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mender-convert-package
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mender-convert-package
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#! /usr/bin/env bash
#
# Copyright 2021 Northern.tech AS
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# Default that can be overridden by providing this method in a
# configuration file passed with '--config'
function platform_package() {
true
}
PLATFORM_PACKAGE_HOOKS=(platform_package)
function trap_exit() {
echo "mender-convert-package has finished. Cleaning up..."
sudo umount -f work/boot > /dev/null 2>&1 || true
sudo umount -f work/rootfs > /dev/null 2>&1 || true
}
function trap_term() {
true
}
trap trap_term INT TERM
trap trap_exit EXIT
echo "Running $(basename $0): $@"
source modules/bootstrap.sh
source modules/disk.sh
source modules/testscfg.sh
source modules/versioncmp.sh
# The mender_convert_config is always used and provides all the defaults
declare -a configs=("configs/mender_convert_config")
while (("$#")); do
case "$1" in
-o | --overlay)
overlays+=("${2}")
shift 2
;;
-c | --config)
configs+=("${2}")
shift 2
;;
-d | --disk-image)
disk_image="${2}"
shift 2
;;
*)
log_fatal "Sorry but the provided option is not supported: $1"
;;
esac
done
# Note the use of %q formatting here. This is a bash feature to add
# proper quoting to the strings so that spaces and special characters
# will be treated properly. Primarily for supporting spaces in
# pathnames and avoid splitting those into multiple parameters.
source modules/config.sh $(printf "%q " "${configs[@]}")
PARTED="/usr/bin/parted"
if [ ! -f ${PARTED} ]; then
PARTED="/sbin/parted"
fi
output_dir=work
boot_part=$(disk_boot_part)
root_part=$(disk_root_part)
# Sysfs device paths
boot_part_device=$(disk_boot_part_device)
data_part_device=$(disk_data_part_device)
root_part_a_device=$(disk_root_part_a_device)
root_part_b_device=$(disk_root_part_b_device)
# Final output
mkdir -p deploy
# Create mount points
mkdir -p work/boot
mkdir -p work/rootfs
sudo mount ${boot_part} work/boot
sudo mount ${root_part} work/rootfs
# Convert to 512 blocks
disk_image_total_sectors=$(disk_mb_to_sectors ${MENDER_STORAGE_TOTAL_SIZE_MB})
boot_part_sectors=$(disk_mb_to_sectors ${MENDER_BOOT_PART_SIZE_MB})
data_part_sectors=$(disk_mb_to_sectors ${MENDER_DATA_PART_SIZE_MB})
alignment_sectors=$((${MENDER_PARTITION_ALIGNMENT} / 512))
if [ "${MENDER_GRUB_EFI_INTEGRATION}" == "y" ]; then
boot_part_start=${alignment_sectors}
overhead_sectors=$((${alignment_sectors} * 4))
else
# The two first blocks are typically reserved for U-boot environment.
boot_part_start=$((${alignment_sectors} * 3))
overhead_sectors=$((${alignment_sectors} * 6))
fi
# Validate boot-gap.bin size, ensuring it will fit between MBR and boot_part_start
if [ "${MENDER_COPY_BOOT_GAP}" == "y" ]; then
# Add one block for MBR
boot_gap_sectors=$(($(stat --printf="%b" work/boot-gap.bin) + 1))
if [ ${boot_gap_sectors} -ge ${boot_part_start} ]; then
log_warn "The work/boot-gap.bin file will overwrite the boot partition"
log_fatal "Please increase MENDER_PARTITION_ALIGNMENT (2x will typically solve this))"
fi
fi
# Validate boot part size
actual_boot_size=$(du --apparent-size -s --block-size=512 ${boot_part} | cut -f 1)
if [ ${actual_boot_size} -gt ${boot_part_sectors} ]; then
log_warn "The allocated boot part size $(disk_sectors_to_mb ${boot_part_sectors}) MiB is too small."
