scripts/mkefi-agl.sh


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.highlight .il { color: #0000DD; font-weight: bold } /* Literal.Number.Integer.Long */# 'meta-agl' layer

See README-AGL.md for general information about Automotive Grade Linux.

## meta-agl, the core layer for Automotive Grade Linux Distribution

AGL is creating an automotive specific Linux distribution that unifies
the software that has been written in a number of places already,
such as GENIVI and Tizen IVI.

The layer 'meta-agl' provides a minimal set of software
to boot system of AGL Distribution. 'meta-agl' is the minimal
core which is used build AGL profiles on top of it.

Especially there is no reference UI included which is part of 'meta-agl-demo'.

Additional components like the security framework are part of 'meta-agl-extra'.

The AGL community appreciates feedback, ideas, suggestion, bugs and
documentation just as much as code. Please join the irc conversation
at the #automotive channel on irc.freenode.net and our mailing list.

For infomation for subscribing to the mailing list
    [automotive-discussions](http://lists.linuxfoundation.org/mailman/listinfo/automotive-discussions)
For information about AGL Distribution, see the
    [AGL Distribution](https://wiki.automotivelinux.org/agl-distro)
For information abount Getting started with AGL
    [here](https://wiki.automotivelinux.org/start/getting-started)
For information about contributing to the AGL Distro
    [here](https://wiki.automotivelinux.org/agl-distro/contributing)

## Quick start guide

See README-AGL.md

## 'meta-agl' Layer Dependencies

* poky
  > URI: git://git.yoctoproject.org/poky
  > branch         : jethro
  > tested revision: 40376446904ae3529be41737fed9a0b650ed167d

* meta-openembedded
  > URI: git://git.openembedded.org/meta-openembedded
  > layer          : meta-openembedded
  > branch         : jethro
  > tested revision: 8ab04afbffb4bc5184cfe0655049de6f44269990

Specifically out of meta-openembedded these sub-layers are used:

* meta-openembedded/meta-oe
* meta-openembedded/meta-multimedia
* meta-openembedded/meta-networking
* meta-openembedded/meta-python

## Layers

There are 5 layers in top-level `meta-agl`.

* `meta-agl/meta-ivi-common`\
  `meta-ivi-common` is a layer which contains common packages to AGL
  Distribution and other platforms for In-Vehicle Infotainment system.
* `meta-agl/meta-agl`\
  `meta-agl` is a layer which contains AGL common and middleware packages.
* `meta-agl/meta-agl-bsp`\
  `meta-agl-bsp` is a layer which contains required packages to boot AGL
  distribution on an emulated machine(QEMU).
* `meta-agl/meta-netboot`\
  `meta-netboot` contains the netboot initrd support recipes. This is needed
  in case of booting over the network as NFS does not support the securitylabels.

## Packagegroups

AGL package group design:

* packagegroup-agl-image-minimal

        packagegroup-agl-core-automotive.bb
        packagegroup-agl-core-connectivity.bb
        packagegroup-agl-core-graphics.bb
        packagegroup-agl-core-kernel.bb
        packagegroup-agl-core-multimedia.bb
        packagegroup-agl-core-navi-lbs.bb
        packagegroup-agl-core-os-commonlibs.bb
        packagegroup-agl-core-security.bb
        packagegroup-agl-core-speech-services.bb

These are for making image ``agl-image-minimal`` which is small image just
capable of allowing a device to boot.

Subsystem should maintain packagegroup-agl-core-[subsystem].bb which should
hold sufficient packages to build ``agl-image-minimal``.

* packagegroup-agl-image-ivi

        packagegroup-agl-ivi-automotive.bb
        packagegroup-agl-ivi-connectivity.bb
        packagegroup-agl-ivi-graphics.bb
        packagegroup-agl-ivi-kernel.bb
        packagegroup-agl-ivi-multimedia.bb
        packagegroup-agl-ivi-navi-lbs.bb
        packagegroup-agl-ivi-os-commonlibs.bb
        packagegroup-agl-ivi-security.bb
        packagegroup-agl-ivi-speech-services.bb

These are for making image ``agl-image-ivi`` which is baseline for the profiles
of AGL distro. 'Baseline' means Service Layer and Operating System Layer defined
in AGL Spec v1.0.

