gluon/patches/openwrt/0019-ipq40xx-Change-name-for-openmesh.sh-to-vendor-free-name.patch

From: Sven Eckelmann <sven@narfation.org>
Date: Sat, 21 Nov 2020 22:27:11 +0100
Subject: ipq40xx: Change name for openmesh.sh to vendor-free name

Other vendors are using functionality similar to the ones OpenMesh used to
implement two areas on the flash to store the default image and a fallback
image. So just change the name to dualboot_datachk.sh to avoid duplicated
code just to have the same script for different vendors.

Signed-off-by: Sven Eckelmann <sven@narfation.org>
Origin: backport, https://github.com/openwrt/openwrt/commit/8a891bfaa01d9592ea86c6b0cbbd5c04688c09f8

diff --git a/target/linux/ipq40xx/base-files/lib/upgrade/dualboot_datachk.sh b/target/linux/ipq40xx/base-files/lib/upgrade/dualboot_datachk.sh
new file mode 100644
index 0000000000000000000000000000000000000000..807a85d43ccd57642b52e7c1a7f92295cb6cd036
--- /dev/null
+++ b/target/linux/ipq40xx/base-files/lib/upgrade/dualboot_datachk.sh
@@ -0,0 +1,106 @@
+# The U-Boot loader with the datachk patchset for dualbooting requires image
+# sizes and checksums to be provided in the U-Boot environment.
+# The devices come with 2 main partitions - while one is active
+# sysupgrade will flash the other. The boot order is changed to boot the
+# newly flashed partition. If the new partition can't be booted due to
+# upgrade failures the previously used partition is loaded.
+
+platform_do_upgrade_dualboot_datachk() {
+	local tar_file="$1"
+	local restore_backup
+	local primary_kernel_mtd
+
+	local setenv_script="/tmp/fw_env_upgrade"
+
+	local kernel_mtd="$(find_mtd_index $PART_NAME)"
+	local kernel_offset="$(cat /sys/class/mtd/mtd${kernel_mtd}/offset)"
+	local total_size="$(cat /sys/class/mtd/mtd${kernel_mtd}/size)"
+
+	# detect to which flash region the new image is written to.
+	#
+	# 1. check what is the mtd index for the first flash region on this
+	#    device
+	# 2. check if the target partition ("inactive") has the mtd index of
+	#    the first flash region
+	#
+	#    - when it is: the new bootseq will be 1,2 and the first region is
+	#      modified
+	#    - when it isnt: bootseq will be 2,1 and the second region is
+	#      modified
+	#
+	# The detection has to be done via the hardcoded mtd partition because
+	# the current boot might be done with the fallback region. Let us
+	# assume that the current bootseq is 1,2. The bootloader detected that
+	# the image in flash region 1 is corrupt and thus switches to flash
+	# region 2. The bootseq in the u-boot-env is now still the same and
+	# the sysupgrade code can now only rely on the actual mtd indexes and
+	# not the bootseq variable to detect the currently booted flash
+	# region/image.
+	#
+	# In the above example, an implementation which uses bootseq ("1,2") to
+	# detect the currently booted image would assume that region 1 is booted
+	# and then overwrite the variables for the wrong flash region (aka the
+	# one which isn't modified). This could result in a device which doesn't
+	# boot anymore to Linux until it was reflashed with ap51-flash.
