scriptbox/alpine-initramfs-dropbear/initramfs-dropbear-ipv6

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2024-12-10 09:30:44 +00:00
#!/bin/sh
# this is the init script version
VERSION=@VERSION@
SINGLEMODE=no
sysroot="$ROOT"/sysroot
splashfile=/.splash.ctrl
repofile="$ROOT"/tmp/repositories
# some helpers
ebegin() {
last_emsg="$*"
echo "$last_emsg..." > "$ROOT"/dev/kmsg
[ "$KOPT_quiet" = yes ] && return 0
echo -n " * $last_emsg: "
}
eend() {
local msg
if [ "$1" = 0 ] || [ $# -lt 1 ] ; then
echo "$last_emsg: ok." > "$ROOT"/dev/kmsg
[ "$KOPT_quiet" = yes ] && return 0
echo "ok."
else
shift
echo "$last_emsg: failed. $*" > "$ROOT"/dev/kmsg
if [ "$KOPT_quiet" = "yes" ]; then
echo -n "$last_emsg "
fi
echo "failed. $*"
echo "initramfs emergency recovery shell launched. Type 'exit' to continue boot"
/bin/busybox sh
fi
}
unpack_apkovl() {
local ovl="$1"
local dest="$2"
local suffix=${ovl##*.}
local i
ovlfiles=/tmp/ovlfiles
if [ "$suffix" = "gz" ]; then
tar -C "$dest" -zxvf "$ovl" > $ovlfiles
return $?
fi
# we need openssl. let apk handle deps
apk add --quiet --initdb --repositories-file $repofile openssl || return 1
if ! openssl list -1 -cipher-commands | grep "^$suffix$" > /dev/null; then
errstr="Cipher $suffix is not supported"
return 1
fi
local count=0
# beep
echo -e "\007"
while [ $count -lt 3 ]; do
openssl enc -d -$suffix -in "$ovl" | tar --numeric-owner \
-C "$dest" -zxv >$ovlfiles 2>/dev/null && return 0
count=$(( $count + 1 ))
done
ovlfiles=
return 1
}
# find mount dir and mount opts for given device in an fstab
get_fstab_mount_info() {
local search_dev="$1"
local fstab="$2"
local mntopts=
case "$search_dev" in
UUID*|LABEL*) search_dev=$(findfs "$search_dev");;
esac
[ -r "$fstab" ] || return 1
local search_maj_min=$(stat -L -c '%t,%T' $search_dev)
while read dev mnt fs mntopts chk; do
case "$dev" in
UUID*|LABEL*) dev=$(findfs "$dev");;
esac
if [ -b "$dev" ] || [ -n "$ROOT" ]; then
local maj_min=$(stat -L -c '%t,%T' $dev)
if [ "$maj_min" = "$search_maj_min" ]; then
echo "$mnt $mntopts"
return
fi
fi
done < $fstab
}
# add a boot service to $sysroot
rc_add() {
mkdir -p $sysroot/etc/runlevels/$2
ln -sf /etc/init.d/$1 $sysroot/etc/runlevels/$2/$1
}
# Recursively resolve tty aliases like console or tty0
list_console_devices() {
if ! [ -e "$ROOT"/sys/class/tty/$1/active ]; then
echo $1
return
fi
for dev in $(cat "$ROOT"/sys/class/tty/$1/active); do
list_console_devices $dev
done
}
detect_serial_consoles() {
if [ -f "$ovl" ] || [ "$KOPT_autodetect_serial" = "no" ]; then
return
fi
local n=$(awk '$7 ~ /CTS/ || $7 ~ /DSR/ { print $1 }' "$ROOT"/proc/tty/driver/serial 2>/dev/null)
if [ -n "$n" ]; then
echo ttyS${n%:}
fi
for i in "$ROOT"/sys/class/tty/*; do
if [ -e "$i"/device ]; then
echo ${i##*/}
fi
done
}
setup_inittab_console() {
term=vt100
# Inquire the kernel for list of console= devices
consoles="$(for c in console $KOPT_consoles $(detect_serial_consoles); do list_console_devices $c; done)"
for tty in $consoles; do
# ignore tty devices that gives I/O error
if ! stty -g -F /dev/$tty >/dev/null 2>/dev/null; then
continue
fi
# do nothing if inittab already have the tty set up
if ! grep -q "^$tty:" $sysroot/etc/inittab 2>/dev/null; then
echo "# enable login on alternative console" \
>> $sysroot/etc/inittab
# Baudrate of 0 keeps settings from kernel
echo "$tty::respawn:/sbin/getty -L 0 $tty $term" \
>> $sysroot/etc/inittab
fi
if [ -e "$sysroot"/etc/securetty ] && ! grep -q -w "$tty" "$sysroot"/etc/securetty; then
echo "$tty" >> "$sysroot"/etc/securetty
fi
done
}
# collect ethernet interfaces, sorted by index
ethernets() {
for i in "$ROOT/sys/class/net/"*; do
local iface="${i##*/}"
if [ -d "$i/device" ]; then
echo "$(cat "$i/ifindex") $iface"
fi
done | sort -n | awk '{print $2}'
}
# find the interface that is has operstate up
find_first_interface_up() {
local n=0
[ $# -eq 0 ] && return 0
while [ "$n" -le "${LINK_WAIT_MAX:-40}" ]; do
for i in "$@"; do
if grep -q -F -x "up" "$ROOT/sys/class/net/$i/operstate"; then
echo "$i"
return
fi
done
sleep 0.1
n=$((n+1))