* packagegroup-agl-test.bb

Additional tools used in QA tests (for agl-image*-qa).

* packagegroup-ivi-common*

        packagegroup-ivi-common-core-automotive.bb
        packagegroup-ivi-common-core.bb
        packagegroup-ivi-common-core-connectivity.bb
        packagegroup-ivi-common-core-graphics.bb
        packagegroup-ivi-common-core-kernel.bb
        packagegroup-ivi-common-core-multimedia.bb
        packagegroup-ivi-common-core-navi-lbs.bb
        packagegroup-ivi-common-core-os-commonlibs.bb
        packagegroup-ivi-common-core-security.bb
        packagegroup-ivi-common-core-speech-services.bb
        packagegroup-ivi-common-test.bb

These are for picking up some packages from upstreams like GENIVI/Tizen/Others.
The layer of ``meta-ivi-common`` has no image to build, all packagegroups are
aggregated to ``packagegroup-ivi-common-core' and it is included by images,
``agl-image-ivi.bb`` and ``agl-demo-platform.bb``.

## Supported Machines

See [docs.automotivelinux.org](http://docs.automotivelinux.org)
#!/bin/sh
#
# Copyright (c) 2012, Intel Corporation.
# All rights reserved.
#
# This program is free software;  you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY;  without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See
# the GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program;  if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Modification from mkefidisk.sh provided by the Yocto project by Dominig
# to install Automotive Grade Linux (AGL) on Minnowboard and any PC with UEFI boot
#
# changes
#         - simpler use model
#         - keep initrd if present
#         - create a grub config with PARTUID to ease boot from various devices automaticaly
#         - add a UEFI startup.nsh script for autoboot
#         - remove any configured swap is fstab
#         - accept .hddimg, wic and wic.xz as sources

LANG=C

# Set to 1 to enable additional output
DEBUG=0
exec 3>/dev/null

#
# Defaults
#
# 100 Mb for the boot partition
BOOT_SIZE=100
# min available space on TMP_DIR for uncompressing xz image in kB e.g. 5G (5000000)
TMP_SIZE_MIN=5000000
# TMP_DIR directory use for holding image file for uncompression (e.g. /tmp or $HOME)
TMP_DIR=/tmp

# Cleanup after die()
cleanup() {
	debug "Syncing and unmounting devices"
	# Unmount anything we mounted
	unmount $ROOTFS_MNT || error "Failed to unmount $ROOTFS_MNT"
	unmount $BOOTFS_MNT || error "Failed to unmount $BOOTFS_MNT"
	unmount $HDDIMG_ROOTFS_MNT || error "Failed to unmount $HDDIMG_ROOTFS_MNT"
    unmount $HDDIMG_MNT || error "Failed to unmount $HDDIMG_MNT"
	if [ "$IMG_TYPE" = "DISK" ]; then
        debug "de-attaching loop devices"
        for LOOP_DEVICE in `losetup --list |grep $HDDIMG | cut -d" " -f1` ; do
           losetup -d $LOOP_DEVICE  1>&3 2>&1 || error "Detaching $LOOP_DEVICE from $HDDIMG failled"
        done   
     fi

	# Remove the TMPDIR
	debug "Removing temporary files"
	if [ -d "$TMPDIR" ]; then
		rm -rf "$TMPDIR" || error "Failed to remove $TMPDIR"
	fi
        [ -f "$TMP_DIR/TMP-AGL-wic-image.wic" ] || rm -f $TMP_DIR/TMP-AGL-wic-image.wic
}

trap 'die "Signal Received, Aborting..."' HUP INT TERM

# Logging routines
WARNINGS=0
ERRORS=0
CLEAR="$(tput sgr0)"
INFO="$(tput bold)"
RED="$(tput setaf 1)$(tput bold)"
GREEN="$(tput setaf 2)$(tput bold)"
YELLOW="$(tput setaf 3)$(tput bold)"
info() {
	echo "${INFO}$1${CLEAR}"
}
error() {
	ERRORS=$((ERRORS+1))
	echo "${RED}$1${CLEAR}"
}
warn() {
	WARNINGS=$((WARNINGS+1))
	echo "${YELLOW}$1${CLEAR}"
}
success() {
	echo "${GREEN}$1${CLEAR}"
}
die() {
	error "$1"
	cleanup
	exit 1
}
debug() {
	if [ $DEBUG -eq 1 ]; then
		echo "$1"
	fi
}