log_warn "The actual boot part size is $(disk_sectors_to_mb ${actual_boot_size}) MiB"
log_warn "Will adjust MENDER_BOOT_PART_SIZE_MB automatically"
log_warn "Consider adjusting the configuration file to avoid this message"
boot_part_sectors=${actual_boot_size}
fi
# Make sure that the boot part sector size is aligned to
# MENDER_PARTITION_ALIGNMENT, it is possible that the boot part is extracted
# as-is from the input image, and the input image might not have used the same
# alignment as our configuration
boot_part_sectors=$(disk_align_sectors ${boot_part_sectors} ${MENDER_PARTITION_ALIGNMENT})
# Calculate rootfs size
rootfs_part_sectors=$(((${disk_image_total_sectors} - ${data_part_sectors} - \
${boot_part_sectors} - ${overhead_sectors}) / 2))
# Make sure rootfs size is aligned to MENDER_PARTITION_ALIGNMENT
rootfs_part_sectors=$(disk_align_sectors ${rootfs_part_sectors} ${MENDER_PARTITION_ALIGNMENT})
device_type=$(cat work/rootfs/data/mender/device_type | sed 's/[^=]*=//')
# Get the name from the input disk_image
temp_img_name=$(basename "$disk_image")
# Check if user has chosen custom filename
if [ -z "${DEPLOY_IMAGE_NAME}" ]; then
# Strip the image suffix from temp_img_name and set the original image name as
# the output image name
image_name="${temp_img_name%.*}"
# Add device types to the filename and replaces whitespace with + to seperate device types.
image_name="${image_name}-$(sed 's| |+|g' <<< $device_type)-mender"
else
# User has choosen custom filename in config file
image_name=$DEPLOY_IMAGE_NAME
fi
# NOTE: Since the data partition has a dependency on the rootfs.img checksum
# when writing the bootstrap Artifact we have to move the datadir out of the
# way, and write the rootfs image first.
run_and_log_cmd "mv --force work/rootfs/data work/data"
# Make a folder we can mount it on though.
run_and_log_cmd "mkdir work/rootfs/data"
actual_rootfs_size=$(sudo du -s --block-size=512 work/rootfs | cut -f 1)
# KiB -> 512 sectors
image_rootfs_size_sectors=$((${IMAGE_ROOTFS_SIZE} * 2))
if [ "${IMAGE_ROOTFS_SIZE}" -eq -1 ]; then
rootfs_image_sectors="${rootfs_part_sectors}"
elif [ "${image_rootfs_size_sectors}" -lt "${actual_rootfs_size}" ]; then
rootfs_image_sectors="${actual_rootfs_size}"
else
rootfs_image_sectors="${image_rootfs_size_sectors}"
fi
rootfs_image_sectors=$((${rootfs_image_sectors} + ${IMAGE_ROOTFS_EXTRA_SPACE} * 2))
rootfs_image_sectors_overhead=$(awk -v r1="$actual_rootfs_size" "BEGIN{printf \"%.0f\", r1 * ${IMAGE_OVERHEAD_FACTOR}}")
if [ "${rootfs_image_sectors_overhead}" -gt "${rootfs_image_sectors}" ]; then
rootfs_image_sectors="${rootfs_image_sectors_overhead}"
fi
if [ ${rootfs_image_sectors} -gt ${rootfs_part_sectors} ]; then
log_warn "The calculated rootfs partition size $(disk_sectors_to_mb ${rootfs_part_sectors}) MiB is too small."
log_warn "The actual rootfs image size is $(disk_sectors_to_mb ${rootfs_image_sectors}) MiB"
log_fatal "You can try adjusting the MENDER_STORAGE_TOTAL_SIZE_MB variable to increase available space, or modify one of the variables IMAGE_ROOTFS_SIZE, IMAGE_ROOTFS_EXTRA_SPACE or IMAGE_OVERHEAD_FACTOR to reduce the size of the root filesystem."
fi
log_info "Rootfs filesystem size will be $(disk_sectors_to_mb ${rootfs_image_sectors}) MiB"
# Extract file-system type from rootfs
if file ${root_part} | grep -q ext4; then
image_fs_type="ext4"
elif file ${root_part} | grep -q ext3; then
image_fs_type="ext3"
elif file ${root_part} | grep -q XFS; then
image_fs_type="xfs"
elif file ${root_part} | grep -q BTRFS; then
image_fs_type="btrfs"
else
log_warn "$(file ${root_part})"
log_fatal "Could not determine root file-system type. Aborting..."
