openwrt/target/linux/bcm4908/base-files/lib/upgrade/platform.sh
Rafał Miłecki 93259e8ca2 bcm4908: support "rootfs_data" on U-Boot devices
1. Create "rootfs_data" dynamicaly

U-Boot firmware images can contain only 2 UBI volumes: bootfs (container
with U-Boot + kernel + DTBs) and rootfs (e.g. squashfs). There is no way
to include "rootfs_data" UBI volume or make firmware file tell U-Boot to
create one.

For that reason "rootfs_data" needs to be created dynamically. Use
preinit script to handle that. Fire it right before "mount_root" one.

2. Relate "rootfs_data" to flashed firmware

As already explained flashing new firmware with U-Boot will do nothing
to the "rootfs_data". It could result in new firmware reusing old
"rootfs_data" overlay UBI volume and its file. Users expect a clean
state after flashing firmware (even if flashing the same one).

Solve that by reading flash counter of running firmware and storing it
in "rootfs_data" UBI volume. Every mismatch will result in wiping old
data.

Signed-off-by: Rafał Miłecki <rafal@milecki.pl>
2022-03-04 16:14:59 +01:00

440 lines
11 KiB
Bash

# SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause
. /lib/functions/bcm4908.sh
RAMFS_COPY_BIN="bcm4908img expr grep ln fdtget fw_printenv fw_setenv readlink tr"
PART_NAME=firmware
BCM4908_FW_FORMAT=
BCM4908_FW_BOARD_ID=
BCM4908_FW_INT_IMG_FORMAT=
# $(1): file to read from
# $(2): offset in bytes
# $(3): length in bytes
get_content() {
dd if="$1" skip=$2 bs=1 count=$3 2>/dev/null
}
# $(1): file to read from
# $(2): offset in bytes
get_hex_u32_le() {
dd if="$1" skip=$2 bs=1 count=4 2>/dev/null | hexdump -v -e '1/4 "%02x"'
}
# $(1): file to read from
# $(2): offset in bytes
get_hex_u32_be() {
dd if="$1" skip=$2 bs=1 count=4 2>/dev/null | hexdump -v -e '1/1 "%02x"'
}
platform_expected_image() {
local machine=$(board_name)
case "$machine" in
asus,gt-ac5300) echo "asus GT-AC5300";;
netgear,r8000p) echo "chk U12H359T00_NETGEAR";;
tplink,archer-c2300-v1) echo "";;
esac
}
platform_identify() {
local magic
local size
magic=$(get_hex_u32_be "$1" 0)
case "$magic" in
d00dfeed)
BCM4908_FW_FORMAT="pkgtb"
return
;;
2a23245e)
local header_len=$((0x$(get_hex_u32_be "$1" 4)))
local board_id_len=$(($header_len - 40))
BCM4908_FW_FORMAT="chk"
BCM4908_FW_BOARD_ID=$(dd if="$1" skip=40 bs=1 count=$board_id_len 2>/dev/null | hexdump -v -e '1/1 "%c"')
magic=$(get_hex_u32_be "$1" "$header_len")
[ "$magic" = "d00dfeed" ] && {
BCM4908_FW_INT_IMG_FORMAT="pkgtb"
} || {
BCM4908_FW_INT_IMG_FORMAT="bcm4908img"
}
BCM4908_FW_INT_IMG_EXTRACT_CMD="dd skip=$header_len iflag=skip_bytes"
return
;;
esac
size=$(wc -c "$1" | cut -d ' ' -f 1)
magic=$(get_content "$1" $((size - 20 - 64 + 8)) 12)
case "$magic" in
GT-AC5300)
local size=$(wc -c "$1" | cut -d ' ' -f 1)
BCM4908_FW_FORMAT="asus"
BCM4908_FW_BOARD_ID=$(get_content "$1" $((size - 20 - 64 + 8)) 12)
BCM4908_FW_INT_IMG_FORMAT="bcm4908img"
return
;;
esac
