build: add mkrasimage

The current make-ras.sh image generation script for the ZyXEL NBG6617
has portability issues with bash. Because of this, factory images are
currently not built correctly by the OpenWRT buildbots.

This commit replaces the make-ras.sh by C-written mkrasimage.

The new mkrasimage is also compatible with other ZyXEL devices using
the ras image-format.
This is not tested with the NBG6616 but it correctly builds the
header for ZyXEL factory image.

Signed-off-by: David Bauer <mail@david-bauer.net>
openwrt-19.07
David Bauer 2018-08-22 17:30:44 +02:00 committed by John Crispin
parent 8132e06247
commit 8e9a59a6b9
7 changed files with 480 additions and 208 deletions

View File

@ -49,17 +49,17 @@ define Build/eva-image
mv $@.new $@
endef
define Build/make-ras
define Build/zyxel-ras-image
let \
newsize="$(subst k,* 1024,$(RAS_ROOTFS_SIZE))"; \
$(TOPDIR)/scripts/make-ras.sh \
--board $(RAS_BOARD) \
--version $(RAS_VERSION) \
--kernel $(call param_get_default,kernel,$(1),$(IMAGE_KERNEL)) \
--rootfs $@ \
--rootfssize $$newsize \
$@.new
@mv $@.new $@
$(STAGING_DIR_HOST)/bin/mkrasimage \
-b $(RAS_BOARD) \
-v $(RAS_VERSION) \
-r $@ \
-s $$newsize \
-o $@.new \
$(if $(findstring separate-kernel,$(word 1,$(1))),-k $(IMAGE_KERNEL)) \
&& mv $@.new $@
endef
define Build/mkbuffaloimg