fi
if [[ "${MENDER_CLIENT_INSTALL}" == y ]]; then
# If the client version is less than 3.4, then log a warning
if ! minimum_required_version "3.4.0" "${MENDER_CLIENT_VERSION}"; then
log_warn "You are now installing a Mender client which does not support the "
log_warn "bootstrap Artifact present in the image. This means that updates will not "
log_warn "work, and your image is impossible to update"
fi
fi
disk_create_file_system_from_folder "work/rootfs/" "work/rootfs.img" \
"${rootfs_image_sectors}" "${image_fs_type}"
log_info "Copying root filesystem image to deploy directory"
run_and_log_cmd "cp --sparse=always work/rootfs.img deploy/${image_name}.${image_fs_type}"
# Add the bootstrap Artifact to the data.img before packaging
# the data image
log_info "Installing the bootstrap Artifact"
rootfs_img_checksum=$(sha256sum work/rootfs.img | cut -d ' ' -f1)
run_and_log_cmd "mender-artifact write bootstrap-artifact \
--artifact-name "${MENDER_ARTIFACT_NAME}" \
--no-progress \
--device-type "${device_type}" \
--provides rootfs-image.version:"${MENDER_ARTIFACT_NAME}" \
--provides rootfs-image.checksum:${rootfs_img_checksum} \
--clears-provides 'rootfs-image.*' \
--output-path work/data/mender/bootstrap.mender"
disk_create_file_system_from_folder "work/data/" "work/data.img" \
"${data_part_sectors}" "${image_fs_type}"
run_and_log_cmd "rm -rf work/data"
if [ "${MENDER_CLIENT_INSTALL}" != "y" ]; then
log_warn "Generating Artifact with no Mender client in it; not suitable for deployment"
fi
mender_create_artifact "${device_type}" "${MENDER_ARTIFACT_NAME}" "${image_name}"
log_info "Creating Mender compatible disk-image"
img_path="deploy/${image_name}.img"
log_info "Total disk size: $(disk_sectors_to_mb ${disk_image_total_sectors}) MiB"
log_info " Boot partition $(disk_sectors_to_mb ${boot_part_sectors}) MiB"
log_info " RootFS partitions $(disk_sectors_to_mb ${rootfs_part_sectors}) MiB x 2"
log_info " Data partition $(disk_sectors_to_mb ${data_part_sectors}) MiB"
# Initialize sdcard image file
run_and_log_cmd \
"dd if=/dev/zero of=${img_path} bs=512 count=0 seek=${disk_image_total_sectors} status=none"
# boot_part_start, is defined at the beginning of this file
boot_part_end=$((${boot_part_start} + ${boot_part_sectors} - 1))
rootfsa_start=$(disk_align_sectors ${boot_part_end} ${MENDER_PARTITION_ALIGNMENT})
rootfsa_end=$((${rootfsa_start} + ${rootfs_part_sectors} - 1))
rootfsb_start=$(disk_align_sectors ${rootfsa_end} ${MENDER_PARTITION_ALIGNMENT})
rootfsb_end=$((${rootfsb_start} + ${rootfs_part_sectors} - 1))
data_start=$(disk_align_sectors ${rootfsb_end} ${MENDER_PARTITION_ALIGNMENT})
data_end=$((${data_start} + ${data_part_sectors} - 1))
if [ -n "${MENDER_PARTITION_SCHEME}" ]; then
# Force partition scheme to the one from configs
partition_scheme="${MENDER_PARTITION_SCHEME}"
log_info "Forcing partition scheme defined by MENDER_PARTITION_SCHEME to: ${partition_scheme}"
else
# By default use the partition scheme from the input image
partition_scheme=$(disk_get_part_value ${disk_image} 1 SCHEME)
log_info "Using input diskimage partition scheme (${partition_scheme})"
