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481f870a02
This is required for the Traverse LS1043 family, we generate a FIT image that works on all boards across the family. This is done by creating multiple configurations that select the right DTB for the board. The bootloader on these boards is configured to boot like this: bootm $kernel_load#ls1043s bootm $kernel_load#ls1043v This is based on earlier work by Jason Wu for Zynq: https://lists.openwrt.org/pipermail/openwrt-devel/2016-March/040460.html Modified to add FDT load addresses and multiple configurations with DTB. Signed-off-by: Mathew McBride <matt@traverse.com.au>
597 lines
14 KiB
Bash
Executable File
597 lines
14 KiB
Bash
Executable File
#!/usr/bin/env bash
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#
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# Licensed under the terms of the GNU GPL License version 2 or later.
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#
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# Author: Jason Wu <jason.hy.wu@gmail.com>
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# with modifications for multi-DTB-same-image by:
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# Mathew McBride <matt@traverse.com.au>
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#
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# U-Boot firmware supports the booting of images in the Flattened Image
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# Tree (FIT) format. The FIT format uses a device tree structure to
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# describe a kernel image, device tree blob, ramdisk, etc. This script
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# creates an Image Tree Source (.its file) which can be passed to the
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# 'mkimage' utility to generate an Image Tree Blob (.itb file). The .itb
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# file can then be booted by U-Boot (or other bootloaders which support
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# FIT images). See doc/uImage.FIT/howto.txt in U-Boot source code for
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# additional information on FIT images.
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#
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# This tools supports:
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# - multi-configuration
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# - multi-image support - multiple kernel/fdt/ramdsik
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# - per image configuration:
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# - hash algorithm and generated required subnodes
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# - compression
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# - signature and generated required subnodes
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#
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set -e
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# image config limit
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MAX_IMG=50
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# conf config limit
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MAX_CONF=10
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# declare main data array
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declare -a img_array
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declare -a conf_array
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# initialize array with empty values
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for (( index=1; index<=$MAX_IMG; index++ )); do
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declare -a img$index
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for i in {0..13}; do
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eval img${index}[$i]=""
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done
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done
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for (( index=1; index<=$MAX_CONF; index++ )); do
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declare -a conf$index
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for i in {0..9}; do
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eval conf${index}[$i]=""
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done
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done
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# imgX array index information
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# 0: type of image - kernel, fdt, ramdsik
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# 1: image location
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# 2: image index
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# 3: loadaddr of image
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# 4: entrypoint of image
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# 5: compression
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# 6: hash algorithm
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# 7: part of the configuration
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# 8: Human friend name for the image
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# 9: key file name
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# 10: signature
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# 11: conf friendly name
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# confX array index information
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# 0: conf number
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# 1: kernel conf
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# 2: fdt conf
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# 3: rootfs conf
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# 4: kernel key file
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# 5: fdt key file
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# 6: rootfs key file
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# 7: kernel sign_algorithm
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# 8: fdt sign_algorithm
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# 9: rootfs sign_algorithm
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# 10: conf friendly name
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usage() {
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echo "Usage: `basename $0` -A arch -v version -o its_file" \
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"-k kernel -a addr -e entry [-C none] [-h sha1] [-c conf]"
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echo -e "Example1:\n\tkernel image ker_img1 with no compression +"
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echo -e "\tsha1 hash + fdt dtb1 with sha1 and crc32 hash for conf 1"
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echo -e "\t $ `basename $0` -A arm -v 4.4 \ "
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echo -e "\t -k ker_img1 -C none -h sha1 -e 0x8000 -a 0x8000 -c 1 \ "
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echo -e "\t -d dtb1 -h sha1 -h crc32 -c 1\n"
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echo "General settings:"
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echo -e "\t-A ==> set architecture to 'arch'"
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echo -e "\t-v ==> set kernel version to 'version'"
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echo -e "\t-o ==> create output file 'its_file' [optional]"
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echo "Input image type:"
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echo -e "\t-k ==> kernel image 'kernel'"