done
return 1
}
# if "ip=dhcp" is specified on the command line, we obtain an IP address
# using udhcpc. we do this now and not by enabling kernel-mode DHCP because
# kernel-model DHCP appears to require that network drivers be built into
# the kernel rather than as modules. At this point all applicable modules
# in the initrd should have been loaded.
#
# You need af_packet.ko available as well modules for your Ethernet card.
#
# See https://www.kernel.org/doc/Documentation/filesystems/nfs/nfsroot.txt
# for documentation on the format.
#
# Valid syntaxes:
# ip=client-ip:server-ip:gw-ip:netmask:hostname:device:autoconf:
# :dns0-ip:dns1-ip:ntp0-ip
# ip=dhcp
# "server-ip", "hostname" and "ntp0-ip" are not supported here.
# Default (when configure_ip is called without setting ip=):
# ip=dhcp
#
configure_ip() {
[ -n "$MAC_ADDRESS" ] && return
local IFS=':'
# shellcheck disable=SC2086
set -- ${KOPT_ip:-dhcp}
unset IFS
local client_ip="$1"
local gw_ip="$3"
local netmask="$4"
local iface="$6"
local autoconf="$7"
local dns1="$8"
local dns2="$9"
case "$client_ip" in
off|none) return;;
dhcp) autoconf="dhcp";;
esac
if [ -e "$ROOT"/etc/mactab ]; then
$MOCK nameif -s
fi
if [ -z "$iface" ] && [ -n "$KOPT_BOOTIF" ]; then
mac=$(printf "%s\n" "$KOPT_BOOTIF"|sed 's/^01-//;s/-/:/g')
iface=$(grep -l "$mac" "$ROOT"/sys/class/net/*/address | awk -F/ '{print $(NF-1); exit}')
fi
if [ -z "$iface" ]; then
# shellcheck disable=SC2046
set -- $(ethernets)
for i in "$@"; do
$MOCK ip link set dev "$i" up
done
iface=$(find_first_interface_up "$@") || iface="$1"
# we will use the found interface later so lets keep it up
for i in "$@"; do
if [ "$i" != "$iface" ]; then
$MOCK ip link set dev "$i" down
fi
done
fi
if [ -z "$iface" ]; then
echo "ERROR: IP requested but no network interface was found"
return 1
fi
if [ "$autoconf" = "dhcp" ]; then
# automatic configuration
if [ ! -e "$ROOT"/usr/share/udhcpc/default.script ]; then
echo "ERROR: DHCP requested but not present in initrd"
return 1
fi
ebegin "Obtaining IP via DHCP ($iface)"
$MOCK ip link set dev "$iface" up
$MOCK udhcpc -i "$iface" -f -q
eend $?
else
# manual configuration
if [ -z "$client_ip" ] && [ -z "$netmask" ]; then
return
fi
ebegin "Setting IP ($iface)"
if ifconfig "$iface" "$client_ip" netmask "$netmask"; then
[ -z "$gw_ip" ] || ip route add 0.0.0.0/0 via "$gw_ip" dev "$iface"
fi
eend $?
fi
# Never executes if variables are empty
for i in $dns1 $dns2; do
echo "nameserver $i" >> /etc/resolv.conf
done
MAC_ADDRESS=$(cat "$ROOT/sys/class/net/$iface/address")
}
# configure ipv6 on initramfs
# Valid syntaxes:
# ip6=client-ip/gateway-ip/interface/dns1/dns2
#
configure_ip6() {
[ -n "$MAC_ADDRESS" ] && return
$MOCK modprobe -a ipv6
local IFS='/'
# shellcheck disable=SC2086
set -- ${KOPT_ip6}
unset IFS
local client6_ip="$1"
local gw6_ip="$2"
local iface="$3"
local dns1="$4"
local dns2="$5"
if [ -e "$ROOT"/etc/mactab ]; then
$MOCK nameif -s
fi
if [ -z "$iface" ] && [ -n "$KOPT_BOOTIF" ]; then
mac=$(printf "%s\n" "$KOPT_BOOTIF"|sed 's/^01-//;s/-/:/g')
iface=$(grep -l "$mac" "$ROOT"/sys/class/net/*/address | awk -F/ '{print $(NF-1); exit}')
fi
# Bring interface up
if [ -n "$iface" ]; then
$MOCK ip link set dev "$iface" up
sleep 3 # wait for interface to fully up.
