod $dname$unit c $chr $(($unit + $dialout))
chown uucp $name$unit $dname$unit
;;
opty)
rm -f ttyp[0-9a-f] ptyp[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
mknod ttyp$j c %pts_chr% $jn
mknod ptyp$j c %ptc_chr% $jn
done
chmod 666 ttyp[0-9a-f] ptyp[0-9a-f]
;;
pty*)
class=${i#pty}
set -- p q r s t u v w x y z P Q R S T
if [ "$class" -ge $# ]; then
echo "$MAKEDEV: $i: pty unit must be between 0 and 15"
continue
fi
shift $class
name=$1
if [ "$name" = v ]; then
echo "$MAKEDEV: $i: pty unit conflicts with console ttyv0 device."
continue
fi
rm -f tty$name[0-9a-zA-Z] pty$name[0-9a-zA-Z]
jn=0
unit=$(($class * 16))
names=
set -- - 0 1 2 3 4 5 6 7 8 9 a b c d e f g h i j k l m n o p q r s t u v w x y z A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
while
shift
j=$1
[ -n "$j" ]
do
if [ $j = g ]; then
unit=$(($unit + $class * 30 + 256 - 16))
fi
mknod tty$name$j c %pts_chr% $unit
mknod pty$name$j c %ptc_chr% $unit
names="$names tty$name$j pty$name$j"
unit=$(($unit + 1))
done
chmod 666 $names
unset names
;;
st*)
case $i in
st*) name=st; unit=${i#st}; chr=%st_chr%; blk=%st_blk%;;
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
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 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))
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
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
;;
ses*|ch*|uk*)
case $i in
ch*) name=ch; unit=${i#ch}; chr=%ch_chr%;;
uk*) name=uk; unit=${i#uk}; chr=%uk_chr%;;
ses*) name=ses; unit=${i#ses}; chr=%ses_chr%;;
esac
rm -f $name$unit
mknod $name$unit c $chr $unit
chgrp operator $name$unit
chmod 640 $name$unit
;;
cd*|mcd*)
case $i in
cd*) name=cd; unit=${i#cd}; chr=%cd_chr%; blk=%cd_chr%;;
mcd*) name=mcd; unit=${i#mcd}; chr=%mcd_chr%; blk=%mcd_chr%;;
esac
rm -f $name$unit? r$name$unit?
mknod ${name}${unit}a b $blk $(($unit * 8 + 0))
mknod ${name}${unit}d b $blk $(($unit * 8 + 3))
mknod r${name}${unit}a c $chr $(($unit * 8 + 0))
mknod r${name}${unit}d c $chr $(($unit * 8 + 3))
chgrp operator $name$unit? r$name$unit?
chmod 640 $name$unit? r$name$unit?
;;
gdrom*)
case $i in
gdrom*) name=gdrom; unit=${i#gdrom}; chr=%gdrom_chr%; blk=%gdrom_blk%;;
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?