fi
# Create partition table.
if [ "${partition_scheme}" == "gpt" ]; then
log_info "Writing GPT partition table"
run_and_log_cmd "${PARTED} -s ${img_path} mklabel gpt"
run_and_log_cmd "${PARTED} -s ${img_path} unit s mkpart ESP fat32 ${boot_part_start} ${boot_part_end}"
# Keep the uuid of the original gpt table for the boot partition
boot_partuuid=$(disk_get_part_value "${disk_image}" 1 UUID)
log_info "Updating GPT partition uuid of the boot partition in image: ${img_path} to ${boot_partuuid}"
run_and_log_cmd "sgdisk -u ${MENDER_BOOT_PART_NUMBER}:${boot_partuuid} '${img_path}'"
else
log_info "Writing DOS (MBR) partition table"
run_and_log_cmd "${PARTED} -s ${img_path} mklabel msdos"
run_and_log_cmd "${PARTED} -s ${img_path} unit s mkpart primary fat32 ${boot_part_start} ${boot_part_end}"
fi
run_and_log_cmd "${PARTED} -s ${img_path} set 1 boot on"
run_and_log_cmd "${PARTED} -s ${img_path} -- unit s mkpart primary ext4 ${rootfsa_start} ${rootfsa_end}"
run_and_log_cmd "${PARTED} -s ${img_path} -- unit s mkpart primary ext4 ${rootfsb_start} ${rootfsb_end}"
run_and_log_cmd "${PARTED} -s ${img_path} -- unit s mkpart primary ext4 ${data_start} ${data_end}"
run_and_log_cmd "${PARTED} -s ${img_path} print"
# Update partition uuids if required
if [ "${MENDER_ENABLE_PARTUUID}" == "y" ]; then
boot_partuuid=$(disk_get_partuuid_from_device "${boot_part_device}")
rootfsa_partuuid=$(disk_get_partuuid_from_device "${root_part_a_device}")
rootfsb_partuuid=$(disk_get_partuuid_from_device "${root_part_b_device}")
data_partuuid=$(disk_get_partuuid_from_device "${data_part_device}")
if [ "${partition_scheme}" == "gpt" ]; then
log_info "Updating GPT partition uuids in image: '${img_path}'"
run_and_log_cmd "sgdisk -u ${MENDER_BOOT_PART_NUMBER}:${boot_partuuid} '${img_path}'"
run_and_log_cmd "sgdisk -u ${MENDER_ROOTFS_PART_A_NUMBER}:${rootfsa_partuuid} '${img_path}'"
run_and_log_cmd "sgdisk -u ${MENDER_ROOTFS_PART_B_NUMBER}:${rootfsb_partuuid} '${img_path}'"
run_and_log_cmd "sgdisk -u ${MENDER_DATA_PART_NUMBER}:${data_partuuid} '${img_path}'"
else
diskid=$(disk_get_partuuid_dos_diskid_from_device "${root_part_a_device}")
log_info "Updating MBR disk identifier for partition uuid support to: '0x${diskid}'"
run_and_log_cmd "xxd -r -p <<< '${diskid}' | LC_ALL=C rev | dd of='${img_path}' bs=1 seek=440 count=4 conv=notrunc"
fi
fi
# Write boot-gap
if [ "${MENDER_COPY_BOOT_GAP}" == "y" ]; then
log_info "Writing boot gap of size: ${boot_part_sectors} (sectors)"
disk_write_at_offset "${output_dir}/boot-gap.bin" "${img_path}" "1"
fi
# Unmount filesystem image files
run_and_log_cmd "sudo umount -f work/boot"
run_and_log_cmd "sudo umount -f work/rootfs"
# Burn Partitions
log_info "Writing boot partition image"
disk_write_at_offset "${boot_part}" "${img_path}" "${boot_part_start}"
log_info "Writing rootfsa partition image"
disk_write_at_offset "${output_dir}/rootfs.img" "${img_path}" "${rootfsa_start}"
log_info "Writing rootfsb partition image"
disk_write_at_offset "${output_dir}/rootfs.img" "${img_path}" "${rootfsb_start}"
log_info "Writing data partition image"
disk_write_at_offset "${output_dir}/data.img" "${img_path}" "${data_start}"
log_info "Performing platform specific package operations (if any)"
for hook in "${PLATFORM_PACKAGE_HOOKS[@]}"; do
log_info "Running hook: $hook"