View File

@ -1,196 +0,0 @@
#!/usr/bin/env bash
#
# --- ZyXEL header format ---
# Original Version by Benjamin Berg <benjamin@sipsolutions.net>
#
# The firmware image prefixed with a header (which is written into the MTD device).
# The header is one erase block (~64KiB) in size, but the checksum only convers the
# first 2KiB. Padding is 0xff. All integers are in big-endian.
#
# The checksum is always a 16-Bit System V checksum (sum -s) stored in a 32-Bit integer.
#
# 4 bytes: checksum of the rootfs image
# 4 bytes: length of the contained rootfs image file (big endian)
# 32 bytes: Firmware Version string (NUL terminated, 0xff padded)
# 4 bytes: checksum over the header partition (big endian - see below)
# 32 bytes: Model (e.g. "NBG6617", NUL termiated, 0xff padded)
# 4 bytes: checksum of the kernel partition
# 4 bytes: length of the contained kernel image file (big endian)
# rest: 0xff padding
#
# The checksums are calculated by adding up all bytes and if a 16bit
# overflow occurs, one is added and the sum is masked to 16 bit:
# csum = csum + databyte; if (csum > 0xffff) { csum += 1; csum &= 0xffff };
# Should the file have an odd number of bytes then the byte len-0x800 is
# used additionally.
#
# The checksum for the header is calculated over the first 2048 bytes with
# the rootfs image checksum as the placeholder during calculation.
#
# The header is padded with 0xff to the erase block size of the device.
#
board=""
version=""
kernel=""
rootfs=""
outfile=""
err=""
while [ "$1" ]; do
case "$1" in
"--board")
board="$2"
shift
shift
continue
;;
"--version")
version="$2"
shift
shift
continue
;;
"--kernel")
kernel="$2"
shift
shift
continue
;;
"--rootfs")
rootfs="$2"
shift
shift
continue
;;
"--rootfssize")
rootfssize="$2"
shift
shift
continue
;;
*)
if [ ! "$outfile" ]; then
outfile=$1
shift
continue
fi
;;
esac
done
if [ ! -n "$board" -o ! -n "$version" -o ! -r "$kernel" -o ! -r "$rootfs" -o ! "$rootfssize" -o ! "$outfile" ]; then
echo "syntax: $0 [--board ras-boardname] [--version ras-version] [--kernel kernelimage] [--rootfs rootfs] out"
exit 1
fi
rootfs_len=$(wc -c < "$rootfs")
if [ "$rootfs_len" -lt "$rootfssize" ]; then
dd if=$rootfs of=$rootfs.new bs=$rootfssize conv=sync
mv $rootfs.new $rootfs
fi
if [ ${#version} -ge 28 ]; then
echo "version: '$version' is too long"
exit 1
fi
tmpdir="$( mktemp -d 2> /dev/null )"
if [ -z "$tmpdir" ]; then
# try OSX signature
tmpdir="$( mktemp -t 'ubitmp' -d )"
fi
if [ -z "$tmpdir" ]; then
exit 1
fi
to_be() {
local val="$1"
local size="$2"
case "$size" in
4)
echo $(( "$val" >> 24 | ("$val" & 0xff0000) >> 8 | ("$val" & 0xff00) << 8 | ("$val" & 0xff) << 24 ))
;;
2)
echo $(( "$val" >> 8 | ("$val" & 0xff) << 8))
;;
esac
}
checksum_file() {
local file=$1
# ZyXEL seems to use System V sum mode... Now this is classy, who would have thought?!
echo $(sum -s ${file} | cut -f1 -d" ")
}
append_bin() {
local val=$1
local size=$2
local file=$3
while [ "$size" -ne 0 ]; do
printf \\$(printf %o $(("$val" & 0xff))) >> "$file"
val=$(($val >> 8))
let size-=1
done
return
}
tf=${tmpdir}/out
pad=$(printf '%0.1s' $(printf "\xff"){1..64})
rootfs_header_file="$tmpdir/rootfs_header"
rootfs_chksum=$(to_be $(checksum_file ${rootfs}) 4)
rootfs_len=$(to_be $(wc -c < "$rootfs") 4)
versionpadlen=$(( 32 - ( ${#version} + 1) ))
# 4 bytes: checksum of the rootfs image
append_bin "$rootfs_chksum" 4 "$rootfs_header_file"
# 4 bytes: length of the contained rootfs image file (big endian)
append_bin "$rootfs_len" 4 "$rootfs_header_file"
# 32 bytes: Firmware Version string (NUL terminated, 0xff padded)
printf "%s\x00%.*s" "$version" "$versionpadlen" "$pad" >> "$rootfs_header_file"
kernel_header_file="$tmpdir/kernel_header"
kernel_chksum=$(to_be $(checksum_file ${kernel}) 4)
kernel_len=$(to_be $(wc -c < "$kernel") 4)
# 4 bytes: checksum of the kernel image
append_bin "$kernel_chksum" 4 "$kernel_header_file"
# 4 bytes: length of the contained kernel image file (big endian)
append_bin "$kernel_len" 4 "$kernel_header_file"
board_header_file="$tmpdir/board_header"
board_file="$tmpdir/board"
boardpadlen=$(( 64 - ( ${#board} + 1) ))
# 32 bytes: Model (e.g. "NBG6617", NUL termiated, 0xff padded)
printf "%s\x00%.*s" "$board" "$boardpadlen" "$pad" > "$board_file"
cat "$kernel_header_file" >> "$board_file"
printf "%.12s" "$pad" >> "$board_file"
# rest: 0xff padding
for i in {1..511}; do
printf "%s%s" "$pad" "$pad" >> "$board_file"
done
tmp_board_file="$tmpdir/tmp_board_file"
cat "$rootfs_header_file" > "$tmp_board_file"
# The checksum for the header is calculated over the first 2048 bytes with
# the rootfs image checksum as the placeholder during calculation.
append_bin "$rootfs_chksum" 4 "$tmp_board_file"
cat "$board_file" >> "$tmp_board_file"
truncate -s 2048 $tmp_board_file
board_chksum=$(to_be $(checksum_file ${tmp_board_file}) 4)
# 4 bytes: checksum over the header partition (big endian)
append_bin "$board_chksum" 4 "$board_header_file"
cat "$board_file" >> "$board_header_file"
cat "$rootfs_header_file" "$board_header_file" "$rootfs" "$kernel" > "$outfile"
rm -rf "$tmpdir"

View File

@ -1063,8 +1063,12 @@ define Device/NBG6616
IMAGE_SIZE := 15323k
MTDPARTS := spi0.0:192k(u-boot)ro,64k(env)ro,64k(RFdata)ro,384k(zyxel_rfsd),384k(romd),64k(header),2048k(kernel),13184k(rootfs),15232k@0x120000(firmware)
CMDLINE += mem=128M
IMAGES := sysupgrade.bin
RAS_BOARD := NBG6616
RAS_ROOTFS_SIZE := 14464k
RAS_VERSION := "$(VERSION_DIST) $(REVISION)"
IMAGES := factory.bin sysupgrade.bin
KERNEL := kernel-bin | patch-cmdline | lzma | uImage lzma | jffs2 boot/vmlinux.lzma.uImage
IMAGE/factory.bin := append-kernel | pad-to $$$$(KERNEL_SIZE) | append-rootfs | pad-rootfs | pad-to 64k | check-size $$$$(IMAGE_SIZE) | zyxel-ras-image
IMAGE/sysupgrade.bin := append-kernel | pad-to $$$$(KERNEL_SIZE) | append-rootfs | pad-rootfs | check-size $$$$(IMAGE_SIZE)
# We cannot currently build a factory image. It is the sysupgrade image
# prefixed with a header (which is actually written into the MTD device).