+	local next_boot_part="1"
+	case "$(board_name)" in
+	openmesh,a42)
+		primary_kernel_mtd=8
+		;;
+	openmesh,a62)
+		primary_kernel_mtd=10
+		;;
+	*)
+		echo "failed to detect primary kernel mtd partition for board"
+		return 1
+		;;
+	esac
+	[ "$kernel_mtd" = "$primary_kernel_mtd" ] || next_boot_part="2"
+
+	local board_dir=$(tar tf $tar_file | grep -m 1 '^sysupgrade-.*/$')
+	board_dir=${board_dir%/}
+
+	local kernel_length=$(tar xf $tar_file ${board_dir}/kernel -O | wc -c)
+	local rootfs_length=$(tar xf $tar_file ${board_dir}/root -O | wc -c)
+	# rootfs without EOF marker
+	rootfs_length=$((rootfs_length-4))
+
+	local kernel_md5=$(tar xf $tar_file ${board_dir}/kernel -O | md5sum); kernel_md5="${kernel_md5%% *}"
+	# md5 checksum of rootfs with EOF marker
+	local rootfs_md5=$(tar xf $tar_file ${board_dir}/root -O | dd bs=1 count=$rootfs_length | md5sum); rootfs_md5="${rootfs_md5%% *}"
+
+	#
+	# add tar support to get_image() to use default_do_upgrade() instead?
+	#
+
+	# take care of restoring a saved config
+	[ -n "$UPGRADE_BACKUP" ] && restore_backup="${MTD_CONFIG_ARGS} -j ${UPGRADE_BACKUP}"
+
+	mtd -q erase inactive
+	tar xf $tar_file ${board_dir}/root -O | mtd -n -p $kernel_length $restore_backup write - $PART_NAME
+	tar xf $tar_file ${board_dir}/kernel -O | mtd -n write - $PART_NAME
+
+	# prepare new u-boot env
+	if [ "$next_boot_part" = "1" ]; then
+		echo "bootseq 1,2" > $setenv_script
+	else
+		echo "bootseq 2,1" > $setenv_script
+	fi
+
+	printf "kernel_size_%i 0x%08x\n" $next_boot_part $kernel_length >> $setenv_script
+	printf "vmlinux_start_addr 0x%08x\n" ${kernel_offset} >> $setenv_script
+	printf "vmlinux_size 0x%08x\n" ${kernel_length} >> $setenv_script
+	printf "vmlinux_checksum %s\n" ${kernel_md5} >> $setenv_script
+
+	printf "rootfs_size_%i 0x%08x\n" $next_boot_part $((total_size-kernel_length)) >> $setenv_script
+	printf "rootfs_start_addr 0x%08x\n" $((kernel_offset+kernel_length)) >> $setenv_script
+	printf "rootfs_size 0x%08x\n" ${rootfs_length} >> $setenv_script
+	printf "rootfs_checksum %s\n" ${rootfs_md5} >> $setenv_script
+
+	# store u-boot env changes
+	mkdir -p /var/lock
+	fw_setenv -s $setenv_script || {
+		echo "failed to update U-Boot environment"
+		return 1
+	}
+}
diff --git a/target/linux/ipq40xx/base-files/lib/upgrade/openmesh.sh b/target/linux/ipq40xx/base-files/lib/upgrade/openmesh.sh
deleted file mode 100644
index 8e02186eb81b17d56d0cb8ceba95dbe506e2984b..0000000000000000000000000000000000000000
--- a/target/linux/ipq40xx/base-files/lib/upgrade/openmesh.sh
+++ /dev/null
@@ -1,106 +0,0 @@
-# The U-Boot loader of the OpenMesh devices requires image sizes and
-# checksums to be provided in the U-Boot environment.
-# The OpenMesh devices come with 2 main partitions - while one is active
-# sysupgrade will flash the other. The boot order is changed to boot the
-# newly flashed partition. If the new partition can't be booted due to
-# upgrade failures the previously used partition is loaded.
-
-platform_do_upgrade_openmesh() {
-	local tar_file="$1"
-	local restore_backup
-	local primary_kernel_mtd
-
-	local setenv_script="/tmp/fw_env_upgrade"
-
-	local kernel_mtd="$(find_mtd_index $PART_NAME)"
-	local kernel_offset="$(cat /sys/class/mtd/mtd${kernel_mtd}/offset)"
-	local total_size="$(cat /sys/class/mtd/mtd${kernel_mtd}/size)"
-
-	# detect to which flash region the new image is written to.