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echo -e "\t-d ==> Device Tree Blob 'dtb'"
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echo -e "\t-r ==> ramdisk image 'ramdisk"
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echo "Per image configurations:"
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echo -e "\t-C ==> set compression type 'comp'"
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echo -e "\t-c ==> set image config (multiple -c allowed)"
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echo -e "\t-a ==> set load address to 'addr' (hex)"
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echo -e "\t-e ==> set entry point to 'entry' (hex)"
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echo -e "\t-D ==> human friendly 'name' (one word only)"
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echo -e "\t-h ==> set hash algorithm (multiple -h allowed)"
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echo -e "\t-s ==> set signature for given config image"
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echo -e "\t-K ==> set key file for given config image"
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exit 1
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}
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array_check()
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{
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local a=999
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local max_a=0
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local max_i=0
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if echo $1 | grep -q img; then
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max_a=$MAX_IMG
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max_i=13
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let a=$(echo $1 | awk -F "img" '{print $2}')
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elif echo $1 | grep -q conf; then
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max_a=$MAX_CONF
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max_i=10
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let a=$(echo $1 | awk -F "conf" '{print $2}')
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fi
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if [ ${a} -lt 0 -o ${a} -gt ${max_a} -o \
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${2} -lt 0 -o ${2} -gt ${max_i} ]; then
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echo "WARNING: Invalid array name, skipping!!!"
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return 255
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fi
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}
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#
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# $1: array name
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# $2: index
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# $3: value
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# $4: append operation
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#
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array_put()
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{
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# check if array is declared
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array_check $1 $2 || return 0
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if [ -z "$4" ]; then
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eval $1[$2]=$3
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else
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eval $1[$2]=\"\${$1[$2]} $3\"
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fi
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}
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#
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# $1: array name
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# $2: index
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#
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array_get()
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{
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local val
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eval val=\${$1[$2]}
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echo $val
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}
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parse_args() {
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local i=-1 k=-1 d=-1 r=-1
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while getopts ":A:a:C:c:D:d:e:h:k:K:o:v:r:s:n:" OPTION; do
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case $OPTION in
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A ) ARCH=$OPTARG;;
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a ) array_put img$i 3 $OPTARG;;
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C ) value_sanity_chk compression $OPTARG;
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array_put img$i 5 $OPTARG;;
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c ) array_put img$i 7 $OPTARG append;;
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D ) array_put img$i 8 $OPTARG;;
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d ) i=$(($i + 1));
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d=$(($d + 1));
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img_array[$i]=img$i;
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array_put img$i 0 fdt;
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array_put img$i 1 $OPTARG;
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array_put img$i 2 $d;
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;;
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e ) array_put img$i 4 $OPTARG;;
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h ) value_sanity_chk hash $OPTARG;
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array_put img$i 6 $OPTARG append;;
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k ) i=$(($i + 1));
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k=$(($k + 1));
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img_array[$i]=img$i;
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array_put img$i 0 "kernel";
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array_put img$i 1 $OPTARG;
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array_put img$i 2 $k;
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;;
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K ) array_put img$i 9 $OPTARG;;
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n ) array_put img$i 11 $OPTARG;;
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o ) OUTPUT=$OPTARG;;
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v ) VERSION=$OPTARG;;
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r ) i=$(($i + 1));
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r=$(($r + 1));
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img_array[$i]=img$i;
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array_put img$i 0 "ramdisk";
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array_put img$i 1 $OPTARG;
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array_put img$i 2 $r;
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;;
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s ) value_sanity_chk signature $OPTARG;
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array_put img$i 10 $OPTARG;
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;;
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* ) echo "Invalid option passed to '$0' (options:$@)"
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usage;;
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esac
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done
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[ -n "${OUTPUT}" ] || OUTPUT=fitimage.its