usage() {
	echo "Install AGL on a removable device to boot on IA UEFI based computer"
	echo "In particular is can create USB or SD bootable support for Minnowboard"
	echo ""
	echo "Usage: $(basename $0) [-v] IDSK_IMAGE REMOVABLE_DEVICE"
	echo "       -v: Verbose debug"
	echo "       HDDIMG: The DISK_IMAGE file generated by Yocto the efi disk from"
        echo "               Supported formats are .hddimg, .wic .wic.xz"
	echo "       REMOVABLE_DEVICE: The block device to write the image to, e.g. /dev/sdh"
	echo "ex:"
	echo "   mkefi-agl.sh   agl-demo-platform-intel-corei7-64.hddimg /dev/sdd"
        echo "   mkefi-agl.sh   agl-demo-platform-intel-corei7-64.wic.xz /dev/sdd"
	exit 1
}

image_details() {
	IMG=$1
	info "Image details"
	echo "    image: $(stat --printf '%N\n' $IMG)"
	echo "     size: $(stat -L --printf '%s bytes\n' $IMG)"
	echo " modified: $(stat -L --printf '%y\n' $IMG)"
	echo "     type: $(file -L -b $IMG)"
	echo ""
}

device_details() {
	DEV=$1
	BLOCK_SIZE=512

	info "Device details"
	echo "  device: $DEVICE"
	if [ -f "/sys/class/block/$DEV/device/vendor" ]; then
		echo "  vendor: $(cat /sys/class/block/$DEV/device/vendor)"
	else
		echo "  vendor: UNKOWN"
	fi
	if [ -f "/sys/class/block/$DEV/device/model" ]; then
		echo "   model: $(cat /sys/class/block/$DEV/device/model)"
	else
		echo "   model: UNKNOWN"
	fi
	if [ -f "/sys/class/block/$DEV/size" ]; then
		echo "    size: $(($(cat /sys/class/block/$DEV/size) * $BLOCK_SIZE)) bytes"
	else
		echo "    size: UNKNOWN"
	fi
	echo ""
}

unmount_device() {
	grep -q $DEVICE /proc/mounts
	if [ $? -eq 0 ]; then
		warn "$DEVICE listed in /proc/mounts, attempting to unmount"
		umount $DEVICE* 2>/dev/null
		! grep -q $DEVICE /proc/mounts && info "Unmounted successfully"
		return $?
	fi
	return 0
}

unmount() {
	if [ "$1" = "" ] ; then
		return 0
	fi
	grep -q $1 /proc/mounts
	if [ $? -eq 0 ]; then
		debug "Unmounting $1"
		umount $1
		! grep -q $1 /proc/mounts # check if unmounted successfully
		return $?
	fi
	return 0
}

#
# Parse and validate arguments
#
if [ "$1" != "-v" ] && [ $# -ne 2 ]; then
        usage
fi
if [ "$1" = "-v" ] && [ $# -ne 3 ]; then
        usage
fi

if [ "$1" = "-v" ] ; then
	DEBUG=1
	exec 3>&1
	shift
fi

HDDIMG=$1
DEVICE=$2

LINK=$(readlink $DEVICE)
if [ $? -eq 0 ]; then
	DEVICE="$LINK"
fi

if [ ! -w "$DEVICE" ]; then
	if [ ! -e "${DEVICE}" ] ; then
		die "Device $DEVICE cannot be found"
	else
		die "Device $DEVICE is not writable (need to run under sudo?)"
	fi
fi