;;
lpt*|lpa*)
case $i in
lpt*) name=lpt; unit=${i#lpt}; chr=%lpt_chr%; flags=0;;
lpa*) name=lpa; unit=${i#lpa}; chr=%lpt_chr%; flags=128;;
esac
rm -f $name$unit
mknod $name$unit c $chr $(($unit + $flags))
;;
bpf*|tun*)
case $i in
bpf*) name=bpf; unit=${i#bpf}; chr=%bpf_chr%;;
tun*) name=tun; unit=${i#tun}; chr=%tun_chr%;;
esac
rm -f $name$unit
mknod $name$unit c $chr $unit
;;
joy*)
case $i in
joy*) name=joy; unit=${i#joy}; chr=%joy_chr%;;
esac
rm -f $name$unit
mknod $name$unit c $chr $unit
;;
ipl)
rm -f ipl ipnat ipstate ipauth
mknod ipl c %ipl_chr% 0
mknod ipnat c %ipl_chr% 1
mknod ipstate c %ipl_chr% 2
mknod ipauth c %ipl_chr% 3
chmod 600 ipl ipnat ipstate ipauth
;;
pf)
rm -f pf
mknod pf c %pf_chr% 0
chmod 600 pf
;;
crypto)
rm -f crypto
mknod crypto c %crypto_chr% 0
chmod 666 crypto
;;
speaker)
rm -f speaker
mknod speaker c %spkr_chr% 0
;;
lkm)
rm -f lkm
mknod lkm c %lkm_chr% 0
chgrp kmem lkm
chmod 640 lkm
;;
audio*)
unit=${i#audio}
audio=audio$unit
sound=sound$unit
mixer=mixer$unit
major=%audio_chr%
audioctl=audioctl$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))
chmod 666 $audio $sound $mixer $audioctl
;;
rmidi*)
unit=${i#rmidi}
major=%midi_chr%
rmidi=rmidi$unit
rm -f $rmidi
mknod $rmidi c $major $unit
chmod 666 $rmidi
;;
music*)
unit=${i#music}
music=music$unit
sequencer=sequencer$unit
major=%sequencer_chr%
if [ "$unit" = "" ]; then unit=0; fi
rm -f $sequencer $music
mknod $music c $major $(($unit + 0))
mknod $sequencer c $major $(($unit + 128))
chmod 666 $music $sequencer
;;
radio*)
unit=${i#radio}
radio=radio$unit
major=%radio_chr%
if [ "$unit" = "" ]; then unit=0; fi
rm -f $radio
mknod $radio c $major $unit
chmod 666 $radio
;;
apm*)
rm -f apm apmctl
mknod apm c %apm_chr% 0
mknod apmctl c %apm_chr% 8
chmod 644 apm apmctl
;;
satlink*)
unit=${i#satlink}
rm -f satlink$unit
mknod satlink$unit c %satlink_chr% $unit
chmod 444 satlink$unit
;;
random)
rm -f random urandom
mknod random c %rnd_chr% 0
mknod urandom c %rnd_chr% 1
chmod 444 random
chmod 644 urandom
;;
cfs*)
unit=${i#cfs}
cfs=cfs$unit
major=%vcoda_chr%
rm -f $cfs
mknod $cfs c $major $unit
chmod 600 $cfs
;;
sysmon)
major=%sysmon_chr%
rm -f sysmon
mknod sysmon c $major 0
chmod 644 sysmon
rm -f watchdog
mknod watchdog c $major 1
chmod 644 watchdog
rm -f power
mknod power c $major 2
chmod 640 power
;;
scsibus*)
unit=${i#scsibus}
rm -f scsibus$unit
mknod scsibus$unit c %scsibus_chr% $unit
chmod 644 scsibus$unit
;;
bktr)
makedev bktr0 bktr1
ln -fs bktr0 bktr
ln -fs tuner0 tuner