fi
if [ -z "$iface" ]; then
# shellcheck disable=SC2046
set -- $(ethernets)
for i in "$@"; do
$MOCK ip link set dev "$i" up
done
iface=$(find_first_interface_up "$@") || iface="$1"
# we will use the found interface later so lets keep it up
for i in "$@"; do
if [ "$i" != "$iface" ]; then
$MOCK ip link set dev "$i" down
fi
done
fi
if [ -z "$iface" ]; then
echo "ERROR: IP requested but no network interface was found"
return 1
fi
if [ -z "$client6_ip" ] && [ -z "$netmask" ]; then
return
fi
ebegin "Setting IP ($iface)"
if ip -6 addr add $client6_ip dev $iface; then
# this is definitely not required by all ipv6 implementation
# but it's better to keep things working for all deployment possible
#
# metric is mandatory!
[ -z "$gw6_ip" ] || ip -6 route add "$gw6_ip" dev $iface metric 256
[ -z "$gw6_ip" ] || ip -6 route add ::0/0 via "$gw6_ip" dev "$iface" metric 128
2024-12-10 09:30:44 +00:00
fi
eend $?
# Never executes if variables are empty
for i in $dns1 $dns2; do
echo "nameserver $i" >> /etc/resolv.conf
done
MAC_ADDRESS=$(cat "$ROOT/sys/class/net/$iface/address")
}
# relocate mountpoint according given fstab and set mount options
remount_fstab_entry() {
local fstab="${1}"
local dir=
if ! [ -e "$repofile" ]; then
return
fi
echo "$ovl" | cat - "$repofile" | while read dir; do
# skip http(s)/ftp repos for netboot
if [ -z "$dir" ] || ! [ -d "$ROOT/$dir" -o -f "$ROOT/$dir" ]; then
continue
fi
local dev=$(df -P "$dir" | tail -1 | awk '{print $1}')
local mntinfo="$(get_fstab_mount_info "$dev" "$fstab")"
local mnt="${mntinfo% *}"
local mntopts="${mntinfo#* }"
if [ -n "$mnt" ]; then
local oldmnt=$(awk -v d=$ROOT$dev '$1==d {print $2}' "$ROOT"/proc/mounts 2>/dev/null)
if [ "$oldmnt" != "$mnt" ]; then
mkdir -p "$mnt"
$MOCK mount -o move "$oldmnt" "$mnt"
fi
if [ -n "$mntopts" ]; then
$MOCK mount -o remount,"$mntopts" "$mnt"
fi
fi
done
}
# find the dirs under ALPINE_MNT that are boot repositories
find_boot_repositories() {
if [ -n "$ALPINE_REPO" ]; then
echo "$ALPINE_REPO" | tr ',' '\n'
else
find "$ROOT"/media/* -maxdepth 3 -name .boot_repository -type f \
| sed 's:/.boot_repository$::'
fi
}
setup_nbd() {
$MOCK modprobe -q nbd max_part=8 || return 1
local IFS=, n=0
set -- $KOPT_nbd
unset IFS
for ops; do
local server="${ops%:*}"
local port="${ops#*:}"
local device="/dev/nbd${n}"
[ -b "$device" ] || continue
nbd-client "$server" "$port" "$device" && n=$((n+1))
done
[ "$n" != 0 ] || return 1
}
setup_dropbear() {
local port="${KOPT_dropbear}"
local keys=""
# set the unlock_disc script as shell for root
sed -i 's|\(root:x:0:0:root:/root:\).*$|\1/etc/dropbear/unlock_disk|' /etc/passwd
echo '/etc/dropbear/unlock_disk' > /etc/shells
# transfer authorized_keys
mkdir /root/.ssh
cp /etc/dropbear/authorized_keys /root/.ssh/authorized_keys
dropbear -R -E -s -j -k -p $port
}
setup_wireguard() {
$MOCK modprobe -q wireguard || return 1
local IFS=';'
set -- $KOPT_wireguard
unset IFS
local device="$1"
local ips="$2"
local config="${3:-/etc/wireguard/initrd.conf}"
local IFS=','
set -- $ips
unset IFS
$MOCK ip link add "$device" type wireguard
$MOCK wg setconf "$device" "$config"
$MOCK ip link set dev "$device" up
for addr in $@; do
$MOCK ip addr add dev "$device" "$addr"
done
}
rtc_exists() {
local rtc=
for rtc in /dev/rtc /dev/rtc[0-9]*; do
[ -e "$rtc" ] && break
done
[ -e "$rtc" ]
}
# This is used to predict if network access will be necessary
is_url() {
case "$1" in
http://*|https://*|ftp://*)
return 0;;
*)
return 1;;