-	#
-	# 1. check what is the mtd index for the first flash region on this
-	#    device
-	# 2. check if the target partition ("inactive") has the mtd index of
-	#    the first flash region
-	#
-	#    - when it is: the new bootseq will be 1,2 and the first region is
-	#      modified
-	#    - when it isnt: bootseq will be 2,1 and the second region is
-	#      modified
-	#
-	# The detection has to be done via the hardcoded mtd partition because
-	# the current boot might be done with the fallback region. Let us
-	# assume that the current bootseq is 1,2. The bootloader detected that
-	# the image in flash region 1 is corrupt and thus switches to flash
-	# region 2. The bootseq in the u-boot-env is now still the same and
-	# the sysupgrade code can now only rely on the actual mtd indexes and
-	# not the bootseq variable to detect the currently booted flash
-	# region/image.
-	#
-	# In the above example, an implementation which uses bootseq ("1,2") to
-	# detect the currently booted image would assume that region 1 is booted
-	# and then overwrite the variables for the wrong flash region (aka the
-	# one which isn't modified). This could result in a device which doesn't
-	# boot anymore to Linux until it was reflashed with ap51-flash.
-	local next_boot_part="1"
-	case "$(board_name)" in
-	openmesh,a42)
-		primary_kernel_mtd=8
-		;;
-	openmesh,a62)
-		primary_kernel_mtd=10
-		;;
-	*)
-		echo "failed to detect primary kernel mtd partition for board"
-		return 1
-		;;
-	esac
-	[ "$kernel_mtd" = "$primary_kernel_mtd" ] || next_boot_part="2"
-
-	local board_dir=$(tar tf $tar_file | grep -m 1 '^sysupgrade-.*/$')
-	board_dir=${board_dir%/}
-
-	local kernel_length=$(tar xf $tar_file ${board_dir}/kernel -O | wc -c)
-	local rootfs_length=$(tar xf $tar_file ${board_dir}/root -O | wc -c)
-	# rootfs without EOF marker
-	rootfs_length=$((rootfs_length-4))
-
-	local kernel_md5=$(tar xf $tar_file ${board_dir}/kernel -O | md5sum); kernel_md5="${kernel_md5%% *}"
-	# md5 checksum of rootfs with EOF marker
-	local rootfs_md5=$(tar xf $tar_file ${board_dir}/root -O | dd bs=1 count=$rootfs_length | md5sum); rootfs_md5="${rootfs_md5%% *}"
-
-	#
-	# add tar support to get_image() to use default_do_upgrade() instead?
-	#
-
-	# take care of restoring a saved config
-	[ -n "$UPGRADE_BACKUP" ] && restore_backup="${MTD_CONFIG_ARGS} -j ${UPGRADE_BACKUP}"
-
-	mtd -q erase inactive
-	tar xf $tar_file ${board_dir}/root -O | mtd -n -p $kernel_length $restore_backup write - $PART_NAME
-	tar xf $tar_file ${board_dir}/kernel -O | mtd -n write - $PART_NAME
-
-	# prepare new u-boot env
-	if [ "$next_boot_part" = "1" ]; then
-		echo "bootseq 1,2" > $setenv_script
-	else
-		echo "bootseq 2,1" > $setenv_script
-	fi
-
-	printf "kernel_size_%i 0x%08x\n" $next_boot_part $kernel_length >> $setenv_script
-	printf "vmlinux_start_addr 0x%08x\n" ${kernel_offset} >> $setenv_script
-	printf "vmlinux_size 0x%08x\n" ${kernel_length} >> $setenv_script
-	printf "vmlinux_checksum %s\n" ${kernel_md5} >> $setenv_script
-
-	printf "rootfs_size_%i 0x%08x\n" $next_boot_part $((total_size-kernel_length)) >> $setenv_script