if [ ! -e "$HDDIMG" ]; then
	die "HDDIMG $HDDIMG does not exist"
fi
HDDIMG_EXT=${HDDIMG##*.}
case $HDDIMG_EXT in
  hddimg)
     IMG_TYPE="MOUNT"
     IMG_COMPRESS="NO"
     debug "Detected: uncompressed image type .hddimg"
     ;;
  wic)
     IMG_TYPE="DISK"
     IMG_COMPRESS="NO"
     debug "Detected: uncompressed image type .wic"
     ;;
  xz)
     IMG_TYPE="DISK"
     IMG_COMPRESS="YES"
     debug "Detected: xz compressed image type .wic"
     command -v xz >/dev/null 2>&1 || { die "xz command is not available, pleaes install xz package"; }
     TMP_SIZE=`df -k $TMP_DIR | awk '/[0-9]%/{print $(NF-2)}'`
     if [ "$TMP_SIZE" -lt "$TMP_SIZE_MIN" ]; then
       die "Available space on $TMP_DIR must be at least $TMP_SIZE_MIN kB" 
     fi
     printf "Starting decompression of the image. It may take some time ..."
     xz --decompress --keep --format=auto --force --threads=0 --stdout > $TMP_DIR/TMP-AGL-wic-image.wic  $HDDIMG|| \
         die "xz command failled: xz --decompress --keep --format=auto --force --threads=0 --stdout > $TMP_DIR/TMP-AGL-wic-image.wic"
     HDDIMG="$TMP_DIR/TMP-AGL-wic-image.wic"
     echo "Image uncompressed, starting doing real work ..."
     ;;
  *)
     die "Unsupported image format: $HDDIMG_EXT Supported format are .hddimg .wic wic.xz"
     ;;
esac

#
# Ensure the hddimg is not mounted
#
debug "will now try to umount /detach previous images"
case $IMG_TYPE in
  MOUNT)
      unmount "$HDDIMG" || die "Failed to unmount $HDDIMG"
      ;;
  DISK)
      [ `losetup --list |grep $HDDIMG | wc -l ` -gt 1 ] && die "Image mounted more than once, manual cleaning required see: losetup --list"
      debug "ready to attach the wic image to aloop device"
      LOOP_DEVICE=`losetup --find --show $HDDIMG`  && ( losetup -d $LOOP_DEVICE  1>&3 2>&1 || die "Detaching $LOOP_DEVICE from $HDDIMG failled")
      ;;
  *)
      die "unknown image format $IMG_TYPE"
      ;;
esac

#
# Check if any $DEVICE partitions are mounted
#
unmount_device || die "Failed to unmount $DEVICE"

#
# Confirm device with user
#
image_details $HDDIMG
device_details $(basename $DEVICE)
echo -n "${INFO}Prepare EFI image on $DEVICE [y/N]?${CLEAR} "
read RESPONSE
if [ "$RESPONSE" != "y" ]; then
	die "Image creation aborted"
fi


#
# Prepare the temporary working space
#
TMPDIR=$(mktemp -d mkefidisk-XXX) || die "Failed to create temporary mounting directory."
HDDIMG_MNT=$TMPDIR/hddimg
HDDIMG_ROOTFS_MNT=$TMPDIR/hddimg_rootfs
ROOTFS_MNT=$TMPDIR/rootfs
BOOTFS_MNT=$TMPDIR/bootfs
mkdir $HDDIMG_MNT || die "Failed to create $HDDIMG_MNT"
mkdir $HDDIMG_ROOTFS_MNT || die "Failed to create $HDDIMG_ROOTFS_MNT"
mkdir $ROOTFS_MNT || die "Failed to create $ROOTFS_MNT"
mkdir $BOOTFS_MNT || die "Failed to create $BOOTFS_MNT"


#
# Partition $DEVICE
#
DEVICE_SIZE=$(parted -s $DEVICE unit mb print | grep ^Disk | cut -d" " -f 3 | sed -e "s/MB//")
# If the device size is not reported there may not be a valid label
if [ "$DEVICE_SIZE" = "" ] ; then
	parted -s $DEVICE mklabel msdos || die "Failed to create MSDOS partition table"
	DEVICE_SIZE=$(parted -s $DEVICE unit mb print | grep ^Disk | cut -d" " -f 3 | sed -e "s/MB//")
fi
ROOTFS_SIZE=$((DEVICE_SIZE-BOOT_SIZE))
ROOTFS_START=$((BOOT_SIZE))
ROOTFS_END=$((ROOTFS_START+ROOTFS_SIZE))