# Detecting native format is a bit complex (it may start with CFE or
# JFFS2) so just use bcm4908img instead of bash hacks.
# Make it the last attempt as bcm4908img detects also vendor formats.
bcm4908img info -i "$1" > /dev/null && {
BCM4908_FW_FORMAT="bcm4908img"
return
}
}
#
# pkgtb helpers
#
platform_pkgtb_get_image_name() {
local configuration=$($2 < $1 | fdtget - /configurations default)
[ -z "$configuration" ] && {
echo "Failed to read default configuration from pkgtb" >&2
return
}
local image_name=$($2 < $1 | fdtget - /configurations/$configuration $3)
[ -z "$image_name" ] && {
echo "Failed to read $3 from pkgtb configuration \"$configuration\"" >&2
return
}
echo "$image_name"
}
platform_pkgtb_get_image() {
local cmd="${2:-cat}"
local image_name=$(platform_pkgtb_get_image_name "$1" "$cmd" "$3")
$cmd < $1 | fdtget -p - /images/$image_name | grep -Eq "^data$" && {
$cmd < $1 | fdtget -t r - /images/$image_name data
return
}
$cmd < $1 | fdtget -p - /images/$image_name | grep -Eq "^data-position$" && {
local data_position=$($cmd < $1 | fdtget - /images/$image_name data-position)
local data_size=$($cmd < $1 | fdtget - /images/$image_name data-size)
$cmd < $1 2>/dev/null | dd skip=$data_position count=$data_size iflag=skip_bytes,count_bytes
return
}
$cmd < $1 | fdtget -p - /images/$image_name | grep -Eq "^data-offset" && {
local data_offset=$($cmd < $1 | fdtget - /images/$image_name data-offset)
local totalsize=$(get_hex_u32_be "$1" 4)
local data_position=$(((0x$totalsize + data_offset + 3) & ~3))
local data_size=$($cmd < $1 | fdtget - /images/$image_name data-size)
$cmd < $1 2>/dev/null | dd skip=$data_position count=$data_size iflag=skip_bytes,count_bytes
return
}
}
platform_pkgtb_get_upgrade_index() {
case "$(fw_printenv -l /tmp -n -c /tmp/env.config COMMITTED)" in
1) echo 2;;
2) echo 1;;
*) echo 1;;
esac
}
platform_pkgtb_commit() {
local size=$((0x$(get_hex_u32_le /dev/ubi0_1 4)))
local valid1=0
local valid2=0
local seq1
local seq2
local tmp
# Read current values
for valid in $(fw_printenv -l /tmp -n -c /tmp/env.config VALID | tr ',' ' '); do
case "$valid" in
1) valid0=1;;
2) valid1=2;;
esac
done
seq0=$(fw_printenv -l /tmp -n -c /tmp/env.config SEQ | cut -d ',' -f 1)
seq1=$(fw_printenv -l /tmp -n -c /tmp/env.config SEQ | cut -d ',' -f 2)
# Calculate values
case "$1" in
1) valid0=1; seq0=$(((seq1 + 1) % 1000));;
2) valid1=2; seq1=$(((seq0 + 1) % 1000));;
esac
# Update variables
fw_setenv -l /tmp -c /tmp/env.config COMMITTED "$1"
fw_setenv -l /tmp -c /tmp/env.config VALID "$valid0,$valid1"
fw_setenv -l /tmp -c /tmp/env.config SEQ "$seq0,$seq1"
# Write
tmp=$(cat /tmp/env.head /tmp/env.body | wc -c)
cat /tmp/env.head /tmp/env.body | ubiupdatevol /dev/ubi0_1 -s $tmp -
}
#
# check
#
platform_check_pkgtb() {
local cmd="${2:-cat}"
[ -n "$(platform_pkgtb_get_image_name "$1" "$cmd" "bootfs")" -a -n "$(platform_pkgtb_get_image_name "$1" "$cmd" "rootfs")" ]
}
platform_check_image() {
[ "$#" -gt 1 ] && return 1
local expected_image=$(platform_expected_image)
local error=0