-	printf "rootfs_start_addr 0x%08x\n" $((kernel_offset+kernel_length)) >> $setenv_script
-	printf "rootfs_size 0x%08x\n" ${rootfs_length} >> $setenv_script
-	printf "rootfs_checksum %s\n" ${rootfs_md5} >> $setenv_script
-
-	# store u-boot env changes
-	mkdir -p /var/lock
-	fw_setenv -s $setenv_script || {
-		echo "failed to update U-Boot environment"
-		return 1
-	}
-}
diff --git a/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh b/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh
index 7253139497a8a8b9fab49cef3fce5eabe98d8002..66e23b77a7bb0a484e88a11eed9d526e4fc04b50 100644
--- a/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh
+++ b/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh
@@ -75,7 +75,7 @@ platform_do_upgrade() {
 	openmesh,a42 |\
 	openmesh,a62)
 		PART_NAME="inactive"
-		platform_do_upgrade_openmesh "$1"
+		platform_do_upgrade_dualboot_datachk "$1"
 		;;
 	zyxel,nbg6617)
 		zyxel_do_upgrade "$1"
ipq40xx: add support for Plasma Cloud PA1200 2020-11-22 13:02:32 +00:00			`From: Sven Eckelmann <sven@narfation.org>`
			`Date: Sat, 21 Nov 2020 22:27:11 +0100`
			`Subject: ipq40xx: Change name for openmesh.sh to vendor-free name`

			`Other vendors are using functionality similar to the ones OpenMesh used to`
			`implement two areas on the flash to store the default image and a fallback`
			`image. So just change the name to dualboot_datachk.sh to avoid duplicated`
			`code just to have the same script for different vendors.`

			`Signed-off-by: Sven Eckelmann <sven@narfation.org>`
			`Origin: backport, https://github.com/openwrt/openwrt/commit/8a891bfaa01d9592ea86c6b0cbbd5c04688c09f8`

			`diff --git a/target/linux/ipq40xx/base-files/lib/upgrade/dualboot_datachk.sh b/target/linux/ipq40xx/base-files/lib/upgrade/dualboot_datachk.sh`
			`new file mode 100644`
			`index 0000000000000000000000000000000000000000..807a85d43ccd57642b52e7c1a7f92295cb6cd036`
			`--- /dev/null`
			`+++ b/target/linux/ipq40xx/base-files/lib/upgrade/dualboot_datachk.sh`
			`@@ -0,0 +1,106 @@`
			`+# The U-Boot loader with the datachk patchset for dualbooting requires image`
			`+# sizes and checksums to be provided in the U-Boot environment.`
			`+# The devices come with 2 main partitions - while one is active`
			`+# sysupgrade will flash the other. The boot order is changed to boot the`
			`+# newly flashed partition. If the new partition can't be booted due to`
			`+# upgrade failures the previously used partition is loaded.`
			`+`
			`+platform_do_upgrade_dualboot_datachk() {`
			`+ local tar_file="$1"`
			`+ local restore_backup`
			`+ local primary_kernel_mtd`
			`+`
			`+ local setenv_script="/tmp/fw_env_upgrade"`
			`+`
			`+ local kernel_mtd="$(find_mtd_index $PART_NAME)"`
			`+ local kernel_offset="$(cat /sys/class/mtd/mtd${kernel_mtd}/offset)"`
			`+ local total_size="$(cat /sys/class/mtd/mtd${kernel_mtd}/size)"`
			`+`
			`+ # detect to which flash region the new image is written to.`
			`+ #`
			`+ # 1. check what is the mtd index for the first flash region on this`
			`+ # device`
			`+ # 2. check if the target partition ("inactive") has the mtd index of`
			`+ # the first flash region`
			`+ #`