# MMC devices use a partition prefix character 'p'
PART_PREFIX=""
if [ ! "${DEVICE#/dev/mmcblk}" = "${DEVICE}" ] || [ ! "${DEVICE#/dev/nvme0n}" = "${DEVICE}" ] || [ ! "${DEVICE#/dev/loop}" = "${DEVICE}" ]; then
	PART_PREFIX="p"
fi
BOOTFS=$DEVICE${PART_PREFIX}1
ROOTFS=$DEVICE${PART_PREFIX}2

TARGET_PART_PREFIX=""
if [ ! "${TARGET_DEVICE#/dev/mmcblk}" = "${TARGET_DEVICE}" ] || [ ! "${TARGET_DEVICE#/dev/nvme0n}" = "${TARGET_DEVICE}" ]; then
	TARGET_PART_PREFIX="p"
fi
TARGET_ROOTFS=$TARGET_DEVICE${TARGET_PART_PREFIX}2

echo ""
info "Boot partition size:   $BOOT_SIZE MB ($BOOTFS)"
info "ROOTFS partition size: $ROOTFS_SIZE MB ($ROOTFS)"
echo ""

# Use MSDOS by default as GPT cannot be reliably distributed in disk image form
# as it requires the backup table to be on the last block of the device, which
# of course varies from device to device.

info "Partitioning installation media ($DEVICE)"

debug "Deleting partition table on $DEVICE"
dd if=/dev/zero of=$DEVICE bs=512 count=2 1>&3 2>&1 || die "Failed to zero beginning of $DEVICE"

debug "Creating new partition table (MSDOS) on $DEVICE"
parted -s $DEVICE mklabel msdos 1>&3 2>&1 || die "Failed to create MSDOS partition table"

debug "Creating boot partition on $BOOTFS"
parted -s $DEVICE mkpart primary 0% $BOOT_SIZE 1>&3 2>&1 || die "Failed to create BOOT partition"

debug "Enabling boot flag on $BOOTFS"
parted -s $DEVICE set 1 boot on 1>&3 2>&1 || die "Failed to enable boot flag"

debug "Creating ROOTFS partition on $ROOTFS"
parted -s $DEVICE mkpart primary $ROOTFS_START $ROOTFS_END 1>&3 2>&1 || die "Failed to create ROOTFS partition"

# as blkid does not provide PARTUUID on Ubuntu LTS 14.04 we myst hack via fdisk
#ROOTFS_PARTUUID=$(blkid |grep -e "$ROOTFS" |sed -n 's/^.*PARTUUID=/PARTUUID=/p')
export LC_ALL=C
ROOTFS_DISKID=$(fdisk -l "$DEVICE" | grep -e "Disk identifier" | sed -n 's/^.*Disk identifier: 0x/PARTUUID=/p')
if [ $ROOTFS_DISKID = "" ]; then
    die "Failed to read DISKID"
fi
ROOTFS_PARTUUID="$ROOTFS_DISKID-02"
debug "PARTUUID for ROOTFS is $ROOTFS_PARTUUID"

if [ $DEBUG -eq 1 ]; then
	parted -s $DEVICE print
fi


#
# Check if any $DEVICE partitions are mounted after partitioning
#
unmount_device || die "Failed to unmount $DEVICE partitions"


#
# Format $DEVICE partitions
#
info "Formatting partitions"
debug "Formatting $BOOTFS as vfat"
if [ ! "${DEVICE#/dev/loop}" = "${DEVICE}" ]; then
	mkfs.vfat -I $BOOTFS -n "EFI" 1>&3 2>&1 || die "Failed to format $BOOTFS"
else
	mkfs.vfat $BOOTFS -n "EFI" 1>&3 2>&1 || die "Failed to format $BOOTFS"
fi

debug "Formatting $ROOTFS as ext4"
mkfs.ext4 -F $ROOTFS -L "ROOT" 1>&3 2>&1 || die "Failed to format $ROOTFS"


