nixpkgs/modules/system/boot/stage-1-init.sh

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#! @shell@
targetRoot=/mnt-root
export LD_LIBRARY_PATH=@extraUtils@/lib
export PATH=@extraUtils@/bin
fail() {
if [ -n "$panicOnFail" ]; then exit 1; fi
# If starting stage 2 failed, allow the user to repair the problem
# in an interactive shell.
cat <<EOF
An error occured in stage 1 of the boot process, which must mount the
root filesystem on \`$targetRoot' and then start stage 2. Press one
of the following keys:
i) to launch an interactive shell;
f) to start an interactive shell having pid 1 (needed if you want to
start stage 2's init manually); or
*) to ignore the error and continue.
EOF
read reply
case $reply in
f)
exec @shell@;;
i)
echo "Starting interactive shell..."
@shell@ || fail
;;
*)
echo "Continuing...";;
esac
}
trap 'fail' ERR
# Print a greeting.
echo
echo "<<< NixOS Stage 1 >>>"
echo
# Mount special file systems.
mkdir -p /etc # to shut up mount
echo -n > /etc/fstab # idem
mkdir -p /proc
mount -t proc none /proc
mkdir -p /sys
mount -t sysfs none /sys
mount -t tmpfs -o "mode=0755,size=@devSize@" none /dev
mkdir -p /run
mount -t tmpfs -o "mode=0755,size=@runSize@" none /run
# Process the kernel command line.
export stage2Init=/init
for o in $(cat /proc/cmdline); do
case $o in
init=*)
set -- $(IFS==; echo $o)
stage2Init=$2
;;
debugtrace)
# Show each command.
set -x
;;
debug1) # stop right away
fail
;;
debug1devices) # stop after loading modules and creating device nodes
debug1devices=1
;;
debug1mounts) # stop after mounting file systems
debug1mounts=1
;;
stage1panic=1)
panicOnFail=1
;;
root=*)
# If a root device is specified on the kernel command
# line, make it available through the symlink /dev/root.
# Recognise LABEL= and UUID= to support UNetbootin.
set -- $(IFS==; echo $o)
if [ $2 = "LABEL" ]; then
root="/dev/disk/by-label/$3"
elif [ $2 = "UUID" ]; then
root="/dev/disk/by-uuid/$3"
else
root=$2
fi
ln -s "$root" /dev/root
;;
esac
done
# Load the required kernel modules.
echo @extraUtils@/bin/modprobe > /proc/sys/kernel/modprobe
for i in @kernelModules@; do
echo "loading module $(basename $i)..."
modprobe $i || true
done
# Create /dev/null.
mknod /dev/null c 1 3
# Create device nodes in /dev.
echo "running udev..."
export UDEV_CONFIG_FILE=@udevConf@
mkdir -p /dev/.udev # !!! bug in udev?
mkdir -p /dev/.mdadm
udevd --daemon
udevadm control --env=STARTUP=1
udevadm trigger --action=add
udevadm settle
udevadm control --env=STARTUP=
echo "starting device mapper and LVM..."
lvm vgscan
lvm vgchange -ay
if test -n "$debug1devices"; then fail; fi
@postDeviceCommands@
# Try to resume - all modules are loaded now, and devices exist
if test -e /sys/power/tuxonice/resume; then
if test -n "$(cat /sys/power/tuxonice/resume)"; then
echo 0 > /sys/power/tuxonice/user_interface/enabled
echo 1 > /sys/power/tuxonice/do_resume || echo "failed to resume..."
fi
fi
if test -e /sys/power/resume -a -e /sys/power/disk; then
echo "@resumeDevice@" > /sys/power/resume 2> /dev/null || echo "failed to resume..."