ln -fs vbi0 vbi
;;
bktr*)
major=%bktr_chr%
unit=${i#bktr}
rm -f bktr$unit tuner$unit vbi$unit
mknod bktr$unit c $major $(($unit + 0))
mknod tuner$unit c $major $(($unit + 16))
mknod vbi$unit c $major $(($unit + 32))
chmod 444 bktr$unit tuner$unit vbi$unit
;;
iop*)
unit=${i#iop}
rm -f iop$unit
mknod iop$unit c %iop_chr% $unit
chmod 600 iop$unit
;;
mlx*)
unit=${i#mlx}
rm -f mlx$unit
mknod mlx$unit c %mlx_chr% $unit
chmod 600 mlx$unit
;;
mly*)
unit=${i#mly}
rm -f mly$unit
mknod mly$unit c %mly_chr% $unit
chmod 600 mly$unit
;;
twe*)
unit=${i#twe}
rm -f twe$unit
mknod twe$unit c %twe_chr% $unit
chmod 600 twe$unit
;;
icp*)
unit=${i#icp}
rm -f icp$unit
mknod icp$unit c %icp_chr% $unit
chmod 600 icp$unit
;;
agp*)
unit=${i#agp}
rm -f agp$unit
mknod agp$unit c %agp_chr% $unit
if [ "$unit" = "0" ]; then ln -fs agp$unit agpgart; fi
chmod 644 agp$unit
;;
pci*)
unit=${i#pci}
rm -f pci$unit
mknod pci$unit c %pci_chr% $unit
chmod 644 pci$unit
;;
dpti*)
unit=${i#dpti}
rm -f dpti$unit
mknod dpti$unit c %dpti_chr% $unit
chmod 600 dpti$unit
;;
dpt*)
unit=${i#dpt}
rm -f dpt$unit
mknod dpt$unit c %dpt_chr% $unit
chmod 600 dpt$unit
;;
altq)
mkdir altq 2>/dev/null
chmod 755 altq
unit=0
for dev in altq cbq wfq afm fifoq red rio localq hfsc \
cdnr blue priq; do
rm -f altq/$dev
mknod altq/$dev c %altq_chr% $unit
chmod 644 altq/$dev
unit=$(($unit + 1))
done
;;
isdn)
rm -f isdn
mknod isdn c %isdn_chr% 0
chmod 600 isdn
;;
isdnctl)
rm -f isdnctl
mknod isdnctl c %isdnctl_chr% 0
chmod 600 isdnctl
;;
isdnbchan*)
unit=${i#isdnbchan}
rm -f isdnbchan$unit
mknod isdnbchan$unit c %isdnbchan_chr% $unit
chmod 600 isdnbchan$unit
;;
isdnteld*)
unit=${i#isdnteld}
rm -f isdnteld$unit
mknod isdnteld$unit c %isdntel_chr% $(($unit + 64))
chmod 600 isdnteld$unit
;;
isdntel*)
unit=${i#isdntel}
rm -f isdntel$unit
mknod isdntel$unit c %isdntel_chr% $unit
chmod 600 isdntel$unit
;;
isdntrc*)
unit=${i#isdntrc}
rm -f isdntrc$unit
mknod isdntrc$unit c %isdntrc_chr% $unit
chmod 600 isdntrc$unit
;;
vmegen)
makedev vmegen0 vmegen1 vmegen2 vmegen3
;;
vmegen*)
unit=${i#vmegen}
rm -f vmegen$unit
mknod vmegen$unit c %vmegeneric_chr% $(($unit * 16 + 0))
chmod 600 vmegen$unit
;;
wsfont)
rm -f wsfont
mknod wsfont c %wsfont_chr% 0
chmod 600 wsfont
;;
cir*)
unit=${i#cir}
cir=cir$unit
major=%cir_chr%
rm -f $cir
mknod $cir c $major $unit
chmod 666 $cir
;;
irframe*)
unit=${i#irframe}
irframe=irframe$unit
major=%irframe_chr%
rm -f $irframe
mknod $irframe c $major $unit
chmod 600 $irframe
;;
fcom*)
unit=${i#fcom}