esac
}
# Do some tasks to make sure mounting the ZFS pool is A-OK
prepare_zfs_root() {
local _root_vol=${KOPT_root#ZFS=}
local _root_pool=${_root_vol%%/*}
# Force import if this has been imported on a different system previously.
# Import normally otherwise
if [ "$KOPT_zfs_force" = 1 ]; then
zpool import -N -d /dev -f $_root_pool
else
zpool import -N -d /dev $_root_pool
fi
# Ask for encryption password
if [ $(zpool list -H -o feature@encryption $_root_pool) = "active" ]; then
local _encryption_root=$(zfs get -H -o value encryptionroot $_root_vol)
if [ "$_encryption_root" != "-" ]; then
eval zfs load-key $_encryption_root
fi
fi
}
want_tiny_cloud() {
if [ -f "$sysroot/etc/tiny-cloud.disabled" ]; then
return 1
fi
if [ -n "$KOPT_ds" ] || [ "$KOPT_tinycloud" ]; then
return 0
fi
if grep -q "^ds=" "$ROOT"/sys/class/dmi/id/product_serial 2>/dev/null; then
return 0
fi
findfs LABEL=cidata >/dev/null 2>&1 || findfs LABEL=CIDATA >/dev/null 2>&1
}
resume_from_disk () {
if [ -z "$KOPT_resume" ]; then
return
fi
if [ ! -e "$ROOT"/sys/power/resume ]; then
echo "resume: no hibernation support found"
return
fi
echo "Resume from disk"
case "$KOPT_resume" in
UUID*|LABEL*) resume_dev=$(findfs "$KOPT_resume");;
*) resume_dev="$KOPT_resume";;
esac
printf "%d:%d" $(stat -Lc "0x%t 0x%T" "$resume_dev") > "$ROOT"/sys/power/resume
if [ -n "$KOPT_resume_offset" ]; then
echo "$KOPT_resume_offset" > "$ROOT"/sys/power/resume_offset
fi
}
/bin/busybox mkdir -p \
"$ROOT"/bin \
"$ROOT"/sbin \
"$ROOT"/usr/bin \
"$ROOT"/usr/sbin \
"$ROOT"/proc \
"$ROOT"/sys \
"$ROOT"/dev \
"$sysroot" \
"$ROOT"/media/cdrom \
"$ROOT"/media/usb \
"$ROOT"/tmp \
"$ROOT"/etc \
"$ROOT"/run/cryptsetup
# Spread out busybox symlinks and make them available without full path
/bin/busybox --install -s
export PATH="$PATH:/usr/bin:/bin:/usr/sbin:/sbin"
# Make sure /dev/null is a device node. If /dev/null does not exist yet, the command
# mounting the devtmpfs will create it implicitly as an file with the "2>" redirection.
# The -c check is required to deal with initramfs with pre-seeded device nodes without
# error message.
[ -c /dev/null ] || $MOCK mknod -m 666 /dev/null c 1 3
$MOCK mount -t sysfs -o noexec,nosuid,nodev sysfs /sys
$MOCK mount -t devtmpfs -o exec,nosuid,mode=0755,size=2M devtmpfs /dev 2>/dev/null \
|| $MOCK mount -t tmpfs -o exec,nosuid,mode=0755,size=2M tmpfs /dev
# Make sure /dev/kmsg is a device node. Writing to /dev/kmsg allows the use of the
# earlyprintk kernel option to monitor early init progress. As above, the -c check
# prevents an error if the device node has already been seeded.
[ -c /dev/kmsg ] || $MOCK mknod -m 660 /dev/kmsg c 1 11
$MOCK mount -t proc -o noexec,nosuid,nodev proc /proc
# pty device nodes (later system will need it)
[ -c /dev/ptmx ] || $MOCK mknod -m 666 /dev/ptmx c 5 2
[ -d /dev/pts ] || $MOCK mkdir -m 755 /dev/pts
$MOCK mount -t devpts -o gid=5,mode=0620,noexec,nosuid devpts /dev/pts
# shared memory area (later system will need it)
mkdir -p "$ROOT"/dev/shm
$MOCK mount -t tmpfs -o nodev,nosuid,noexec shm /dev/shm
# read the kernel options. we need surve things like:
# acpi_osi="!Windows 2006" xen-pciback.hide=(01:00.0)
set -- $(cat "$ROOT"/proc/cmdline)
myopts="BOOTIF
alpine_repo
aoe
aoe_iflist
aoe_mtu
apkovl
autodetect_serial
blacklist
chart
cryptdiscards
cryptdm
cryptheader
cryptkey
cryptoffset
cryptroot
dasd
debug_init
ds
init
init_args
ip
keep_apk_new
modules
nbd
overlaytmpfs
overlaytmpfsflags
pkgs
quiet
resume
resume_offset
root
root_size
rootflags
rootfstype
s390x_net
splash
ssh_key
tinycloud
uevent_buf_size
usbdelay
usrflags
wireguard
zfcp
dropbear
ip6
"
for opt; do
case "$opt" in
s|single|1)
SINGLEMODE=yes
continue
;;
console=*)
opt="${opt#*=}"