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[ -n "${VERSION}" ] || VERSION="Unknown"
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[ -n "${ARCH}" ] || ARCH=arm
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}
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#
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# sanity check for signature, compression and hash
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#
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value_sanity_chk()
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{
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local valid=""
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case $1 in
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signature) valid="sha-1,rsa-2048 sha-256,rsa-2048 sha-256,rsa-4096";;
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compression) valid="gzip bzip2 none";;
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hash) valid="sha1 md5 crc32";;
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esac
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if ! echo $valid | grep -q "$2"; then
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echo "Error: Invalid $1 provided '$2'"
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echo "Valid options are: $valid"
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exit 255
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fi
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}
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#
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# Emit the fitImage section bits
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#
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# $1: Section bit type: fitstart - its header
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# imagestart - image section start
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# confstart - configuration section start
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# sectend - section end
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# fitend - fitimage end
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# $2: optional variable for confstart section
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#
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emit_its() {
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case $1 in
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fitstart)
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cat << EOF > ${OUTPUT}
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/dts-v1/;
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/ {
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description = "U-Boot fitImage for ${VERSION} kernel";
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#address-cells = <1>;
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EOF
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;;
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imagestart)
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echo -e "\n\timages {" >> ${OUTPUT};;
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confstart)
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# echo -e "\tconfigurations {\n\t\tdefault = \"conf@${2:-0}\";" \
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echo -e "\tconfigurations {\n" \
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>> ${OUTPUT};;
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sectend)
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echo -e "\t};" >> ${OUTPUT};;
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fitend)
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echo -e "};" >> ${OUTPUT};;
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esac
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}
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#
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# Emit kernel image node
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#
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emit_kernel() {
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local image=${1}
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local count=${2:-${MAX_IMG}}
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local loaddaddr=${3:-0x8000}
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local entrypoint=${4:-0x8000}
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local compresson=${5:-none}
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local checksum=${6:-sha1}
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local name=${7}
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[ -z "${name}" ] || name=" ${name}"
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cat << EOF >> ${OUTPUT}
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kernel@${count} {
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description = "Linux Kernel${name}";
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data = /incbin/("${image}");
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type = "kernel";
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arch = "${ARCH}";
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os = "linux";
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compression = "${compresson}";
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load = <${loaddaddr}>;
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entry = <${entrypoint}>;
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EOF
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emit_cksum ${checksum}
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if [ -z "$SIGN_IN_CONF" ] ; then
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emit_signature "$9" "" "" "$8" "" ""
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fi
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echo " };" >> ${OUTPUT}
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}
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#
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# Emit fdt node
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#
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emit_fdt() {
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local image=${1}
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local count=${2:-${MAX_IMG}}
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local compresson=${3:-none}
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local checksum=${4:-sha1}
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local name=${5}
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local loadaddr=${6}
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[ -z "${name}" ] || name=" ${name}"
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cat << EOF >> ${OUTPUT}
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fdt@${count} {
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description = "Flattened Device Tree blob${name}";
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data = /incbin/("${image}");
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type = "flat_dt";
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arch = "${ARCH}";
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load = <${loadaddr}>;
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compression = "none";
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EOF
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emit_cksum ${checksum}
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if [ -z "$SIGN_IN_CONF" ] ; then
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emit_signature "" "$7" "" "" "$6" ""
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fi
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echo " };" >> ${OUTPUT}
