nixpkgs-suyu/boot/boot-stage-1-init.sh

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#! @staticShell@
fail() {
# If starting stage 2 failed, start an interactive shell.
echo "Stage 2 failed, starting emergency shell..."
echo "(Stage 1 init script is $stage2Init)"
exec @staticShell@
}
# Print a greeting.
echo
echo "<<< NixOS Stage 1 >>>"
echo
# Set the PATH.
export PATH=/empty
for i in @path@; do
PATH=$PATH:$i/bin
if test -e $i/sbin; then
PATH=$PATH:$i/sbin
fi
done
# Mount special file systems.
mkdir -p /etc # to shut up mount
touch /etc/fstab # idem
mkdir -p /proc
mount -t proc none /proc
mkdir -p /sys
mount -t sysfs none /sys
# Process the kernel command line.
stage2Init=@stage2Init@
for o in $(cat /proc/cmdline); do
case $o in
init=*)
set -- $(IFS==; echo $o)
stage2Init=$2
;;
debugtrace)
# Show each command.
set -x
;;
debug1)
fail
;;
esac
done
# Load some kernel modules.
export MODULE_DIR=@modulesDir@/lib/modules/
for i in @modules@; do
modprobe $i
done
# Create device nodes in /dev.
mknod -m 0666 /dev/null c 1 3
export UDEV_CONFIG_FILE=/udev.conf
echo 'udev_rules="/no-rules"' > $UDEV_CONFIG_FILE
udevd --daemon
udevtrigger
udevsettle
# Function for mounting a file system.
mountFS() {
local device="$1"
local mountPoint="$2"
local options="$3"
# Check the root device, if .
mustCheck=
if test -b "$device"; then
mustCheck=1
else
case $device in
LABEL=*)
mustCheck=1
;;
esac
fi
if test -n "$mustCheck"; then
fsck -C -a "$device"
fsckResult=$?
if test $(($fsckResult | 2)) = $fsckResult; then
echo "fsck finished, rebooting..."
sleep 3
# reboot -f -d !!! don't have reboot yet
fail
fi
if test $(($fsckResult | 4)) = $fsckResult; then
echo "$device has unrepaired errors, please fix them manually."
fail
fi
if test $fsckResult -ge 8; then
echo "fsck on $device failed."
fail
fi
fi
# Mount read-writable.
mount -n -o "$options" "$device" /mnt/root$mountPoint || fail
}
# Try to find and mount the root device.
mkdir /mnt
mkdir /mnt/root
echo "mounting the root device.... (fix: sleeping 5 seconds to wait for upcoming usb drivers)"
sleep 5
if test -n "@autoDetectRootDevice@"; then
# Look for the root device by label.
echo "probing for the NixOS installation CD..."
for i in /sys/block/*; do
if test "$(cat $i/removable)" = "1"; then
echo " in $(basename $i)..."
set -- $(IFS=: ; echo $(cat $i/dev))
major="$1"
minor="$2"
# Create a device node for this device.
rm -f /dev/tmpdev
mknod /dev/tmpdev b "$major" "$minor"
if mount -n -o ro -t iso9660 /dev/tmpdev /mnt/root; then
if test -e "/mnt/root/@rootLabel@"; then
found=1
break
fi
umount /mnt/root
fi
fi
done
if test -z "$found"; then
echo "CD not found!"
fail
fi
else
# Hard-coded root device(s).
mountPoints=(@mountPoints@)
devices=(@devices@)
fsTypes=(@fsTypes@)
optionss=(@optionss@)
for ((n = 0; n < ${#mountPoints[*]}; n++)); do
mountPoint=${mountPoints[$n]}
device=${devices[$n]}
fsType=${fsTypes[$n]}
options=${optionss[$n]}
# !!! Really quick hack to support bind mounts, i.e., where
# the "device" should be taken relative to /mnt/root, not /.
# Assume that every device that doesn't start with /dev or
# LABEL= is a bind mount.
case $device in
/dev/*)
;;
LABEL=*)
;;
*)
device=/mnt/root$device
;;
esac
echo "mounting $device on $mountPoint..."
mountFS "$device" "$mountPoint" "$options"
done
fi
# Start stage 2.
# !!! Note: we can't use pivot_root here (the kernel gods have
# decreed), but we could use run-init from klibc, which deletes all
# files in the initramfs, remounts the target root on /, and chroots.
cd /mnt/root
mount --move . /
umount /proc # cleanup
umount /sys
if test -z "$stage2Init"; then fail; fi
exec chroot . $stage2Init
fail