			`+ # - when it is: the new bootseq will be 1,2 and the first region is`
			`+ # modified`
			`+ # - when it isnt: bootseq will be 2,1 and the second region is`
			`+ # modified`
			`+ #`
			`+ # The detection has to be done via the hardcoded mtd partition because`
			`+ # the current boot might be done with the fallback region. Let us`
			`+ # assume that the current bootseq is 1,2. The bootloader detected that`
			`+ # the image in flash region 1 is corrupt and thus switches to flash`
			`+ # region 2. The bootseq in the u-boot-env is now still the same and`
			`+ # the sysupgrade code can now only rely on the actual mtd indexes and`
			`+ # not the bootseq variable to detect the currently booted flash`
			`+ # region/image.`
			`+ #`
			`+ # In the above example, an implementation which uses bootseq ("1,2") to`
			`+ # detect the currently booted image would assume that region 1 is booted`
			`+ # and then overwrite the variables for the wrong flash region (aka the`
			`+ # one which isn't modified). This could result in a device which doesn't`
			`+ # boot anymore to Linux until it was reflashed with ap51-flash.`
			`+ local next_boot_part="1"`
			`+ case "$(board_name)" in`
			`+ openmesh,a42)`
			`+ primary_kernel_mtd=8`
			`+ ;;`
			`+ openmesh,a62)`
			`+ primary_kernel_mtd=10`
			`+ ;;`
			`+ *)`
			`+ echo "failed to detect primary kernel mtd partition for board"`
			`+ return 1`
			`+ ;;`
			`+ esac`
			`+ [ "$kernel_mtd" = "$primary_kernel_mtd" ] \|\| next_boot_part="2"`
			`+`
			`+ local board_dir=$(tar tf $tar_file \| grep -m 1 '^sysupgrade-.*/$')`
			`+ board_dir=${board_dir%/}`
			`+`
			`+ local kernel_length=$(tar xf $tar_file ${board_dir}/kernel -O \| wc -c)`
			`+ local rootfs_length=$(tar xf $tar_file ${board_dir}/root -O \| wc -c)`
			`+ # rootfs without EOF marker`
			`+ rootfs_length=$((rootfs_length-4))`
			`+`
			`+ local kernel_md5=$(tar xf $tar_file ${board_dir}/kernel -O \| md5sum); kernel_md5="${kernel_md5%% *}"`
			`+ # md5 checksum of rootfs with EOF marker`
			`+ local rootfs_md5=$(tar xf $tar_file ${board_dir}/root -O \| dd bs=1 count=$rootfs_length \| md5sum); rootfs_md5="${rootfs_md5%% *}"`
			`+`
			`+ #`
			`+ # add tar support to get_image() to use default_do_upgrade() instead?`
			`+ #`
			`+`
			`+ # take care of restoring a saved config`
			`+ [ -n "$UPGRADE_BACKUP" ] && restore_backup="${MTD_CONFIG_ARGS} -j ${UPGRADE_BACKUP}"`
			`+`
			`+ mtd -q erase inactive`
			`+ tar xf $tar_file ${board_dir}/root -O \| mtd -n -p $kernel_length $restore_backup write - $PART_NAME`
			`+ tar xf $tar_file ${board_dir}/kernel -O \| mtd -n write - $PART_NAME`
			`+`
			`+ # prepare new u-boot env`
			`+ if [ "$next_boot_part" = "1" ]; then`
			`+ echo "bootseq 1,2" > $setenv_script`
			`+ else`
			`+ echo "bootseq 2,1" > $setenv_script`
			`+ fi`
			`+`
			`+ printf "kernel_size_%i 0x%08x\n" $next_boot_part $kernel_length >> $setenv_script`
			`+ printf "vmlinux_start_addr 0x%08x\n" ${kernel_offset} >> $setenv_script`
			`+ printf "vmlinux_size 0x%08x\n" ${kernel_length} >> $setenv_script`
			`+ printf "vmlinux_checksum %s\n" ${kernel_md5} >> $setenv_script`
			`+`
