OpenBSD на рабочей станции: различия между версиями
Ssh (обсуждение | вклад) |
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<pre># rc.conf.local | <pre># rc.conf.local | ||
apmd_flags=""</pre> | apmd_flags=""</pre> | ||
| + | |||
| + | Для релизов 5.6 и выше, управление сервисами осуществляется посредством утилиты [http://www.openbsd.org/cgi-bin/man.cgi/OpenBSD-current/man8/rcctl.8?query=rcctl rcctl(8)]. | ||
| + | <pre># rcctl getall | grep apmd_flags | ||
| + | apmd_flags=NO | ||
| + | # rcctl enable apmd | ||
| + | # rcctl getall | grep apmd_flags | ||
| + | apmd_flags=</pre> | ||
== X Configuration: .xinitrc == | == X Configuration: .xinitrc == | ||
Версия 08:43, 11 марта 2015
Вольный перевод статьи Eric Radman An OpenBSD Workstation.
Power Button Shutdown
This nifty option in /etc/sysctl.conf can only be set before entering securelevel 1, and allows you to shut off your computer gracefully by pressing the power button.
hw.allowpowerdown=1
Больше никаких раздражающих сигналов
Одна из многих вещей, которую узнаешь прочитав Absolute OpenBSD - это как отключить раздражающий звонок (UNIX bell) в /etc/wsconsctl.conf
keyboard.bell.volume=0
Начиная с релиза 5.4 способ с wsconsctl больше не работает. Запретить звонок можно используя:
# .xinitrc xset -b
или
# rc.conf.local mixerctl inputs.spkr.mute=on
Монтирование съемных устройств пользователем
Удобно, когда можно смонтировать DVD или флеш-носитель без повышения привилегий, используя для этого членство в группе operator.
# usermod -G operator eradman # chmod g=rw /dev/cd0*
Остаётся изменить параметр ядра и можно пользоваться.
# sysctl kern.usermount=1
$ mkdir -p mount/cdrom $ mount /dev/cd0c mount/cdrom
Suspend & Resume
OpenBSD обладает очень хорошей поддержкой ACPI, подробнее в apmd(8). zzz и ZZZ быстрый способ перехода в режимы suspend и hibernate, если apmd запускается при загрузке.
# rc.conf.local apmd_flags=""
Для релизов 5.6 и выше, управление сервисами осуществляется посредством утилиты rcctl(8).
# rcctl getall | grep apmd_flags apmd_flags=NO # rcctl enable apmd # rcctl getall | grep apmd_flags apmd_flags=
X Configuration: .xinitrc
# .xinitrc
redshift -O 5600
while true; do
batt="$(sysctl -n hw.sensors.acpibat0.watthour3 | cut -f1,2 -d" ")"
xsetroot -name "$batt"
sleep 60
done &
xsetroot -solid steelblue &
exec dwm
redshift is a utility that makes designed to adjust the color temperature of your screen based on your surroundings, but it works equally as well for a manual color temperature adjustment. My IBM T60p appears cold, so I adjust the default of 6500K to 5600K.
Next I run a loop in the background that read the available battery life (Wh) and updates the window manager's display area.
Finally set the background color and start your favorite window manager.
Switch to an External Monitor
My screen at work is a bit larger then my laptop display (1400x1050 - 1650x1050), but I use a little docking script to switch to the external display.
#!/bin/sh xrandr --output LVDS --off xrandr --output VGA-0 --off xrandr --output DVI-0 --auto redshift -O 6200
Connecting to a Projector
If you started X with the VGA connected, it probably picked a resolution common to both your screen and the external display. On my T60 it can be reset like so
xrandr --output LVDS --mode 1400x1050
Use --query to find out what modes each display supports, then I set up a viewport that pans with the mouse pointer
xrandr --output VGA-0 --mode 1024x768 --panning 1400x1050
I also add some additional logic in my .xinitrc to switch to the external display automatically if X is started while connected to an external monitor:
xrandr --query | grep "DVI-0 connected" && ~/bin/docked-dvi xrandr --query | grep "VGA-0 connected" && ~/bin/docked-vga
tmux
There's only a few tweaks I make to my terminal multiplexor's configuration. I frequently run entr in a smaller pane on the bottom
bind-key C-t split-window -p 25
I don't know of a terminal color picker, but they can be printed with a shell loop.