#
# Mounting image file system on loop devices
#
case $IMG_TYPE in

  MOUNT) 
     debug "Mounting images and device in preparation for installation"
     mount -o loop $HDDIMG $HDDIMG_MNT 1>&3 2>&1 || die "Failed to mount $HDDIMG"
     mount -o loop $HDDIMG_MNT/rootfs.img $HDDIMG_ROOTFS_MNT 1>&3 2>&1 || die "Failed to mount rootfs.img"
     ;;
  DISK)
     debug "Attaching image and mounting partitions then device in preparation for installation"
     LOOP_DEVICE=`losetup --find` || die "Failled to find an available loop device see: losetup --find"
     losetup -P $LOOP_DEVICE $HDDIMG  1>&3 2>&1 || die "Attaching $LOOP_DEVICE from $HDDIMG failled"
     mount "$LOOP_DEVICE"p2  $HDDIMG_ROOTFS_MNT 1>&3 2>&1 || die "Failed to mount $LOOP_DEVICEp1 on $HDDIMG_ROOTFS_MNT"
     mount "$LOOP_DEVICE"p1  $HDDIMG_MNT       1>&3 2>&1 || die "Failed to mount $LOOP_DEVICEp2 on $HDDIMG_MNT"
     ;;
  *)
      die "unknown image format $IMG_TYPE"
      ;;
esac
# Mount removable device
     mount $ROOTFS $ROOTFS_MNT 1>&3 2>&1 || die "Failed to mount $ROOTFS on $ROOTFS_MNT"
     mount $BOOTFS $BOOTFS_MNT 1>&3 2>&1 || die "Failed to mount $BOOTFS on $BOOTFS_MNT"


info "Preparing boot partition"
EFIDIR="$BOOTFS_MNT/EFI/BOOT"
if [ -f $HDDIMG_MNT/vmlinuz ]; then
   cp $HDDIMG_MNT/vmlinuz $BOOTFS_MNT 1>&3 2>&1 || die "Failed to copy vmlinuz"
   KERNEL_TYPE="VMLINUZ"
   debug "kernel is vmlinuz"
fi
if [ -f $HDDIMG_MNT/bzimage ]; then
   cp $HDDIMG_MNT/bzimage $BOOTFS_MNT 1>&3 2>&1 || die "Failed to copy bzimage"
   KERNEL_TYPE="BZIMAGE"
   debug "kernel is bzimage"
fi
if [ -f $HDDIMG_MNT/microcode.cpio ]; then
   cp $HDDIMG_MNT/microcode.cpio $BOOTFS_MNT 1>&3 2>&1 || die "Failed to copy microcode.cpio"
   debug "microcode.cpio copied"
fi
[ -z $KERNEL_TYPE ] && die "Linux kernel type in $HDDIMG is unsupported"

if [ -f $HDDIMG_MNT/initrd ]
  then
    echo "initrd detected"
    cp $HDDIMG_MNT/initrd $BOOTFS_MNT 1>&3 2>&1 || die "Failed to copy initrd"
  else
    warn "initrd missing"
fi
echo "bootx64.efi" > $BOOTFS_MNT/startup.nsh || die "Failed to create startup.nsh"
# Copy the efi loader and configs (booti*.efi and grub.cfg if it exists)
cp -r $HDDIMG_MNT/EFI $BOOTFS_MNT 1>&3 2>&1 || die "Failed to copy EFI dir"
# Silently ignore a missing systemd-boot or gummiboot loader dir (we might just be a GRUB image)
cp -r $HDDIMG_MNT/loader $BOOTFS_MNT 1>&3 2>&1

# Update the boot loaders configurations for an installed image
# Remove any existing root= kernel parameters and:
# o Add a root= parameter with the target rootfs
# o Specify ro so fsck can be run during boot
# o Specify rootwait in case the target media is an asyncronous block device
#   such as MMC or USB disks
# o Specify "quiet" to minimize boot time when using slow serial consoles