fcom=fcom$unit
rm -f $fcom
mknod $fcom c %fcom_chr% $unit
chown uucp $fcom
chmod 600 $fcom
;;
beep)
rm -f beep
mknod beep c %beep_chr% 0
;;
openfirm)
rm -f openfirm
mknod openfirm c %openfirm_chr% 0
chmod 444 openfirm
;;
nvram)
rm -f nvram
mknod nvram c %nvram_chr% 0
chmod 644 nvram
;;
rtc)
mknod rtc c %rtc_chr% 3
chmod 644 rtc
;;
clockctl)
rm -f clockctl
mknod clockctl c %clockctl_chr% 0
chgrp ntpd clockctl
chmod 660 clockctl
;;
nsmb)
makedev nsmb0 nsmb1 nsmb2 nsmb3
;;
nsmb*)
unit=${i#nsmb}
nsmb=nsmb$unit
major=%nsmb_chr%
rm -f $nsmb
mknod $nsmb c $major $unit
chmod 644 $nsmb
;;
systrace)
rm -f systrace
mknod systrace c %systrace_chr% 0
chmod 644 systrace
;;
kttcp)
rm -f kttcp
mknod kttcp c %kttcp_chr% 0
chmod 600 kttcp
;;
dmoverio)
rm -f dmoverio
mknod dmoverio c %dmoverio_chr% 0
chmod 644 dmoverio
;;
veriexec)
rm -f veriexec
mknod veriexec c %veriexec_chr% 0
chmod 644 veriexec
;;
ttyv*)
chr=%pc_chr%; unit=${i#ttyv}
rm -f ttyv$unit
mknod ttyv$unit c $chr $unit
;;
arcpp*)
chr=%arcpp_chr%; unit=${i#arcpp}
mkdev arcpp c $chr $unit
;;
par*)
unit=${i#par}; chr=%par_chr%
rm -f par$unit
case $unit in
0)
mknod par$unit c $chr $unit
;;
*)
echo bad unit for par in: $i
;;
esac
;;
ite*|ttye*)
unit=${i#ttye}; chr=%ite_chr%
rm -f ttye$unit
rm -f ite*
mknod ttye$unit c $chr $unit
;;
pms*)
major=%pms_chr%
unit=${i#qms}
rm -f $name$unit
mknod $name$unit c $major $unit
;;
qms*)
major=%qms_chr%
unit=${i#qms}
rm -f $name$unit
mknod $name$unit c $major $unit
;;
lms*)
major=%lms_chr%
unit=${i#lms}
rm -f $name$unit
mknod $name$unit c $major $unit
;;
mms*)
major=%mms_chr%
unit=${i#mms}
rm -f $name$unit
mknod $name$unit c $major $unit
;;
mouse-*)
case $i in
mouse-pms*) name=pms; unit=${i#mouse-pms};;
mouse-qms*) name=qms; unit=${i#mouse-qms};;
esac
ln -fs $name$unit mouse
;;
kbd)
rm -f kbd
mknod kbd c %kbd_chr% 0
;;
view*)
unit=${i#view}; chr=%view_chr%
rm -f view$unit
mknod view$unit c $chr $unit
chmod 666 view$unit
;;
mouse*)
unit=${i#mouse}; chr=%ms_chr%
rm -f mouse$unit
case $unit in
0|1)
mknod mouse$unit c $chr $unit
chmod 666 mouse$unit
if [ $unit = 0 ]
then
ln -fs mouse$unit mouse
fi
;;
*)
echo bad unit for mouse in: $i
;;
esac
;;
panel)
rm -f panel0
mknod panel0 c %panel_chr% 0
chmod 660 panel0
;;
ipty)
rm -f ttyp0 ttyp1 ptyp0 ptyp1
mknod ttyp0 c %pts_chr% 0
mknod ttyp1 c %pts_chr% 1
mknod ptyp0 c %ptc_chr% 0
mknod ptyp1 c %ptc_chr% 1
chmod 666 ttyp0 ttyp1 ptyp0 ptyp1
;;
grf*)
major=%grf_chr%
unit=${i#grf}
rm -f grf${unit}
mknod grf${unit} c 11 ${unit}