KOPT_consoles="${opt%%,*} $KOPT_consoles"
switch_root_opts="-c /dev/${opt%%,*}"
continue
;;
esac
for i in $myopts; do
case "$opt" in
$i=*) eval "KOPT_${i}"='${opt#*=}';;
$i) eval "KOPT_${i}=yes";;
no$i) eval "KOPT_${i}=no";;
esac
done
done
echo "Alpine Init $VERSION" > "$ROOT"/dev/kmsg
[ "$KOPT_quiet" = yes ] || echo "Alpine Init $VERSION"
# enable debugging if requested
[ -n "$KOPT_debug_init" ] && set -x
# set default values
: ${KOPT_init:=/sbin/init}
# pick first keymap if found
for map in "$ROOT"/etc/keymap/*; do
if [ -f "$map" ]; then
ebegin "Setting keymap ${map##*/}"
zcat "$map" | loadkmap
eend
break
fi
done
# start bootcharting if wanted
if [ "$KOPT_chart" = yes ]; then
ebegin "Starting bootchart logging"
$MOCK /sbin/bootchartd start-initfs
eend 0
fi
# The following values are supported:
# alpine_repo=auto -- default, search for .boot_repository
# alpine_repo=http://... -- network repository
ALPINE_REPO=${KOPT_alpine_repo}
[ "$ALPINE_REPO" = "auto" ] && ALPINE_REPO=
# hide kernel messages
[ "$KOPT_quiet" = yes ] && dmesg -n 1
# optional blacklist
if [ -n "$KOPT_blacklist" ]; then
mkdir -p "$ROOT"/etc/modprobe.d
for i in $(echo "$KOPT_blacklist" | tr ',' ' '); do
echo "blacklist $i" >> "$ROOT"/etc/modprobe.d/boot-opt-blacklist.conf
done
fi
# determine if we are going to need networking
if [ -n "$KOPT_ip" ] || [ -n "$KOPT_nbd" ] || \
is_url "$KOPT_apkovl" || is_url "$ALPINE_REPO"; then
do_networking=true
else
do_networking=false
fi
if [ -n "$KOPT_zfcp" ]; then
$MOCK modprobe zfcp
for _zfcp in $(echo "$KOPT_zfcp" | tr ',' ' ' | tr [A-Z] [a-z]); do
echo 1 > /sys/bus/ccw/devices/"${_zfcp%%:*}"/online
done
fi
if [ -n "$KOPT_dasd" ]; then
for mod in dasd_mod dasd_eckd_mod dasd_fba_mod; do
$MOCK modprobe $mod
done
for _dasd in $(echo "$KOPT_dasd" | tr ',' ' ' | tr [A-Z] [a-z]); do
echo 1 > /sys/bus/ccw/devices/"${_dasd%%:*}"/online
done
fi
if [ "${KOPT_s390x_net%%,*}" = "qeth_l2" ]; then
for mod in qeth qeth_l2 qeth_l3; do
$MOCK modprobe $mod
done
_channel="$(echo ${KOPT_s390x_net#*,} | tr [A-Z] [a-z])"
echo "$_channel" > /sys/bus/ccwgroup/drivers/qeth/group
echo 1 > /sys/bus/ccwgroup/drivers/qeth/"${_channel%%,*}"/layer2
echo 1 > /sys/bus/ccwgroup/drivers/qeth/"${_channel%%,*}"/online
fi
# make sure we load zfs module if root=ZFS=...
rootfstype=${KOPT_rootfstype}
if [ -z "$rootfstype" ]; then
case "$KOPT_root" in
ZFS=*) rootfstype=zfs ;;
esac
fi
# load available drivers to get access to modloop media
ebegin "Loading boot drivers"
$MOCK modprobe -a $(echo "$KOPT_modules $rootfstype" | tr ',' ' ' ) loop squashfs simpledrm 2> /dev/null
if [ -f "$ROOT"/etc/modules ] ; then
sed 's/\#.*//g' < /etc/modules |
while read module args; do
$MOCK modprobe -q $module $args
done
fi
eend 0
# workaround for vmware
if grep -q VMware "$ROOT"/sys/devices/virtual/dmi/id/sys_vendor 2>/dev/null; then
$MOCK modprobe -a ata_piix mptspi sr-mod
fi
if [ -n "$KOPT_dropbear" ]; then
if [ -n "$KOPT_cryptroot" ]; then
configure_ip6
setup_dropbear
fi
fi
# Add Workaround for dropbear
if [ -n "$KOPT_cryptroot" ] && [ ! -b /dev/mapper/"${KOPT_cryptdm}" ]; then
cryptopts="-c ${KOPT_cryptroot}"
if [ "$KOPT_cryptdiscards" = "yes" ]; then
cryptopts="$cryptopts -D"
fi
if [ -n "$KOPT_cryptdm" ]; then
cryptopts="$cryptopts -m ${KOPT_cryptdm}"
fi
if [ -n "$KOPT_cryptheader" ]; then
cryptopts="$cryptopts -H ${KOPT_cryptheader}"
fi
if [ -n "$KOPT_cryptoffset" ]; then
cryptopts="$cryptopts -o ${KOPT_cryptoffset}"
fi
if [ "$KOPT_cryptkey" = "yes" ]; then
cryptopts="$cryptopts -k /crypto_keyfile.bin"
elif [ -n "$KOPT_cryptkey" ]; then
cryptopts="$cryptopts -k ${KOPT_cryptkey}"
fi
fi
if [ -n "$KOPT_wireguard" ]; then
configure_ip
setup_wireguard || echo "Failed to setup wireguard tunnel."