# Look for a GRUB installation
GRUB_CFG="$EFIDIR/grub.cfg"
if [ -e "$GRUB_CFG" ]; then
	info "Configuring GRUB"
	# Delete the install entry
	sed -i "/menuentry 'install'/,/^}/d" $GRUB_CFG
	# Delete any LABEL= strings
	sed -i "s/ LABEL=[^ ]*/ /" $GRUB_CFG
        # detect config initrd=microcode.cpio
        if  grep -q microcode $GRUB_CFG; then
            warn "initrd=microcode.cpio detected, might not work on all boot configurations"
        fi
	sed -i "s@ root=[^ ]*@ @" $GRUB_CFG
	sed -i "s@vmlinuz @vmlinuz root=$ROOTFS_PARTUUID @" $GRUB_CFG
fi

# look for a systemd-boot loader.conf file and create a default boot entry
SYSTEMDBOOT_CFG="$BOOTFS_MNT/loader/loader.conf"
if [ -e "$SYSTEMDBOOT_CFG" ]; then
	info "Configuring SYSTEMD-BOOT"
    SYSTEMDBOOT_BOOT="$BOOTFS_MNT/loader/entries/boot.conf"
    SYSTEMDBOOT_DEBUG="$BOOTFS_MNT/loader/entries/debug.conf"
    # Delete the install entry
	sed -i "/menuentry 'install'/,/^}/d" $SYSTEMDBOOT_CFG
	rm -rf "$BOOTFS_MNT/loader/entries/install.conf" 1>&3 2>&1
	# Add PARTUUID to the boot entry file
	if [ ! -e "$SYSTEMDBOOT_BOOT" ]; then
        die "no boot.conf entry found in systemd-boot directories"
    fi
	# Delete any LABEL= strings
	sed -i "s/ LABEL=[^ ]*/ /" $SYSTEMDBOOT_BOOT
        # detect config initrd=microcode.cpio
        if  grep -q microcode $SYSTEMDBOOT_BOOT; then
            warn "initrd=microcode.cpio detected, might not work on all boot configurations"
        fi
	sed -i "s@ root=[^ ]*@ @" $SYSTEMDBOOT_BOOT
	sed -i "s@options @options root=$ROOTFS_PARTUUID @" $SYSTEMDBOOT_BOOT
fi


# Ensure we have at least one EFI bootloader configured
if [ ! -e $GRUB_CFG ]  && [ ! -e $SYSTEMDBOOT_CFG ] ; then
	die "No EFI bootloader configuration found"
fi

printf "Copying ROOTFS files ... "
command -v rsync >/dev/null 2>&1 # check if rsync exists
if [ $DEBUG -eq 1 ] && [ $? -eq 0 ]; then
	rsync --info=progress2 -h -aHAXW --no-compress  $HDDIMG_ROOTFS_MNT/* $ROOTFS_MNT 1>&3 2>&1 || die "Root FS copy failed"
else
	cp -a $HDDIMG_ROOTFS_MNT/* $ROOTFS_MNT 1>&3 2>&1 || die "Root FS copy failed"
fi
debug "removing any swap entry in /etc/fstab"
sed --in-place '/swap/d' $ROOTFS_MNT/etc/fstab 

printf "flushing data on removable device. May take a while ... "
sync --file-system $ROOTFS_MNT
echo done

# We dont want udev to mount our root device while we're booting...
if [ -d $ROOTFS_MNT/etc/udev/ ] ; then
	echo "$TARGET_DEVICE" >> $ROOTFS_MNT/etc/udev/mount.blacklist
fi


# Call cleanup to unmount devices and images and remove the TMPDIR
cleanup

echo ""
if [ $WARNINGS -ne 0 ] && [ $ERRORS -eq 0 ]; then
	echo "${YELLOW}Installation completed with warnings${CLEAR}"
	echo "${YELLOW}Warnings: $WARNINGS${CLEAR}"
elif [ $ERRORS -ne 0 ]; then
	echo "${RED}Installation encountered errors${CLEAR}"
	echo "${RED}Errors: $ERRORS${CLEAR}"
	echo "${YELLOW}Warnings: $WARNINGS${CLEAR}"
else
	success "Installation completed successfully"
fi
echo ""