chmod 666 grf${unit}
;;
etvme)
rm -f etvme
mknod etvme c %etvme_chr% 0
chmod 600 etvme
;;
leo*)
unit=${i#leo}
rm -f leo$unit
mknod leo$unit c %leo_chr% $unit
chmod 600 leo$unit
;;
scif*)
chr=%scif_chr%; unit=${i#scif}
name=scif
rm -f $name$unit
mknod $name$unit c $chr $unit
chown uucp $name$unit
;;
sci*)
chr=%scif_chr%; unit=${i#scif}
name=sci
rm -f $name$unit
mknod $name$unit c $chr $unit
chown uucp $name$unit
;;
maple*)
chr=%maple_chr%
case $i in
mapleA*) name="mapleA"; unit=0;;
mapleB*) name="mapleB"; unit=1;;
mapleC*) name="mapleC"; unit=2;;
mapleD*) name="mapleD"; unit=3;;
esac
subunit=${i#$name}
rm -f $name$subunit
mknod $name$subunit c $chr $(($unit * 8 + 0$subunit))
chmod 600 $name$subunit
;;
mmem*)
name=mmem; unit=${i#mmem}; chr=%mmem_chr%; blk=%mmem_blk%
rm -f $name$unit.* r$name$unit.*
for pt in 0 # 1 2 3 4 ... 255
do
#mknod ${name}${unit}.${pt}a b $blk $(($unit * 4096 + $pt * 16 + 0))
mknod ${name}${unit}.${pt}c b $blk $(($unit * 4096 + $pt * 16 + 2))
#mknod r${name}${unit}.${pt}a c $chr $(($unit * 4096 + $pt * 16 + 0))
mknod r${name}${unit}.${pt}c c $chr $(($unit * 4096 + $pt * 16 + 2))
done
chgrp operator $name$unit.* r$name$unit.*
chmod 640 $name$unit.* r$name$unit.*
;;
mlcd*)
name=mlcd; unit=${i#mlcd}; chr=%mlcd_chr%
rm -f $name$unit.*
for pt in 0 # 1 2 3 4 ... 255
do
mknod ${name}${unit}.${pt} c $chr $(($unit * 256 + $pt))
done
chgrp operator $name$unit.*
chmod 640 $name$unit.*
;;
ixpcom*)
unit=${i#ixpcom}
rm -f ixpcom$unit
mknod ixpcom$unit c %ixpcom_chr% $unit
chown uucp ixpcom$unit
;;
ucbsnd)
rm -f ucbsnd
mknod ucbsnd c %ucbsnd_chr% 0
chmod 666 ucbsnd
;;
ttyTX*)
unit=${i#ttyTX}
name=ttyTX0
dname=dtyTX0
rm -f $name$unit $dname$unit
mknod $name$unit c %txcom_chr% $(($unit + $dialin ))
mknod $dname$unit c %txcom_chr% $(($unit + $dialout))
chown uucp $name$unit $dname$unit
;;
adb)
rm -f adb
mknod adb c %aed_chr% 0
chmod 666 adb
;;
asc*)
unit=${i#asc}
rm -f asc$unit
mknod asc$unit c %asc_chr% $unit
chmod 666 asc$unit
;;
bwtwo*)
unit=${i#bwtwo}
rm -f bwtwo$unit
mknod bwtwo$unit c %bwtwo_chr% $unit
chmod 666 bwtwo$unit
;;
cgtwo*)
unit=${i#cgtwo}
rm -f cgtwo$unit
mknod cgtwo$unit c %cgtwo_chr% $unit
chmod 666 cgtwo$unit
;;
cgthree*)
unit=${i#cgthree}
rm -f cgthree$unit
mknod cgthree$unit c %cgthree_chr% $unit
chmod 666 cgthree$unit
;;
cgfour*)
unit=${i#cgfour}
rm -f cgfour$unit
mknod cgfour$unit c %cgfour_chr% $unit
chmod 666 cgfour$unit
;;
cgsix*)
unit=${i#cgsix}
rm -f cgsix$unit
mknod cgsix$unit c %cgfix_chr% $unit
chmod 666 cgsix$unit