echo shutdown > /sys/power/disk
fi
# Return true if the machine is on AC power, or if we can't determine
# whether it's on AC power.
onACPower() {
! test -d "/proc/acpi/battery" ||
! ls /proc/acpi/battery/BAT[0-9]* > /dev/null 2>&1 ||
! cat /proc/acpi/battery/BAT*/state | grep "^charging state" | grep -q "discharg"
}
# Check the specified file system, if appropriate.
checkFS() {
# Only check block devices.
if ! test -b "$device"; then return 0; fi
FSTYPE=$(blkid -o value -s TYPE "$device" || true)
# Don't check ROM filesystems.
if test "$FSTYPE" = iso9660 -o "$FSTYPE" = udf; then return 0; fi
# Optionally, skip fsck on journaling filesystems. This option is
# a hack - it's mostly because e2fsck on ext3 takes much longer to
# recover the journal than the ext3 implementation in the kernel
# does (minutes versus seconds).
if test -z "@checkJournalingFS@" -a \
\( "$FSTYPE" = ext3 -o "$FSTYPE" = ext4 -o "$FSTYPE" = reiserfs \
-o "$FSTYPE" = xfs -o "$FSTYPE" = jfs \)
then
return 0
fi
# Don't run `fsck' if the machine is on battery power. !!! Is
# this a good idea?
if ! onACPower; then
echo "on battery power, so no \`fsck' will be performed on \`$device'"
return 0
fi
FSTAB_FILE="/etc/mtab" fsck -V -C -a "$device"
fsckResult=$?
if test $(($fsckResult | 2)) = $fsckResult; then
echo "fsck finished, rebooting..."
sleep 3
reboot
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
return 0
}
# Function for mounting a file system.
mountFS() {
local device="$1"
local mountPoint="$2"
local options="$3"
local fsType="$4"
checkFS "$device"
mkdir -p "/mnt-root$mountPoint" || true
# For CIFS mounts, retry a few times before giving up.
local n=0
while true; do
if [ "$fsType" = "nfs" ]; then
nfsmount "$device" "/mnt-root$mountPoint" && break
else
mount -t "$fsType" -o "$options" "$device" "/mnt-root$mountPoint" && break
fi
if [ "$fsType" != cifs -o "$n" -ge 10 ]; then fail; break; fi
echo "retrying..."
n=$((n + 1))
done
}
# Try to find and mount the root device.
mkdir /mnt-root
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 starts with / but doesn't start with /dev
# is a bind mount.
pseudoDevice=
case $device in
/dev/*)
;;
//*)
# Don't touch SMB/CIFS paths.
pseudoDevice=1
;;
/*)
device=/mnt-root$device
;;
*)
# Not an absolute path; assume that it's a pseudo-device
# like an NFS path (e.g. "server:/path").
pseudoDevice=1
;;
esac
# USB storage devices tend to appear with some delay. It would be
# great if we had a way to synchronously wait for them, but
# alas... So just wait for a few seconds for the device to
# appear. If it doesn't appear, try to mount it anyway (and
# probably fail). This is a fallback for non-device "devices"
# that we don't properly recognise.
if test -z "$pseudoDevice" -a ! -e $device; then
echo -n "waiting for device $device to appear..."
for ((try = 0; try < 10; try++)); do
sleep 1
if test -e $device; then break; fi
echo -n "."
done
echo
fi
echo "mounting $device on $mountPoint..."
mountFS "$device" "$mountPoint" "$options" "$fsType"
done
@postMountCommands@
# Stop udevd.
udevadm control --exit
# Kill any remaining processes, just to be sure we're not taking any
# with us into stage 2.
kill -9 -- -1
if test -n "$debug1mounts"; then fail; fi
# Restore /proc/sys/kernel/modprobe to its original value.
echo /sbin/modprobe > /proc/sys/kernel/modprobe
# Start stage 2. `switch_root' deletes all files in the ramfs on the
# current root. It also moves the /proc, /sys and /dev mounts over to
# the new root. Note that $stage2Init might be an absolute symlink,
# in which case "-e" won't work because we're not in the chroot yet.
if ! test -e "$targetRoot/$stage2Init" -o -L "$targetRoot/$stage2Init"; then
echo "stage 2 init script ($targetRoot/$stage2Init) not found"
fail
fi
mkdir -m 0755 -p $targetRoot/proc $targetRoot/sys $targetRoot/dev $targetRoot/run
# `switch_root' doesn't move /run yet, so we have to do it ourselves.
mount --bind /run $targetRoot/run
exec switch_root "$targetRoot" "$stage2Init"
fail # should never be reached