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nixpkgs/modules/services/hardware/udev.nix
Eelco Dolstra 3c6ae39a0d * Refactoring: moved some options out of system/options.nix (almost 
empty now), do more of bashrc.sh declaratively, and moved nsswitch
  generation to modules/config/nsswitch.nix.

svn path=/nixos/branches/modular-nixos/; revision=15754
2009-05-27 23:14:38 +00:00

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{pkgs, config, ...}:
###### interface
let
inherit (pkgs.lib) mkOption mkIf;
options = {
boot.hardwareScan = mkOption {
default = true;
description = "
Whether to try to load kernel modules for all detected hardware.
Usually this does a good job of providing you with the modules
you need, but sometimes it can crash the system or cause other
nasty effects. If the hardware scan is turned on, it can be
disabled at boot time by adding the <literal>safemode</literal>
parameter to the kernel command line.
";
};
services = {
udev = {
addFirmware = mkOption {
default = [];
example = ["/mnt/big-storage/firmware/"];
description = "
To specify firmware that is not too spread to ensure
a package, or have an interactive process of extraction
and cannot be redistributed.
";
merge = pkgs.lib.mergeListOption;
};
addUdevPkgs = mkOption {
default = [];
description = "
List of packages containing udev rules. All files found in $out/*/udev/rules.d/*.rules will be recognized
";
merge = pkgs.lib.mergeListOption;
};
extraRules = mkOption {
default = "";
example = ''
KERNEL=="eth*", ATTR{address}=="00:1D:60:B9:6D:4F", NAME="my_fast_network_card"
'';
description = "
Add custom rules. They'll be written into file 10-local.rules.
Thus they are read before all other rules.
";
};
sndMode = mkOption {
default = "0600";
example = "0666";
description = "
Permissions for /dev/snd/*, in case you have multiple
logged in users or if the devices belong to root for
some reason.
";
};
};
};
};
in
###### implementation
let
inherit (pkgs) substituteAll stdenv writeText udev procps;
cfg = config.services.udev;
firmwareLoader = substituteAll {
src = ./udev-firmware-loader.sh;
path = "${stdenv.coreutils}/bin";
isExecutable = true;
inherit firmwareDirs;
};
firmwareDirs = config.services.udev.addFirmware;
extraUdevPkgs = config.services.udev.addUdevPkgs
++ pkgs.lib.optional (cfg.extraRules != "")
(pkgs.writeTextFile {
name = "extra-udev-rules";
text = cfg.extraRules;
destination = "/custom/udev/rules.d/10-local.rules";
});
modprobe = config.system.sbin.modprobe;
nixRules = writeText "90-nix.rules" ''
# Miscellaneous devices.
KERNEL=="sonypi", MODE="0666"
KERNEL=="kvm", MODE="0666"
KERNEL=="kqemu", NAME="%k", MODE="0666"
KERNEL=="vboxdrv", NAME="vboxdrv", OWNER="root", GROUP="root", MODE="0666"
# Create symlinks for CD/DVD devices.
ACTION=="add", SUBSYSTEM=="block", ENV{ID_CDROM}=="?*", SYMLINK+="cdrom cdrom-%k"
ACTION=="add", SUBSYSTEM=="block", ENV{ID_CDROM_CD_RW}=="?*", SYMLINK+="cdrw cdrw-%k"
ACTION=="add", SUBSYSTEM=="block", ENV{ID_CDROM_DVD}=="?*", SYMLINK+="dvd dvd-%k"
ACTION=="add", SUBSYSTEM=="block", ENV{ID_CDROM_DVD_RW}=="?*", SYMLINK+="dvdrw dvdrw-%k"
# ALSA sound devices.
KERNEL=="controlC[0-9]*", NAME="snd/%k", MODE="${cfg.sndMode}"
KERNEL=="hwC[D0-9]*", NAME="snd/%k", MODE="${cfg.sndMode}"
KERNEL=="pcmC[D0-9cp]*", NAME="snd/%k", MODE="${cfg.sndMode}"
KERNEL=="midiC[D0-9]*", NAME="snd/%k", MODE="${cfg.sndMode}"
KERNEL=="timer", NAME="snd/%k", MODE="${cfg.sndMode}"
KERNEL=="seq", NAME="snd/%k", MODE="${cfg.sndMode}"
# Firmware loading.
SUBSYSTEM=="firmware", ACTION=="add", RUN+="${firmwareLoader}"
'';
# Perform substitutions in all udev rules files.
udevRules = stdenv.mkDerivation {
name = "udev-rules";
#src = cleanSource ./udev-rules;
buildCommand = ''
ensureDir $out
ln -s ${nixRules} $out/${nixRules.name}
shopt -s nullglob
cp ${udev}/*/udev/rules.d/*.rules $out/
${if config.boot.hardwareScan then
''
substituteInPlace $out/80-drivers.rules \
--replace /sbin/modprobe ${modprobe}/sbin/modprobe
''
else
''
rm $out/80-drivers.rules
''
}
for i in ${toString extraUdevPkgs}; do
for j in $i/*/udev/rules.d/*; do
ln -s $j $out/$(basename $j)
done
done
''; # */
};
# The udev configuration file.
conf = writeText "udev.conf" ''
udev_rules="${udevRules}"
#udev_log="debug"
'';
# Dummy file indicating whether we've run udevtrigger/udevsettle.
# Since that *recreates* all device nodes with default permissions,
# it's not nice to do that when a user is logged in (it messes up
# the permissions set by pam_devperm).
# !!! Actually, this makes the udev configuration less declarative;
# changes may not take effect until the user reboots. We should
# find a better way to preserve the permissions of logged-in users.
devicesCreated = "/var/run/devices-created";
in
{
require = [
options
];
services = {
extraJobs = [{
name = "udev";
job = ''
start on startup
stop on shutdown
env UDEV_CONFIG_FILE=${conf}
start script
echo "" > /proc/sys/kernel/hotplug
# Get rid of possible old udev processes.
${procps}/bin/pkill -u root "^udevd$" || true
# Do the loading of additional stage 2 kernel modules.
# Maybe this isn't the best place...
for i in ${toString config.boot.kernelModules}; do
echo "Loading kernel module $i..."
${modprobe}/sbin/modprobe $i || true
done
# Start udev.
${udev}/sbin/udevd --daemon
# Let udev create device nodes for all modules that have already
# been loaded into the kernel (or for which support is built into
# the kernel).
if ! test -e ${devicesCreated}; then
${udev}/sbin/udevadm trigger
${udev}/sbin/udevadm settle # wait for udev to finish
touch ${devicesCreated}
fi
# Kill udev, let Upstart restart and monitor it. (This is nasty,
# but we have to run `udevadm trigger' first. Maybe we can use
# Upstart's `binary' keyword, but it isn't implemented yet.)
if ! ${procps}/bin/pkill -u root "^udevd$"; then
echo "couldn't stop udevd"
fi
while ${procps}/bin/pgrep -u root "^udevd$"; do
sleep 1
done
initctl emit new-devices
end script
respawn ${udev}/sbin/udevd
'';
passthru = {inherit udevRules;};
}];
};
}
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