;;
cgeight*)
unit=${i#cgeight}
rm -f cgeight$unit
mknod cgeight$unit c %cgeight_chr% $unit
chmod 666 cgeight$unit
;;
tcx*)
unit=${i#tcx}
rm -f tcx$unit
mknod tcx$unit c %tcx_chr% $unit
chmod 666 tcx$unit
;;
xd*|xy*)
case $i in
xd*) name=xd; unit=${i#xd}; blk=%xd_blk%; chr=%xd_chr%;;
xy*) name=xy; unit=${i#xy}; blk=%xy_blk%; chr=%xy_chr%;;
esac
%MKDISK% $name $unit $blk $chr
;;
magma*)
unit=${i#magma}
if [ 0$unit -gt 3 ]
then
echo "bad unit for $i: $unit"
break
fi
rm -f tty$unit[0-9a-f] bpp$unit[01]
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
mknod tty$unit$j c %mtty_chr% $(($unit * 64 + $jn))
done
mknod bpp${unit}0 c %mbpp_chr% $(($unit * 64 + 0))
mknod bpp${unit}1 c %mbpp_chr% $(($unit * 64 + 1))
;;
clcd*)
unit=${i#clcd}
if [ 0$unit -gt 7 ]
then
echo "bad unit for $i: $unit"
break
fi
rm -f ttyA$unit[0-7] dtyA$unit[0-7]
for j in 0 1 2 3 4 5 6 7
do
mknod ttyA$unit$j c %clcd_chr% $(($unit * 8 + $j + $dialin))
mknod dtyA$unit$j c %clcd_chr% $(($unit * 8 + $j + $dialout))
done
chown uucp ttyA$unit[0-9a-f] dtyA$unit[0-9a-f]
;;
bpp*)
unit=${i#bpp}
rm -f bpp$unit
mknod bpp$unit c %bpp_chr% $(($unit + 0))
chmod 600 bpp$unit
;;
tctrl*)
unit=${i#tctrl}
rm -f tctrl$unit
mknod tctrl$unit c %tctrl_chr% $unit
chmod 666 tctrl$unit
;;
bmd*)
unit=${i#bmd}; blk=%bmd_blk%; chr=%bmd_chr%
rm -f bmd${unit}? rbmd${unit}?
mknod bmd${unit}a b $blk $(($unit * 8 + 0))
mknod bmd${unit}c b $blk $(($unit * 8 + 2))
mknod rbmd${unit}a c $chr $(($unit * 8 + 0))
mknod rbmd${unit}c c $chr $(($unit * 8 + 2))
chgrp operator bmd${unit}? rbmd${unit}?
chmod 640 bmd${unit}? rbmd${unit}?
;;
sram)
rm -f sram
mknod sram c %sram_chr% 0
chmod 644 sram
;;
pow*)
unit=${i#pow}
rm -f pow${unit}
case $unit in
0|1)
mknod pow${unit} c %pow_chr% ${unit}
chmod 644 pow${unit}
if [ $unit = 0 ]
then
ln -fs pow${unit} pow
fi
;;
*)
echo bad unit for pow in: $i
;;
esac
;;
ttyS*)
unit=${i#ttyS}
rm -f ttyS$unit dtyS$unit
mknod ttyS$unit c %sacom_chr% $(($unit + $dialin ))
mknod dtyS$unit c %sacom_chr% $(($unit + $dialout))
chown uucp ttyS$unit dtyS$unit
;;
midevend)
%MI_DEVICES_END%
local)
if [ -f "$0.local" ]; then
umask 0
sh $0.local all
umask 077
fi
;;
*)
echo $i: unknown device
;;
esac
done
}
# three variants of disk partitions - max 8, max 16, max 16 with highpartoffset
# hack; only the one used by port is retained in final MAKEDEV script
# routine is called as:
# makedisk name unit blk chr
makedisk_p8() {
name="$1"; unit="$2"; blk="$3"; chr="$4"
rm -f $name$unit? r$name$unit?
