qubes-installer-qubes-os/anaconda/dracut/anaconda-lib.sh

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#!/bin/bash
command -v unpack_img >/dev/null || . /lib/img-lib.sh
# config_get SECTION KEY < FILE
# read an .ini-style config file, find the KEY in the given SECTION, and return
# the value provided for that key.
# ex: product=$(config_get Main Product < /.buildstamp)
config_get() {
local section="$1" key="$2" cursec="" k="" v=""
while read line; do
case "$line" in
\#*) continue ;;
\[*\]*) cursec="${line#[}"; cursec="${cursec%%]*}" ;;
*=*) k=$(echo ${line%%=*}); v=$(echo ${line#*=}) ;;
esac
if [ "$cursec" = "$section" ] && [ "$k" == "$key" ]; then
echo $v
break
fi
done
}
find_iso() {
local f="" p="" iso="" isodir="$1" tmpmnt=$(mkuniqdir /run/install tmpmnt)
for f in $isodir/*.iso; do
[ -e $f ] || continue
mount -o loop,ro $f $tmpmnt || continue
# Valid ISOs either have stage2 in one of the supported paths
# or have a .treeinfo that might tell use where to find the stage2 image.
# If it does not have any of those, it is not valid and will not be used.
for p in $tmpmnt/LiveOS/squashfs.img $tmpmnt/images/install.img $tmpmnt/.treeinfo; do
if [ -e $p ]; then iso=$f; break; fi
done
umount $tmpmnt
if [ "$iso" ]; then echo "$iso"; return 0; fi
done
return 1
}
find_runtime() {
[ -f "$1" ] && [ "${1%.iso}" == "$1" ] && echo "$1" && return
local ti_img="" dir="$1"
[ -e $dir/.treeinfo ] && \
ti_img=$(config_get stage2 mainimage < $dir/.treeinfo)
for f in $ti_img images/install.img LiveOS/squashfs.img; do
[ -e "$dir/$f" ] && echo "$dir/$f" && return
done
}
find_tty() {
# find the real tty for /dev/console
local tty="console"
while [ -f /sys/class/tty/$tty/active ]; do
tty=$(< /sys/class/tty/$tty/active)
tty=${tty##* } # last item in the list
done
echo $tty
}
repodir="/run/install/repo"
isodir="/run/install/isodir"
rulesfile="/etc/udev/rules.d/90-anaconda.rules"
# try to find a usable runtime image from the repo mounted at $mnt.
# if successful, move the mount(s) to $repodir/$isodir.
anaconda_live_root_dir() {
local img="" iso="" srcdir="" mnt="$1" path="$2"; shift 2
img=$(find_runtime $mnt/$path)
if [ -n "$img" ]; then
info "anaconda: found $img"
[ "$mnt" = "$repodir" ] || { mount --make-rprivate /; mount --move $mnt $isodir; }
anaconda_auto_updates $repodir/$path/images
else
if [ "${path%.iso}" != "$path" ]; then
iso=$path
path=${path%/*.iso}
else
iso=$(find_iso $mnt/$path)
fi
[ -n "$iso" ] || { warn "no suitable images"; return 1; }
info "anaconda: found $iso"
mount --make-rprivate /
mount --move $mnt $isodir
iso=${isodir}/${iso#$mnt}
mount -o loop,ro $iso $repodir
img=$(find_runtime $repodir) || { warn "$iso has no suitable runtime"; }
anaconda_auto_updates $isodir/$path/images
fi
# FIXME: make rd.live.ram clever enough to do this for us
if [ "$1" = "--copy-to-ram" ]; then
echo "Copying installer image to RAM..."
echo "(this may take a few minutes)"
cp $img /run/install/install.img
img=/run/install/install.img
umount $repodir
[ -n "$iso" ] && umount $isodir
fi
[ -e "$img" ] && /sbin/dmsquash-live-root $img
}
# find updates.img/product.img/RHUpdates and unpack/copy them so they'll
# end up in the location(s) that anaconda expects them
anaconda_auto_updates() {
local dir="$1"