			`+ printf "rootfs_size_%i 0x%08x\n" $next_boot_part $((total_size-kernel_length)) >> $setenv_script`
			`+ printf "rootfs_start_addr 0x%08x\n" $((kernel_offset+kernel_length)) >> $setenv_script`
			`+ printf "rootfs_size 0x%08x\n" ${rootfs_length} >> $setenv_script`
			`+ printf "rootfs_checksum %s\n" ${rootfs_md5} >> $setenv_script`
			`+`
			`+ # store u-boot env changes`
			`+ mkdir -p /var/lock`
			`+ fw_setenv -s $setenv_script \|\| {`
			`+ echo "failed to update U-Boot environment"`
			`+ return 1`
			`+ }`
			`+}`
			`diff --git a/target/linux/ipq40xx/base-files/lib/upgrade/openmesh.sh b/target/linux/ipq40xx/base-files/lib/upgrade/openmesh.sh`
			`deleted file mode 100644`
			`index 8e02186eb81b17d56d0cb8ceba95dbe506e2984b..0000000000000000000000000000000000000000`
			`--- a/target/linux/ipq40xx/base-files/lib/upgrade/openmesh.sh`
			`+++ /dev/null`
			`@@ -1,106 +0,0 @@`
			`-# The U-Boot loader of the OpenMesh devices requires image sizes and`
			`-# checksums to be provided in the U-Boot environment.`
			`-# The OpenMesh devices come with 2 main partitions - while one is active`
			`-# sysupgrade will flash the other. The boot order is changed to boot the`
			`-# newly flashed partition. If the new partition can't be booted due to`
			`-# upgrade failures the previously used partition is loaded.`
			`-`
			`-platform_do_upgrade_openmesh() {`
			`- local tar_file="$1"`
			`- local restore_backup`
			`- local primary_kernel_mtd`
			`-`
			`- local setenv_script="/tmp/fw_env_upgrade"`
			`-`
			`- local kernel_mtd="$(find_mtd_index $PART_NAME)"`
			`- local kernel_offset="$(cat /sys/class/mtd/mtd${kernel_mtd}/offset)"`
			`- local total_size="$(cat /sys/class/mtd/mtd${kernel_mtd}/size)"`
			`-`
			`- # detect to which flash region the new image is written to.`
			`- #`
			`- # 1. check what is the mtd index for the first flash region on this`
			`- # device`
			`- # 2. check if the target partition ("inactive") has the mtd index of`
			`- # the first flash region`
			`- #`
			`- # - when it is: the new bootseq will be 1,2 and the first region is`
			`- # modified`
			`- # - when it isnt: bootseq will be 2,1 and the second region is`
			`- # modified`
			`- #`
			`- # The detection has to be done via the hardcoded mtd partition because`
			`- # the current boot might be done with the fallback region. Let us`
			`- # assume that the current bootseq is 1,2. The bootloader detected that`
			`- # the image in flash region 1 is corrupt and thus switches to flash`
			`- # region 2. The bootseq in the u-boot-env is now still the same and`
			`- # the sysupgrade code can now only rely on the actual mtd indexes and`
			`- # not the bootseq variable to detect the currently booted flash`
			`- # region/image.`
			`- #`
			`- # In the above example, an implementation which uses bootseq ("1,2") to`
			`- # detect the currently booted image would assume that region 1 is booted`
			`- # and then overwrite the variables for the wrong flash region (aka the`
			`- # one which isn't modified). This could result in a device which doesn't`
			`- # boot anymore to Linux until it was reflashed with ap51-flash.`