mknod ${name}${unit}a b $blk $(($unit * 8 + 0))
mknod ${name}${unit}b b $blk $(($unit * 8 + 1))
mknod ${name}${unit}c b $blk $(($unit * 8 + 2))
mknod ${name}${unit}d b $blk $(($unit * 8 + 3))
mknod ${name}${unit}e b $blk $(($unit * 8 + 4))
mknod ${name}${unit}f b $blk $(($unit * 8 + 5))
mknod ${name}${unit}g b $blk $(($unit * 8 + 6))
mknod ${name}${unit}h b $blk $(($unit * 8 + 7))
mknod r${name}${unit}a c $chr $(($unit * 8 + 0))
mknod r${name}${unit}b c $chr $(($unit * 8 + 1))
mknod r${name}${unit}c c $chr $(($unit * 8 + 2))
mknod r${name}${unit}d c $chr $(($unit * 8 + 3))
mknod r${name}${unit}e c $chr $(($unit * 8 + 4))
mknod r${name}${unit}f c $chr $(($unit * 8 + 5))
mknod r${name}${unit}g c $chr $(($unit * 8 + 6))
mknod r${name}${unit}h c $chr $(($unit * 8 + 7))
chgrp operator $name$unit? r$name$unit?
chmod 640 $name$unit? r$name$unit?
}
makedisk_p16() {
name="$1"; unit="$2"; blk="$3"; chr="$4"
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?
}
makedisk_p16high() {
highpartoffset=524280 # offset for partition 9 to 16
name="$1"; unit="$2"; blk="$3"; chr="$4"
rm -f $name$unit? r$name$unit?
mknod ${name}${unit}a b $blk $(($unit * 8 + 0))
mknod ${name}${unit}b b $blk $(($unit * 8 + 1))
mknod ${name}${unit}c b $blk $(($unit * 8 + 2))
mknod ${name}${unit}d b $blk $(($unit * 8 + 3))
mknod ${name}${unit}e b $blk $(($unit * 8 + 4))
mknod ${name}${unit}f b $blk $(($unit * 8 + 5))
mknod ${name}${unit}g b $blk $(($unit * 8 + 6))
mknod ${name}${unit}h b $blk $(($unit * 8 + 7))
mknod ${name}${unit}i b $blk $(($unit * 8 + $highpartoffset + 8))
mknod ${name}${unit}j b $blk $(($unit * 8 + $highpartoffset + 9))
mknod ${name}${unit}k b $blk $(($unit * 8 + $highpartoffset + 10))
mknod ${name}${unit}l b $blk $(($unit * 8 + $highpartoffset + 11))
mknod ${name}${unit}m b $blk $(($unit * 8 + $highpartoffset + 12))
mknod ${name}${unit}n b $blk $(($unit * 8 + $highpartoffset + 13))
mknod ${name}${unit}o b $blk $(($unit * 8 + $highpartoffset + 14))
mknod ${name}${unit}p b $blk $(($unit * 8 + $highpartoffset + 15))
mknod r${name}${unit}a c $chr $(($unit * 8 + 0))
mknod r${name}${unit}b c $chr $(($unit * 8 + 1))
mknod r${name}${unit}c c $chr $(($unit * 8 + 2))
mknod r${name}${unit}d c $chr $(($unit * 8 + 3))
mknod r${name}${unit}e c $chr $(($unit * 8 + 4))
mknod r${name}${unit}f c $chr $(($unit * 8 + 5))
mknod r${name}${unit}g c $chr $(($unit * 8 + 6))
mknod r${name}${unit}h c $chr $(($unit * 8 + 7))
mknod r${name}${unit}i c $chr $(($unit * 8 + $highpartoffset + 8))
mknod r${name}${unit}j c $chr $(($unit * 8 + $highpartoffset + 9))
mknod r${name}${unit}k c $chr $(($unit * 8 + $highpartoffset + 10))
mknod r${name}${unit}l c $chr $(($unit * 8 + $highpartoffset + 11))
mknod r${name}${unit}m c $chr $(($unit * 8 + $highpartoffset + 12))
mknod r${name}${unit}n c $chr $(($unit * 8 + $highpartoffset + 13))
mknod r${name}${unit}o c $chr $(($unit * 8 + $highpartoffset + 14))
mknod r${name}${unit}p c $chr $(($unit * 8 + $highpartoffset + 15))
chgrp operator $name$unit? r$name$unit?
chmod 640 $name$unit? r$name$unit?
}
makedev $*