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}
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#
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# Emit ramdisk node
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#
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emit_ramdisk() {
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local image=${1}
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local count=${2:-${MAX_IMG}}
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local compresson=${3:-none}
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local checksum=${4:-sha1}
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local name=${5}
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[ -z "${name}" ] || name=" ${name}"
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cat << EOF >> ${OUTPUT}
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ramdisk@${count} {
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description = "ramdisk${name}";
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data = /incbin/("${image}");
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type = "ramdisk";
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arch = "${ARCH}";
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os = "linux";
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compression = "${compresson}";
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EOF
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emit_cksum ${checksum}
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if [ -z "$SIGN_IN_CONF" ] ; then
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emit_signature "" "" "$7" "" "" "$6"
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fi
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echo " };" >> ${OUTPUT}
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}
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#
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# Emit check sum sub node
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#
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emit_cksum() {
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csum_list=$@
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count=1
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for csum in ${csum_list}; do
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cat << EOF >> ${OUTPUT}
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hash@${count} {
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algo = "${csum}";
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};
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EOF
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count=`expr ${count} + 1`
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done
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}
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#
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# Emit signature sub node
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#
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emit_signature() {
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local kernel=$1
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local fdt=$2
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local rootfs=$3
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local kernel_key=$4
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local fdt_key=$5
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local rootfs_key=$6
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local imgs=""
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local count=0
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local chk_list="" algo="" algos="" i=""
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for i in kernel fdt rootfs; do
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eval algo=\$$i
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eval key=\$${i}_key
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[ -n "$algo" ] || continue
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if ! echo "$algos" | grep -q $algo; then
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if [ -z "$algos" ]; then
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algos=$algo
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else
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algos="${algos} $algo"
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fi
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fi
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if ! echo "$keys" | grep -q $key; then
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if [ -z "$keys" ]; then
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keys=$key
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else
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keys="${keys} $key"
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fi
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fi
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done
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for algo in $algos; do
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for key in $keys; do
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img=""
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for i in kernel fdt rootfs; do
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eval tmp_algo=\$$i
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eval tmp_key=\$${i}_key
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[ "$tmp_algo" == "$algo" ] || continue
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[ "$tmp_key" == "$key" ] || continue
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if [ -z "$img" ]; then
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img=$i
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else
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img=${img},$i
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fi
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done
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[ -n "$img" ] || continue
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cat << EOF >> ${OUTPUT}
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signature@${count} {
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algo = "${algo}";
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key-name-hint = "${key}";
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EOF
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if [ -n "$SIGN_IN_CONF" ] ; then
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echo " sign-images = \"$img\";" >> ${OUTPUT}
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fi
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echo " };" >> ${OUTPUT}
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count=`expr ${count} + 1`
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done
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done
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}
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#
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# Emit config sub nodes
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#
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emit_config() {
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local conf_csum="sha1"
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config_name="conf@${1}"
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if [ ! -z "${11}" ]; then
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config_name="${11}"
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fi
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if [ -z "${2}" ]; then
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echo "Error: config has no kernel img, skipping conf node!"