if [ -d $dir/RHupdates ]; then
copytree $dir/RHupdates /updates
fi
if [ -e $dir/updates.img ]; then
unpack_updates_img $dir/updates.img /updates
fi
if [ -e $dir/product.img ]; then
unpack_updates_img $dir/product.img /updates
fi
}
# Unpack an image into the given dir.
unpack_updates_img() {
local img="$1" tmpdir="/tmp/${1##*/}.$$" outdir="${2:-/updates}"
# NOTE: unpack_img $img $outdir can clobber existing subdirs in $outdir,
# which is why we use a tmpdir and copytree (which doesn't clobber)
unpack_img $img $tmpdir
copytree $tmpdir $outdir
rm -rf $tmpdir
}
# These could probably be in dracut-lib or similar
copytree() {
local src="$1" dest="$2"
mkdir -p "$dest"; dest=$(readlink -f -q "$dest")
( cd "$src"; cp -a . -t "$dest" )
}
disk_to_dev_path() {
case "$1" in
CDLABEL=*|LABEL=*) echo "/dev/disk/by-label/${1#*LABEL=}" ;;
UUID=*) echo "/dev/disk/by-uuid/${1#UUID=}" ;;
/dev/*) echo "$1" ;;
*) echo "/dev/$1" ;;
esac
}
find_mount() {
local dev mnt etc wanted_dev="$(readlink -e -q $1)"
while read dev mnt etc; do
[ "$dev" = "$wanted_dev" ] && echo $mnt && return 0
done < /proc/mounts
return 1
}
when_diskdev_appears() {
local dev="${1#/dev/}" cmd=""; shift
cmd="/sbin/initqueue --settled --onetime --name $1 $*"
{
printf 'SUBSYSTEM=="block", KERNEL=="%s", RUN+="%s"\n' "$dev" "$cmd"
printf 'SUBSYSTEM=="block", SYMLINK=="%s", RUN+="%s"\n' "$dev" "$cmd"
} >> $rulesfile
}
when_any_cdrom_appears() {
local cmd="/sbin/initqueue --settled --onetime --name autocd $*"
printf 'SUBSYSTEM=="block", ENV{ID_CDROM_MEDIA}=="1", RUN+="%s"\n' "$cmd" \
>> $rulesfile
}
plymouth_running() {
type plymouth >/dev/null 2>&1 && plymouth --ping 2>/dev/null
}
# print something to the display (and put it in the log so we know what's up)
tell_user() {
if plymouth_running; then
# NOTE: if we're doing graphical splash but we don't have all the
# font-rendering libraries, no message will appear.
plymouth display-message --text="$*"
echo "$*" # this goes to journal only
else
echo "$*" >&2 # this goes to journal+console
fi
}
dev_is_cdrom() {
udevadm info --query=property --name=$1 | grep -q 'ID_CDROM=1'
}
# dracut doesn't bring up the network unless:
# a) $netroot is set (i.e. you have a network root device), or
# b) /tmp/net.ifaces exists.
# So for non-root things that need the network (like kickstart) we need to
# make sure /tmp/net.ifaces exists.
# For details see 40network/net-genrules.sh (and the rest of 40network).
set_neednet() {
# if there's no netroot, make sure /tmp/net.ifaces exists
[ -z "$netroot" ] && >> /tmp/net.ifaces
}
parse_kickstart() {
/sbin/parse-kickstart $1 > /etc/cmdline.d/80-kickstart.conf
unset CMDLINE # re-read the commandline
. /tmp/ks.info # save the parsed kickstart
[ -e "$parsed_kickstart" ] && cp $parsed_kickstart /run/install/ks.cfg
}
# This is where we actually run the kickstart. Whee!
# We can't just add udev rules (we'll miss devices that are already active),
# and we can't just run the scripts manually (we'll miss devices that aren't
# yet active - think driver disks!).
#
# So: we have to write out the rules and then retrigger them.
#
# Really what we want to do here is just start over from the "cmdline"
# phase, but since we can't do that, we'll kind of fake it.
#
# XXX THIS IS KIND OF A GROSS HACK AND WE NEED A BETTER WAY TO DO IT
run_kickstart() {
local do_disk="" do_net=""
# kickstart's done - time to find a real root device
[ "$root" = "anaconda-kickstart" ] && root=""
# don't look for the kickstart again
kickstart=""
# re-parse new cmdline stuff from the kickstart
. $hookdir/cmdline/*parse-anaconda-repo.sh
. $hookdir/cmdline/*parse-livenet.sh
# TODO: parse for other stuff ks might set (dd? other stuff?)
case "$repotype" in
http*|ftp|nfs*) do_net=1 ;;
cdrom|hd|bd) do_disk=1 ;;
esac
[ "$root" = "anaconda-auto-cd" ] && do_disk=1
# kickstart Driver Disk Handling
# parse-kickstart may have added network inst.dd entries to the cmdline
# Or it may have written devices to /tmp/dd_ks
# Does network need to be rerun?
dd_args="$(getargs dd= inst.dd=)"
for dd in $dd_args; do
case "${dd%%:*}" in
http|https|ftp|nfs|nfs4)
do_net=1
rm /tmp/dd_net.done
break
;;
esac
done
# Run the driver update UI for disks
if [ -e "/tmp/dd_args_ks" ]; then
# TODO: Seems like this should be a function, a mostly same version is used in 3 places
start_driver_update "Kickstart Driver Update Disk"
rm /tmp/dd_args_ks
fi
# replay udev events to trigger actions
if [ "$do_disk" ]; then
. $hookdir/pre-trigger/*repo-genrules.sh
udevadm control --reload
udevadm trigger --action=change --subsystem-match=block
fi
if [ "$do_net" ]; then
udevadm trigger --action=online --subsystem-match=net
fi
# and that's it - we're back to the mainloop.
> /tmp/ks.cfg.done # let wait_for_kickstart know that we're done.
}
wait_for_kickstart() {
echo "[ -e /tmp/ks.cfg.done ]" > $hookdir/initqueue/finished/kickstart.sh
}
wait_for_updates() {
echo "[ -e /tmp/liveupdates.done ]" > $hookdir/initqueue/finished/updates.sh
}
start_driver_update() {
local title="$1"
tty=$(find_tty)
# save module state
cat /proc/modules > /tmp/dd_modules
info "Starting $title Service on $tty"
systemctl start driver-updates@$tty.service
status=$(systemctl -p ExecMainStatus show driver-updates@$tty.service)
info "DD status=$status"
}