platform_identify "$1"
[ -z "$BCM4908_FW_FORMAT" ] && {
echo "Invalid image type. Please use firmware specific for this device."
notify_firmware_broken
return 1
}
echo "Found $BCM4908_FW_FORMAT firmware for device ${BCM4908_FW_BOARD_ID:----}"
local expected_image="$(platform_expected_image)"
[ -n "$expected_image" -a -n "$BCM4908_FW_BOARD_ID" -a "$BCM4908_FW_FORMAT $BCM4908_FW_BOARD_ID" != "$expected_image" ] && {
echo "Firmware doesn't match device ($expected_image)"
error=1
}
case "$BCM4908_FW_FORMAT" in
"bcm4908img")
bcm4908img info -i "$1" > /dev/null || {
echo "Failed to validate BCM4908 image" >&2
notify_firmware_broken
return 1
}
bcm4908img bootfs -i "$1" ls | grep -q "1-openwrt" || {
# OpenWrt images have 1-openwrt dummy file in the bootfs.
# Don't allow backup if it's missing
notify_firmware_no_backup
}
;;
"pkgtb")
platform_check_pkgtb "$1" || {
echo "Failed to validate pkgtb firmware" >&2
notify_firmware_broken
return 1
}
;;
*)
case "$BCM4908_FW_INT_IMG_FORMAT" in
"bcm4908img")
bcm4908img info -i "$1" > /dev/null || {
echo "Failed to validate BCM4908 image" >&2
notify_firmware_broken
return 1
}
bcm4908img bootfs -i "$1" ls | grep -q "1-openwrt" || {
# OpenWrt images have 1-openwrt dummy file in the bootfs.
# Don't allow backup if it's missing
notify_firmware_no_backup
}
;;
"pkgtb")
platform_check_pkgtb "$1" "$BCM4908_FW_INT_IMG_EXTRACT_CMD" || {
echo "Failed to validate pkgtb firmware" >&2
notify_firmware_broken
return 1
}
;;
esac
;;
esac
return $error
}
#
# upgrade
#
platform_pkgtb_clean_rootfs_data() {
local ubidev=$(nand_find_ubi $CI_UBIPART)
local ubivol="$(nand_find_volume $ubidev rootfs_data)"
bcm4908_verify_rootfs_data "$ubivol"
}
platform_do_upgrade_pkgtb() {
local cmd="${2:-cat}"
local size
local idx bootfs_id rootfs_id
bcm4908_pkgtb_setup_env_config
idx=$(platform_pkgtb_get_upgrade_index)
case "$idx" in
1) bootfs_id=3; rootfs_id=4;;
2) bootfs_id=5; rootfs_id=6;;
esac
size=$(platform_pkgtb_get_image "$1" "$cmd" "bootfs" | wc -c)
ubirmvol /dev/ubi0 -N bootfs$idx
ubimkvol /dev/ubi0 -n $bootfs_id -N bootfs$idx -t static -s $size
platform_pkgtb_get_image "$1" "$cmd" "bootfs" | ubiupdatevol /dev/ubi0_$bootfs_id -s $size -
size=$(platform_pkgtb_get_image "$1" "$cmd" "rootfs" | wc -c)
ubirmvol /dev/ubi0 -N rootfs$idx
ubimkvol /dev/ubi0 -n $rootfs_id -N rootfs$idx -t dynamic -s $size
platform_pkgtb_get_image "$1" "$cmd" "rootfs" | ubiupdatevol /dev/ubi0_$rootfs_id -s $size -
platform_pkgtb_commit $idx
CI_UBIPART="image"
platform_pkgtb_clean_rootfs_data
nand_do_upgrade_success
}
# $1: cferam index increment value
platform_calc_new_cferam() {
local inc="$1"
local dir="/tmp/sysupgrade-bcm4908"
local mtd=$(find_mtd_part bootfs)
[ -z "$mtd" ] && {
echo "Failed to find bootfs partition" >&2
return
}
rm -fR $dir
mkdir -p $dir
mount -t jffs2 -o ro $mtd $dir || {
echo "Failed to mount bootfs partition $mtd" >&2
rm -fr $dir
return
}
local idx=$(ls $dir/cferam.??? | sed -n 's/.*cferam\.\(\d\d\d\)/\1/p')
[ -z "$idx" ] && {