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return 0
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fi
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# Test if we have any DTBs at all
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if [ -z "${3}" ] ; then
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conf_desc="Boot Linux kernel"
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fdt_line=""
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else
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conf_desc="Boot Linux kernel with FDT blob"
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fdt_line="
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fdt = \"fdt@${3}\";"
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fi
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# Test if we have any ROOTFS at all
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if [ -n "${4}" ] ; then
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conf_desc="$conf_desc + ramdisk"
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fdt_line="${fdt_line}
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ramdisk = \"ramdisk@${4}\";"
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fi
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kernel_line="kernel = \"kernel@${2}\";"
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cat << EOF >> ${OUTPUT}
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${config_name} {
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description = "${conf_desc}";
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${kernel_line}${fdt_line}
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hash@1 {
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algo = "${conf_csum}";
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};
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EOF
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if [ -n "$SIGN_IN_CONF" ] ; then
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emit_signature "$5" "$6" "$7" "$8" "$9" "${10}"
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fi
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echo " };" >> ${OUTPUT}
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}
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#
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# remove prefix space
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#
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remove_prefix_space()
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{
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echo "$@" | sed "s:^ ::g"
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}
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#
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# generate image nodes and its subnodes
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#
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emit_image_nodes()
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{
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local t img_c img_i img_index chk
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local img_type img_path img_count img_loadadr img_entrypoint \
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img_compression img_hash img_conf img_name img_key img_sign \
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img_index
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emit_its imagestart
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for t in "kernel" "fdt" "ramdisk"; do
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img_index=0
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for a in ${img_array[@]}; do
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img_type=$(array_get $a 0)
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img_path=$(array_get $a 1)
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img_count=$(array_get $a 2)
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img_loadadr=$(array_get $a 3)
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img_entrypoint=$(array_get $a 4)
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img_compression=$(array_get $a 5)
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img_hash=$(array_get $a 6)
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img_conf=$(array_get $a 7)
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img_name=$(array_get $a 8)
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img_key=$(array_get $a 9)
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img_sign=$(array_get $a 10)
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img_cname=$(array_get $a 11)
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img_conf=$(remove_prefix_space $img_conf)
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img_hash=$(remove_prefix_space $img_hash)
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[ "${img_type}" == $t ] || continue
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# generate sub nodes
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eval chk=\$DEF_$t
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[ -n "${chk}" ] || eval DEF_$t=$img_count
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case $t in
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kernel) emit_kernel "$img_path" "$img_count" \
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"$img_loadadr" "$img_entrypoint" \
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"$img_compression" "$img_hash" \
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"$img_name" "$img_key" "$img_sign";;
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fdt) emit_fdt "$img_path" "$img_count" \
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"$img_compression" "$img_hash" \
|
|
"$img_name" "$img_loadadr" "$img_key" "$img_sign" ;;
|
|
|
|
ramdisk) emit_ramdisk "$img_path" "$img_count" \
|
|
"$img_compression" "$img_hash" \
|
|
"$img_name" "$img_key" "$img_sign";;
|
|
esac
|
|
|
|
# set up configuration data
|
|
for img_c in $img_conf; do
|
|
img_i=""
|
|
#set up default configuration if its not set
|
|
[ -n "$DEF_CONFIG" ] || DEF_CONFIG=$img_c
|
|
[ -z "${img_c}" ] || conf_array[$img_c]=conf$img_c
|
|
array_put conf$img_c 0 ${img_c}
|
|
case $t in
|
|
kernel) img_i=1;;
|
|
fdt) img_i=2;;
|
|
ramdisk) img_i=3;;
|
|
esac
|
|
array_put conf$img_c $img_i $img_index
|
|
array_put conf$img_c $(($img_i + 3)) ${img_sign}
|
|
array_put conf$img_c $(($img_i + 6)) ${img_key}
|
|
array_put conf$img_c 10 $img_cname
|
|
done
|
|
img_index=$((img_index + 1))
|
|
done
|
|
done
|
|
emit_its sectend
|
|
}
|
|
|
|
#
|
|
# generate configuration node and its subnodes
|
|
#
|
|
emit_configuration_nodes ()
|
|
{
|
|
local count kernel fdt ramdisk ker_file fdt_file rfs_file ker_sign \
|
|
fdt_sign rfs_sign
|
|
emit_its confstart $DEF_CONFIG
|
|
for a in ${conf_array[@]}; do
|
|
count=$(array_get $a 0)
|
|
kernel=$(array_get $a 1)
|
|
fdt=$(array_get $a 2)
|
|
ramdisk=$(array_get $a 3)
|
|
er_file=$(array_get $a 4)
|
|
fdt_file=$(array_get $a 5)
|
|
rfs_file=$(array_get $a 6)
|
|
ker_sign=$(array_get $a 7)
|
|
fdt_sign=$(array_get $a 8)
|
|
rfs_sign=$(array_get $a 9)
|
|
cname=$(array_get $a 10)
|
|
emit_config "$count" "$kernel" "$fdt" "$ramdisk" "$ker_file" \
|
|
"$fdt_file" "$rfs_file" "$ker_sign" "$fdt_sign" \
|
|
"$rfs_sign" "${cname}"
|
|
done
|
|
if [ -z "${DEF_CONFIG}" ]; then
|
|
emit_config "0" "$DEF_kernel" "$DEF_fdt" "$DEF_ramdisk"
|
|
fi
|
|
emit_its sectend
|
|
}
|
|
|
|
# Set to none empty to create signature sub node under images node
|
|
SIGN_IN_CONF=${SIGN_IN_CONF:-""}
|
|
# Set to default config used
|
|
DEF_CONFIG=${DEF_CONFIG:-""}
|
|
|
|
parse_args $@
|
|
|
|
emit_its fitstart
|
|
emit_image_nodes
|
|
emit_configuration_nodes
|
|
emit_its fitend
|