#!/bin/ksh
for i in `jot 255`; do
printf "\033[38;5;${i}mcolour${i}\n"
done
Then I set status background and active border to bright green
set -g status-bg colour118 set -g pane-active-border-fg colour118 set -g pane-border-fg colour30
Using Disk Encryption
OpenBSD provides software RAID by way of a virual host bust adaptor called softraid0. This HBA is also used for setting up disk encryption. To set use a disklabel (in my case for sd0g /home set the partition type to RAID
$ sudo disklabel -E /dev/sd0c Label editor (enter '?' for help at any prompt) g: 55641600 100653824 RAID > m g offset: [100653824] size: [55641600] FS type: [4.2BSD] RAID
Now configure it for crypto using -c C
# bioctl -c C -l /dev/sd0g softraid0 New passphrase: My Crypto Pass Phrase Re-type passphrase: My Crypto Pass Phrase softraid0: CRYPTO volume attached as sd1
Mount it using the same command. The kernel log will show a new virtual device appear
sd1 at scsibus2 targ 1 lun 0: <OPENBSD, SR CRYPTO, 005> SCSI2 0/direct fixed sd1: 27168MB, 512 bytes/sector, 55641072 sectors
Now add a disklabel and format the encrypted volume
$ sudo disklabel -E /dev/wd0c $ sudo newfs /dev/rwd0a
Devices in OpenBSD may be mounted by device name or by disklabel UID which is a random id generated when the label is created.
$ disklabel /dev/sd1c | grep uid duid: 779d87bac3905122
It's this ID that we'll to mount the volume, in this way plugging in other drives won't confuse mount after we prompt the user for a password on boot. Adding the following to rc.local will ask for a password four times before giving up
#/etc/rc.local for attept in 1 2 3 4; do bioctl -c C -l c3e2f405c96a8e10.g softraid0 && break sleep 1 done fsck /dev/rsd1a mount -o nodev,nosuid,softdep 779d87bac3905122.a /home
If you would like to enable crypto on the entire boot volume see this post by Ted Unangst.
Reducing Password Fatique with YubiKey
Yubico makes a nice little hardware key that, among other things, can be used to generate one time passwords for user authentication. The yubikey-personalization-gui is a Qt-based program that can be used to write private keys to one of two "slots". Copy the 6-byte private identity and the 16-byte secret key without spaces to like so
echo "5c e1 e0 3e 63 a4" \
| tr -d ' ' > /var/db/yubikey/$USER.id
echo "57 e3 af 3e 9b 51 2b 10 58 7d 33 fb d9 08 ef 7b" \
| tr -d ' ' > /var/db/yubikey/$USER.key
chmod 600 /var/db/yubikey/$USER.*
Now set YubiKey as the authentication method for local logins as well as SSH.
# Default allowed authentication styles auth-defaults:auth=yubikey,passwd,skey:
Finally rebuild the login DB
cap_mkdb /etc/login.conf
To reduce typing I use the second slot on the Yubikey as a relatively secure method of enabling ssh-agent in order to connect to remote systems where my public key (RSA, DSA, ECDSA) is installed. To start use the yubikey-personalization-gui to generate a random key, then set slot 2 to challange-response mode with this key
hexkey=$(echo "dd b6 68 81 c9 73 f9 64 84 21 7e f0 69 e8 2c 28 1b 6c ad e2" | tr -d ' ') ykpersonalize -2 -ochal-resp -ochal-hmac -ohmac-lt64 -a $hexkey
Next I create new ssh keys (ssh-keygen) using part of the reply from ykchalresp. I installed script script as bin/ykauth
#!/bin/sh ykchalresp -2 "$(whoami)@$(hostname)" | cut -c 1-15
Finally add this bit of logic to .profile to automatically activate these keys when I log in
ssh-add -l > /dev/null 2>&1 || {
eval `ssh-agent`
DISPLAY='' SSH_ASKPASS='/home/eradman/bin/ykauth' ssh-add < /dev/null
exec ksh
}
Run -current on a Second Drive
Setting up a new disk in a way that OpenBSD expects is not very difficult, simply run fdisk's reinit
$ sudo fdisk -e wd0
Enter 'help' for information
fdisk: 1> p
Disk: wd0 geometry: 4133/240/63 [62500000 Sectors]
Offset: 0 Signature: 0xAA55
Starting Ending LBA Info:
#: id C H S - C H S [ start: size ]
-------------------------------------------------------------------------------
*0: 83 0 32 33 - 3959 46 62 [ 2048: 59860992 ] Linux files*
1: 05 3959 79 30 - 4133 124 44 [ 59865086: 2633730 ] Extended DOS
2: 00 0 0 0 - 0 0 0 [ 0: 0 ] unused
3: 00 0 0 0 - 0 0 0 [ 0: 0 ] unused
fdisk: 1> reinit
In memory copy is initialized to:
Offset: 0 Signature: 0xAA55
Starting Ending LBA Info:
#: id C H S - C H S [ start: size ]
-------------------------------------------------------------------------------
0: 00 0 0 0 - 0 0 0 [ 0: 0 ] unused
1: 00 0 0 0 - 0 0 0 [ 0: 0 ] unused
2: 00 0 0 0 - 0 0 0 [ 0: 0 ] unused
*3: A6 0 1 2 - 4132 239 63 [ 64: 62490896 ] OpenBSD
Use 'write' to update disk.