echo "Failed to find cferam current index" >&2
rm -fr $dir
return
}
umount $dir
rm -fr $dir
idx=$(($(expr $idx + $inc) % 1000))
echo $(printf "cferam.%03d" $idx)
}
platform_do_upgrade_ubi() {
local dir="/tmp/sysupgrade-bcm4908"
local inc=1
# Verify new bootfs size
local mtd_bootfs_size=$(grep "\"bootfs\"" /proc/mtd | sed "s/mtd[0-9]*:[ \t]*\([^ \t]*\).*/\1/")
[ -z "$mtd_bootfs_size" ] && {
echo "Unable to find \"bootfs\" partition size"
return
}
mtd_bootfs_size=$((0x$mtd_bootfs_size))
local img_bootfs_size=$(bcm4908img extract -i "$1" -t bootfs | wc -c)
[ $img_bootfs_size -gt $mtd_bootfs_size ] && {
echo "New bootfs doesn't fit MTD partition."
return
}
# Find cferam name for new firmware
# For UBI we always flash "firmware" so don't increase cferam index if
# there is "fallback". That could result in cferam.999 & cferam.001
[ -n "$(find_mtd_index backup)" -o -n "$(find_mtd_index fallback)" ] && inc=0
local cferam=$(platform_calc_new_cferam $inc)
[ -z "$cferam" ] && exit 1
# Prepare new firmware
bcm4908img bootfs -i "$1" mv cferam.000 $cferam || {
echo "Failed to rename cferam.000 to $cferam" >&2
exit 1
}
# Extract rootfs for further flashing
rm -fr $dir
mkdir -p $dir
bcm4908img extract -i "$1" -t rootfs > $dir/root || {
echo "Failed to extract rootfs" >&2
rm -fr $dir
exit 1
}
# Flash bootfs MTD partition with new one
mtd erase bootfs || {
echo "Failed to erase bootfs" >&2
rm -fr $dir
exit 1
}
bcm4908img extract -i "$1" -t bootfs | mtd write - bootfs || {
echo "Failed to flash bootfs" >&2
rm -fr $dir
exit 1
}
nand_do_upgrade $dir/root
}
platform_do_upgrade() {
platform_identify "$1"
# Try NAND aware UBI upgrade for OpenWrt images
case "$BCM4908_FW_FORMAT" in
"bcm4908img")
bcm4908img bootfs -i "$1" ls | grep -q "1-openwrt" && platform_do_upgrade_ubi "$1"
;;
"pkgtb")
platform_do_upgrade_pkgtb "$1"
;;
*)
case "$BCM4908_FW_INT_IMG_FORMAT" in
"bcm4908img")
bcm4908img bootfs -i "$1" ls | grep -q "1-openwrt" && platform_do_upgrade_ubi "$1"
;;
"pkgtb")
platform_do_upgrade_pkgtb "$1" "$BCM4908_FW_INT_IMG_EXTRACT_CMD"
;;
*)
echo "NAND aware sysupgrade is unsupported for $BCM4908_FW_FORMAT format"
;;
esac
;;
esac
# Above calls exit on success.
# If we got here it isn't OpenWrt image or something went wrong.
[ "$BCM4908_FW_FORMAT" = "pkgtb" -o "$BCM4908_FW_INT_IMG_FORMAT" = "pkgtb" ] && {
echo "Failed to upgrade pkgtb. Fallback to raw flashing is impossible for this format." >&2
exit 1
}
echo "Writing whole image to NAND flash. All erase counters will be lost."
# Find cferam name for new firmware
local cferam=$(platform_calc_new_cferam 1)
[ -z "$cferam" ] && exit 1
# Prepare new firmware
bcm4908img bootfs -i "$1" mv cferam.000 $cferam || {
echo "Failed to rename cferam.000 to $cferam" >&2
exit 1
}
# Jush flash firmware partition as is
[ -n "$(find_mtd_index backup)" ] && PART_NAME=backup
[ -n "$(find_mtd_index fallback)" ] && PART_NAME=fallback
mtd erase $PART_NAME
default_do_upgrade "$1" "bcm4908img extract -t firmware"
}