			`- local next_boot_part="1"`
			`- case "$(board_name)" in`
			`- openmesh,a42)`
			`- primary_kernel_mtd=8`
			`- ;;`
			`- openmesh,a62)`
			`- primary_kernel_mtd=10`
			`- ;;`
			`- *)`
			`- echo "failed to detect primary kernel mtd partition for board"`
			`- return 1`
			`- ;;`
			`- esac`
			`- [ "$kernel_mtd" = "$primary_kernel_mtd" ] \|\| next_boot_part="2"`
			`-`
			`- local board_dir=$(tar tf $tar_file \| grep -m 1 '^sysupgrade-.*/$')`
			`- board_dir=${board_dir%/}`
			`-`
			`- local kernel_length=$(tar xf $tar_file ${board_dir}/kernel -O \| wc -c)`
			`- local rootfs_length=$(tar xf $tar_file ${board_dir}/root -O \| wc -c)`
			`- # rootfs without EOF marker`
			`- rootfs_length=$((rootfs_length-4))`
			`-`
			`- local kernel_md5=$(tar xf $tar_file ${board_dir}/kernel -O \| md5sum); kernel_md5="${kernel_md5%% *}"`
			`- # md5 checksum of rootfs with EOF marker`
			`- local rootfs_md5=$(tar xf $tar_file ${board_dir}/root -O \| dd bs=1 count=$rootfs_length \| md5sum); rootfs_md5="${rootfs_md5%% *}"`
			`-`
			`- #`
			`- # add tar support to get_image() to use default_do_upgrade() instead?`
			`- #`
			`-`
			`- # take care of restoring a saved config`
			`- [ -n "$UPGRADE_BACKUP" ] && restore_backup="${MTD_CONFIG_ARGS} -j ${UPGRADE_BACKUP}"`
			`-`
			`- mtd -q erase inactive`
			`- tar xf $tar_file ${board_dir}/root -O \| mtd -n -p $kernel_length $restore_backup write - $PART_NAME`
			`- tar xf $tar_file ${board_dir}/kernel -O \| mtd -n write - $PART_NAME`
			`-`
			`- # prepare new u-boot env`
			`- if [ "$next_boot_part" = "1" ]; then`
			`- echo "bootseq 1,2" > $setenv_script`
			`- else`
			`- echo "bootseq 2,1" > $setenv_script`
			`- fi`
			`-`
			`- printf "kernel_size_%i 0x%08x\n" $next_boot_part $kernel_length >> $setenv_script`
			`- printf "vmlinux_start_addr 0x%08x\n" ${kernel_offset} >> $setenv_script`
			`- printf "vmlinux_size 0x%08x\n" ${kernel_length} >> $setenv_script`
			`- printf "vmlinux_checksum %s\n" ${kernel_md5} >> $setenv_script`
			`-`
			`- printf "rootfs_size_%i 0x%08x\n" $next_boot_part $((total_size-kernel_length)) >> $setenv_script`
			`- printf "rootfs_start_addr 0x%08x\n" $((kernel_offset+kernel_length)) >> $setenv_script`
			`- printf "rootfs_size 0x%08x\n" ${rootfs_length} >> $setenv_script`
			`- printf "rootfs_checksum %s\n" ${rootfs_md5} >> $setenv_script`
			`-`
			`- # store u-boot env changes`
			`- mkdir -p /var/lock`
			`- fw_setenv -s $setenv_script \|\| {`
			`- echo "failed to update U-Boot environment"`
			`- return 1`
			`- }`
			`-}`
			`diff --git a/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh b/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh`
			`index 7253139497a8a8b9fab49cef3fce5eabe98d8002..66e23b77a7bb0a484e88a11eed9d526e4fc04b50 100644`
			`--- a/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh`
			`+++ b/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh`
			`@@ -75,7 +75,7 @@ platform_do_upgrade() {`
			`openmesh,a42 \|\`
			`openmesh,a62)`
			`PART_NAME="inactive"`
			`- platform_do_upgrade_openmesh "$1"`
			`+ platform_do_upgrade_dualboot_datachk "$1"`
			`;;`
			`zyxel,nbg6617)`
			`zyxel_do_upgrade "$1"`