fi
if [ -n "$KOPT_nbd" ]; then
# TODO: Might fail because nlplug-findfs hasn't plugged eth0 yet
configure_ip
setup_nbd || echo "Failed to setup nbd device."
fi
if [ -n "$KOPT_aoe" ]; then
if [ -n "$KOPT_aoe_iflist" ]; then
for iface in $(echo "$KOPT_aoe_iflist" | tr ',' ' '); do
$MOCK ip link set dev "$iface" up
if [ -n "$KOPT_aoe_mtu" ]; then
$MOCK ip link set dev "$iface" mtu "$KOPT_aoe_mtu"
fi
done
$MOCK modprobe aoe aoe_iflist="$KOPT_aoe_iflist"
else
$MOCK modprobe aoe
fi
if [ "$KOPT_aoe" != "yes" ]; then
for target in $(echo "$KOPT_aoe" | tr ',' ' '); do
while [ ! -e /dev/etherd/e$target ]; do
echo discover "$target" >>/dev/etherd/discover
sleep 1
done
done
fi
fi
# zpool reports /dev/zfs missing if it can't read /etc/mtab
ln -s /proc/mounts "$ROOT"/etc/mtab
# check if root=... was set
if [ -n "$KOPT_root" ]; then
# run nlplug-findfs before SINGLEMODE so we load keyboard drivers
ebegin "Mounting root"
$MOCK nlplug-findfs $cryptopts -p /sbin/mdev ${KOPT_debug_init:+-d} \
${KOPT_uevent_buf_size:+-U $KOPT_uevent_buf_size} \
$KOPT_root
# Kill all struck nlplug-findfs jobs and dropbear
killall -9 nlplug-findfs
killall -9 dropbear
if [ "$SINGLEMODE" = "yes" ]; then
echo "Entering single mode. Type 'exit' to continue booting."
sh
fi
if echo "$KOPT_modules $rootfstype" | grep -qw btrfs; then
/sbin/btrfs device scan >/dev/null || \
echo "Failed to scan devices for btrfs filesystem."
fi
resume_from_disk
if [ "$KOPT_overlaytmpfs" = "yes" ]; then
# Create mountpoints
mkdir -p /media/root-ro /media/root-rw $sysroot/media/root-ro \
$sysroot/media/root-rw
# Mount read-only underlying rootfs
rootflags="${KOPT_rootflags:+$KOPT_rootflags,}ro"
$MOCK mount ${KOPT_rootfstype:+-t $KOPT_rootfstype} -o $rootflags \
$KOPT_root /media/root-ro
# Mount writable overlay tmpfs
overlaytmpfsflags="mode=0755,${KOPT_overlaytmpfsflags:+$KOPT_overlaytmpfsflags,}rw"
$MOCK mount -t tmpfs -o $overlaytmpfsflags root-tmpfs /media/root-rw
# Create additional mountpoints and do the overlay mount
mkdir -p /media/root-rw/work /media/root-rw/root
$MOCK mount -t overlay -o \
lowerdir=/media/root-ro,upperdir=/media/root-rw/root,workdir=/media/root-rw/work \
overlayfs $sysroot
else
if [ "$rootfstype" = "zfs" ]; then
prepare_zfs_root
fi
$MOCK mount ${rootfstype:+-t} ${rootfstype} \
-o ${KOPT_rootflags:-ro} \
${KOPT_root#ZFS=} $sysroot
fi
eend $?
if [ -r "$sysroot/etc/fstab" ] && [ "$KOPT_usrflags" != "disable" ]; then
while read dev mnt fs mntopts chk; do
if [ "$mnt" = "/usr" ]; then
ebegin "Mounting /usr"
$MOCK modprobe -a $fs 2> /dev/null
$MOCK nlplug-findfs \
-p /sbin/mdev \
${KOPT_debug_init:+-d} \
${KOPT_uevent_buf_size:+-U $KOPT_uevent_buf_size} \
$dev
$MOCK mount -t $fs \
-o ${KOPT_usrflags:-ro} \
$dev $sysroot/usr
eend $?
fi
done < $sysroot/etc/fstab
fi
cat "$ROOT"/proc/mounts 2>/dev/null | while read DEV DIR TYPE OPTS ; do
if [ "$DIR" != "/" -a "$DIR" != "$sysroot" -a "$DIR" != "$sysroot/usr" -a -d "$DIR" ]; then
mkdir -p $sysroot/$DIR
$MOCK mount -o move $DIR $sysroot/$DIR
fi
done
$MOCK sync
exec switch_root $switch_root_opts $sysroot $chart_init "$KOPT_init" $KOPT_init_args
echo "initramfs emergency recovery shell launched"
exec /bin/busybox sh
fi
resume_from_disk
if $do_networking; then
repoopts="-n"
else
repoopts="-b $repofile"
fi
# locate boot media and mount it
ebegin "Mounting boot media"
$MOCK nlplug-findfs $cryptopts -p /sbin/mdev ${KOPT_debug_init:+-d} \
${KOPT_usbdelay:+-t $(( $KOPT_usbdelay * 1000 ))} \
${KOPT_uevent_buf_size:+-U $KOPT_uevent_buf_size} \
$repoopts -a "$ROOT"/tmp/apkovls
# Kill all struck nlplug-findfs jobs and dropbear
killall -9 nlplug-findfs
killall -9 dropbear
eend $?