eval $hook
done
# Create bmap index
if [ "${MENDER_USE_BMAP}" == "y" ]; then
BMAP_TOOL="/usr/bin/bmaptool"
if [ ! -e "${BMAP_TOOL}" ]; then
log_error "You have enabled the MENDER_USE_BMAP option, but we could not find the required 'bmaptool'"
log_fatal "You can install 'bmaptool' with: apt-get install bmap-tools (on Debian based distributions)"
fi
run_and_log_cmd "${BMAP_TOOL} create ${img_path} > ${img_path}.bmap"
fi
case "${MENDER_COMPRESS_DISK_IMAGE}" in
gzip)
log_info "Compressing ${img_path}.gz"
run_and_log_cmd "pigz --best --force ${img_path}"
;;
zip)
log_info "Compressing ${img_path}.zip"
zip -9 "${img_path}.zip" "${img_path}"
;;
lzma)
log_info "Compressing ${img_path}.xz"
run_and_log_cmd "pxz --best --force ${img_path}"
;;
none)
:
;;
*)
log_fatal "Unknown MENDER_COMPRESS_DISK_IMAGE value: ${MENDER_COMPRESS_DISK_IMAGE}"
;;
esac
log_info "Conversion has completed! \o/"
##################### Create configuration file for tests ######################
mender_features="mender-convert"
if [ -z "${MENDER_BOOT_PART_MOUNT_LOCATION:-}" ]; then
if [ "${MENDER_GRUB_EFI_INTEGRATION}" == "y" ]; then
MENDER_BOOT_PART_MOUNT_LOCATION="/boot/efi"
else
MENDER_BOOT_PART_MOUNT_LOCATION="/uboot"
fi
fi
if [ "${MENDER_GRUB_EFI_INTEGRATION}" == "y" ]; then
# This is the name of the MENDER_FEATURES in Yocto
bootloader_feature="mender-grub"
else
# This is the name of the MENDER_FEATURES in Yocto
bootloader_feature="mender-uboot"
fi
mender_features="${mender_features} ${bootloader_feature}"
if [ "${MENDER_CLIENT_INSTALL}" = "y" ]; then
mender_features="${mender_features} mender-client-install"
fi
testscfg_add "MENDER_BOOT_PART" "${boot_part_device}"
testscfg_add "MENDER_ROOTFS_PART_A" "${root_part_a_device}"
testscfg_add "MENDER_ROOTFS_PART_B" "${root_part_b_device}"
testscfg_add "MENDER_DATA_PART" "${data_part_device}"
testscfg_add "MENDER_BOOT_PART_MOUNT_LOCATION" "${MENDER_BOOT_PART_MOUNT_LOCATION}"
testscfg_add "MENDER_BOOT_PART_SIZE_MB" "$(disk_sectors_to_mb ${boot_part_sectors})"
testscfg_add "MENDER_DATA_PART_SIZE_MB" "${MENDER_DATA_PART_SIZE_MB}"
testscfg_add "MENDER_DEVICE_TYPE" "${device_type}"
testscfg_add "MENDER_PARTITIONING_OVERHEAD_KB" "$(((${overhead_sectors} * 512) / 1024))"
testscfg_add "MENDER_PARTITION_ALIGNMENT" "${MENDER_PARTITION_ALIGNMENT}"
testscfg_add "MENDER_STORAGE_TOTAL_SIZE_MB" "${MENDER_STORAGE_TOTAL_SIZE_MB}"
testscfg_add "MENDER_UBOOT_ENV_STORAGE_DEVICE_OFFSET" "12582912"
testscfg_add "MENDER_ARTIFACT_NAME" "${MENDER_ARTIFACT_NAME}"
testscfg_add "MENDER_FEATURES" "${mender_features}"
testscfg_add "DEPLOY_DIR_IMAGE" "${PWD}/deploy"
testscfg_add "MENDER_MACHINE" "${device_type}"
testscfg_add "MENDER_GRUB_D_INTEGRATION" "${MENDER_GRUB_D_INTEGRATION}"
# Outputting device base only relevant for some configurations
if [ "${MENDER_ENABLE_PARTUUID}" != "y" ]; then
testscfg_add "MENDER_STORAGE_DEVICE_BASE" "${MENDER_STORAGE_DEVICE_BASE}"
fi
# Something that the tests expect to be defined (originally from Yocto)
if [ "$MENDER_GRUB_EFI_INTEGRATION" = "y" ]; then
testscfg_add "IMAGE_FSTYPES" "${image_fs_type} mender uefiimg"
else
testscfg_add "IMAGE_FSTYPES" "${image_fs_type} mender sdimg"
fi
testscfg_add "ARTIFACTIMG_FSTYPE" "${image_fs_type}"
# Save configuration file for tests
testscfg_save deploy/${image_name}.cfg