fdisk:*1> write
Writing MBR at offset 0.
Now Create a disk label on the second drive (wd0) based on the disklabel from the first drive (sd0)
$ sudo disklabel wd0 # /dev/rwd0c: type: SCSI disk: SCSI disk label: HTS721010G9SA00 duid: 0dc2584c60057522 flags: bytes/sector: 512 sectors/track: 63 tracks/cylinder: 255 sectors/cylinder: 16065 cylinders: 12161 total sectors: 195371568 boundstart: 64 boundend: 62490960 drivedata: 0 16 partitions: # size offset fstype [fsize bsize cpg] a: 2104448 64 4.2BSD 2048 16384 1 b: 2506143 2104512 swap c: 195371568 0 unused d: 4209024 4610656 4.2BSD 2048 16384 1 e: 8385920 8819680 4.2BSD 2048 16384 1 f: 45285344 17205600 4.2BSD 2048 16384 1
This roughly mirrors the layout I'm using on my first disk running -stable
$ df -h Filesystem Size Used Avail Capacity Mounted on /dev/sd0a 1003M 49.7M 903M 5% / /dev/sd0d 2.0G 14.0K 1.9G 0% /tmp /dev/sd0e 3.9G 19.6M 3.7G 1% /var /dev/sd0f 44.2G 2.3G 39.8G 5% /usr /dev/sd0i 39.4G 26.3G 11.0G 70% /home
Create new file systems and then clone the existing install with dump/restore
newfs /dev/rwd0a newfs /dev/rwd0d newfs /dev/rwd0e newfs /dev/rwd0f mkdir -p /mnt/drive2 mount /dev/wd0a /mnt/drive2 cd /mnt/drive2 && dump -0 -f - / | restore -r -f - mount /dev/wd0e /mnt/drive2/var cd /mnt/drive2/var && dump -0 -f - /var | restore -r -f - mount /dev/wd0f /mnt/drive2/usr cd /mnt/drive2/usr && dump -0 -f - /usr | restore -r -f -
You can install a bootloader like so
# /usr/mdec/installboot -v /mnt/drive2/boot /usr/mdec/biosboot wd0
fs block shift 2; part offset 64; inode block 64, offset 680
master boot record (MBR) at sector 0
partition 3: type 0xA6 offset 64 size 62490896
/boot will be written at sector 64
After rebooting make sure /tmp has the right permissions
chmod 1777 /mnt/drive2/tmp
The only changes left are to mount the new drive and change change sd0 to wd0 in /etc/fstab.
From here refer to Following -current on the OpenBSD FAQ. Performance Tuning
There is no documentation on improving the responsiveness of an OpenBSD desktop. These are the tweaks I make. First I allow applications to consume more RAM
# /etc/login.conf
staff:\
:datasize-cur=2048M:\
:datasize-max=2048M:\
:datasize=2048M:\
:openfiles-cur=1024:\
:stacksize-cur=16M:\
Add the noatime option to mount points
c3e2f405c96a8e10.a / ffs rw,noatime 1 1 c3e2f405c96a8e10.d /tmp ffs rw,softdep 1 2 c3e2f405c96a8e10.f /usr ffs rw,nodev,noatime 1 2 # ...
If you know of other strategies for tuning desktop performance. please send me what you know.