# Setup network interfaces
if $do_networking; then
configure_ip
fi
# early console?
if [ "$SINGLEMODE" = "yes" ]; then
echo "Entering single mode. Type 'exit' to continue booting."
sh
fi
# mount tmpfs sysroot
rootflags="mode=0755"
if [ -n "$KOPT_root_size" ]; then
echo "WARNING: the boot option root_size is deprecated. Use rootflags instead"
rootflags="$rootflags,size=$KOPT_root_size"
fi
if [ -n "$KOPT_rootflags" ]; then
rootflags="$rootflags,$KOPT_rootflags"
fi
$MOCK mount -t tmpfs -o $rootflags tmpfs $sysroot
if [ -z "$KOPT_apkovl" ]; then
# Not manually set, use the apkovl found by nlplug
if [ -e "$ROOT"/tmp/apkovls ]; then
ovl=$(head -n 1 "$ROOT"/tmp/apkovls)
fi
elif is_url "$KOPT_apkovl"; then
# Fetch apkovl via network
MACHINE_UUID=$(cat "$ROOT"/sys/class/dmi/id/product_uuid 2>/dev/null)
url="$(echo "$KOPT_apkovl" | sed -e "s/{MAC}/$MAC_ADDRESS/" -e "s/{UUID}/$MACHINE_UUID/")"
ovl="/tmp/${url##*/}"
ovl="${ovl%%\?*}"
$MOCK wget -O "$ovl" "$url" || ovl=
else
ovl="$KOPT_apkovl"
fi
# parse pkgs=pkg1,pkg2
if [ -n "$KOPT_pkgs" ]; then
pkgs=$(echo "$KOPT_pkgs" | tr ',' ' ' )
fi
# load apkovl or set up a minimal system
if [ -f "$ovl" ]; then
ebegin "Loading user settings from $ovl"
# create apk db and needed /dev/null and /tmp first
apk add --root $sysroot --initdb --quiet
unpack_apkovl "$ovl" $sysroot
eend $? $errstr || ovlfiles=
# hack, incase /root/.ssh was included in apkovl
[ -d "$sysroot/root" ] && chmod 700 "$sysroot/root"
pkgs="$pkgs $(cat $sysroot/etc/apk/world 2>/dev/null)"
fi
if [ -f "$sysroot/etc/.default_boot_services" -o ! -f "$ovl" ]; then
# add some boot services by default
rc_add devfs sysinit
rc_add dmesg sysinit
rc_add mdev sysinit
rc_add hwdrivers sysinit
rc_add modloop sysinit
rc_add modules boot
rc_add sysctl boot
rc_add hostname boot
rc_add bootmisc boot
rc_add syslog boot
rc_add mount-ro shutdown
rc_add killprocs shutdown
rc_add savecache shutdown
rc_add firstboot default
# add openssh
if [ -n "$KOPT_ssh_key" ]; then
pkgs="$pkgs openssh"
rc_add sshd default
fi
if want_tiny_cloud; then
pkgs="$pkgs tiny-cloud ifupdown-ng doas"
rc_add tiny-cloud-boot boot
rc_add tiny-cloud-early default
rc_add tiny-cloud-main default
rc_add tiny-cloud-final default
fi
rm -f "$sysroot/etc/.default_boot_services"
fi
if [ "$KOPT_splash" != "no" ]; then
echo "IMG_ALIGN=CM" > /tmp/fbsplash.cfg
for fbdev in /dev/fb[0-9]; do
[ -e "$fbdev" ] || break
num="${fbdev#/dev/fb}"
for img in /media/*/fbsplash$num.ppm; do
[ -e "$img" ] || break
config="${img%.*}.cfg"
[ -e "$config" ] || config=/tmp/fbsplash.cfg
fbsplash -s "$img" -d "$fbdev" -i "$config"
break
done
done
for fbsplash in /media/*/fbsplash.ppm; do
[ -e "$fbsplash" ] && break
done
fi
if [ -n "$fbsplash" ] && [ -e "$fbsplash" ]; then
ebegin "Starting bootsplash"
mkfifo $sysroot/$splashfile
config="${fbsplash%.*}.cfg"
[ -e "$config" ] || config=/tmp/fbsplash.cfg
setsid fbsplash -T 16 -s "$fbsplash" -i $config -f $sysroot/$splashfile &
eend 0
else
KOPT_splash="no"
fi
if [ -f $sysroot/etc/fstab ]; then
has_fstab=1
fstab=$sysroot/etc/fstab
# let user override tmpfs size in fstab in apkovl
mountopts=$(awk '$2 == "/" && $3 == "tmpfs" { print $4 }' $sysroot/etc/fstab)
if [ -n "$mountopts" ]; then
$MOCK mount -o remount,$mountopts $sysroot
fi
# relocate mounts and adjust mount options
# this is so a generated /etc/apk/repositories will use correct
# mount dir
remount_fstab_entry "$sysroot"/etc/fstab
elif [ -f "$ROOT"/etc/fstab ]; then
remount_fstab_entry "$ROOT"/etc/fstab
fi
# hack so we get openrc
pkgs="$pkgs alpine-base"
# copy keys so apk finds them. apk looks for stuff relative --root
mkdir -p $sysroot/etc/apk/keys/
$MOCK cp -a /etc/apk/keys $sysroot/etc/apk
# generate apk repositories file. needs to be done after relocation
find_boot_repositories > $repofile
# silently fix apk arch in case the apkovl does not match
if [ -r "$sysroot"/etc/apk/arch ]; then
apk_arch="$(apk --print-arch)"
if [ -n "$apk_arch" ]; then
echo "$apk_arch" > "$sysroot"/etc/apk/arch
fi
fi
# generate repo opts for apk
for i in $(cat $repofile); do
repo_opt="$repo_opt --repository $i"
done
# install new root
ebegin "Installing packages to root filesystem"
if [ "$KOPT_chart" = yes ]; then
pkgs="$pkgs acct"
fi
# use swclock if no RTC is found
if rtc_exists || [ "$(uname -m)" = "s390x" ]; then
rc_add hwclock boot
else
rc_add swclock boot
fi
# enable support for modloop verification
for _pubkey in "$ROOT"/var/cache/misc/*modloop*.SIGN.RSA.*.pub; do
# check only if the glob matched something
[ -f "$_pubkey" ] || continue
# then do it in one iteration anyway
mkdir -p "$sysroot"/var/cache/misc
cp "$ROOT"/var/cache/misc/*modloop*.SIGN.RSA.*.pub "$sysroot"/var/cache/misc
pkgs="$pkgs openssl"
break
done
apkflags="--initramfs-diskless-boot --progress"
if [ -z "$MAC_ADDRESS" ]; then
apkflags="$apkflags --no-network"
else
apkflags="$apkflags --update-cache"
fi
if [ "$KOPT_quiet" = yes ]; then
apkflags="$apkflags --quiet"
fi
if [ "$KOPT_keep_apk_new" != yes ]; then
apkflags="$apkflags --clean-protected"
[ -n "$ovlfiles" ] && apkflags="$apkflags --overlay-from-stdin"
fi
mkdir -p $sysroot/sys $sysroot/proc $sysroot/dev
$MOCK mount -o bind /sys $sysroot/sys
$MOCK mount -o bind /proc $sysroot/proc
$MOCK mount -o bind /dev $sysroot/dev
if [ -n "$ovlfiles" ]; then
apk add --root $sysroot $repo_opt $apkflags $pkgs <$ovlfiles
else
apk add --root $sysroot $repo_opt $apkflags $pkgs
fi
$MOCK umount $sysroot/sys $sysroot/proc $sysroot/dev
eend $?
# unmount ovl mount if needed
if [ -n "$ovl_unmount" ]; then
$MOCK umount $ovl_unmount 2>/dev/null
fi
# remount according default fstab from package
if [ -z "$has_fstab" ] && [ -f "$sysroot"/etc/fstab ]; then
remount_fstab_entry "$sysroot"/etc/fstab
fi
# generate repositories if none exists. this needs to be done after relocation
if ! [ -f "$sysroot"/etc/apk/repositories ]; then
find_boot_repositories > "$sysroot"/etc/apk/repositories
fi
# fix inittab if alternative console
setup_inittab_console
! [ -f "$sysroot"/etc/resolv.conf ] && [ -f /etc/resolv.conf ] && \
cp /etc/resolv.conf "$sysroot"/etc
# setup bootchart for switch_root
chart_init=""
if [ "$KOPT_chart" = yes ]; then
/sbin/bootchartd stop-initfs "$sysroot"
chart_init="/sbin/bootchartd start-rootfs"
fi
if [ ! -x "${sysroot}${KOPT_init}" ]; then
[ "$KOPT_splash" != "no" ] && echo exit > $sysroot/$splashfile
echo "$KOPT_init not found in new root. Launching emergency recovery shell"
echo "Type exit to continue boot."
/bin/busybox sh
fi
# switch over to new root
cat "$ROOT"/proc/mounts 2>/dev/null | while read DEV DIR TYPE OPTS ; do
if [ "$DIR" != "/" -a "$DIR" != "$sysroot" -a -d "$DIR" ]; then
mkdir -p $sysroot/$DIR
$MOCK mount -o move $DIR $sysroot/$DIR
fi
done
sync
[ "$KOPT_splash" = "init" ] && echo exit > $sysroot/$splashfile
echo ""
exec switch_root $switch_root_opts $sysroot $chart_init "$KOPT_init" $KOPT_init_args
[ "$KOPT_splash" != "no" ] && echo exit > $sysroot/$splashfile
echo "initramfs emergency recovery shell launched"
exec /bin/busybox sh
reboot