View File

@ -221,7 +221,7 @@ define Device/zyxel_nbg6617
# at least as large as the one of the initial firmware image (not the current
# one on the device). This only applies to the Web-UI, the bootlaoder ignores
# this minimum-size. However, the larger image can be flashed both ways.
IMAGE/factory.bin := append-rootfs | pad-rootfs | check-size $$$$(ROOTFS_SIZE) | make-ras
IMAGE/factory.bin := append-rootfs | pad-rootfs | pad-to 64k | check-size $$$$(ROOTFS_SIZE) | zyxel-ras-image separate-kernel
IMAGE/sysupgrade.bin/squashfs := append-rootfs | pad-rootfs | check-size $$$$(ROOTFS_SIZE) | sysupgrade-tar rootfs=$$$$@ | append-metadata
DEVICE_PACKAGES := ipq-wifi-zyxel_nbg6617 uboot-envtools
endef

View File

@ -67,7 +67,8 @@ define Device/ZyXELImage
KERNEL_SUFFIX := -uImage
KERNEL = kernel-bin | append-dtb | uImage none | pad-to $${KERNEL_SIZE}
KERNEL_NAME := zImage
IMAGES := sysupgrade.bin mmcblk0p5-rootfs.bin mmcblk0p4-kernel.bin
IMAGES := factory.bin sysupgrade.bin mmcblk0p5-rootfs.bin mmcblk0p4-kernel.bin
IMAGE/factory.bin := append-rootfs | pad-rootfs | pad-to $$$$(BLOCKSIZE) | zyxel-ras-image separate-kernel
IMAGE/sysupgrade.bin/squashfs := append-rootfs | pad-to $$$${BLOCKSIZE} | sysupgrade-tar rootfs=$$$$@ | append-metadata
IMAGE/mmcblk0p5-rootfs.bin := append-rootfs | pad-rootfs | pad-to $$$${BLOCKSIZE}
IMAGE/mmcblk0p4-kernel.bin := append-kernel
@ -245,6 +246,9 @@ define Device/zyxel_nbg6817
KERNEL_SIZE := 4096k
BLOCKSIZE := 64k
BOARD_NAME := nbg6817
RAS_BOARD := NBG6817
RAS_ROOTFS_SIZE := 20934k
RAS_VERSION := "V1.99(OWRT.9999)C0"
SUPPORTED_DEVICES += nbg6817
DEVICE_TITLE := ZyXEL NBG6817
DEVICE_PACKAGES := ath10k-firmware-qca9984 e2fsprogs kmod-fs-ext4 losetup

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@ -70,6 +70,7 @@ define Host/Compile
$(call cc,fix-u-media-header cyg_crc32,-Wall)
$(call cc,hcsmakeimage bcmalgo)
$(call cc,mkporayfw, -Wall)
$(call cc,mkrasimage, --std=gnu99)
$(call cc,mkhilinkfw, -lcrypto)
$(call cc,mkdcs932, -Wall)
$(call cc,mkheader_gemtek,-lz)

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@ -0,0 +1,459 @@
/*
* --- ZyXEL header format ---
* Original Version by Benjamin Berg <benjamin@sipsolutions.net>
* C implementation based on generation-script by Christian Lamparter <chunkeey@gmail.com>
*
* The firmware image prefixed with a header (which is written into the MTD device).
* The header is one erase block (~64KiB) in size, but the checksum only convers the
* first 2KiB. Padding is 0xff. All integers are in big-endian.
*
* The checksum is always a 16-Bit System V checksum (sum -s) stored in a 32-Bit integer.
*
* 4 bytes: checksum of the rootfs image
* 4 bytes: length of the contained rootfs image file (big endian)
* 32 bytes: Firmware Version string (NUL terminated, 0xff padded)
* 4 bytes: checksum over the header partition (big endian - see below)
* 64 bytes: Model (e.g. "NBG6617", NUL termiated, 0xff padded)
* 4 bytes: checksum of the kernel partition
* 4 bytes: length of the contained kernel image file (big endian)
* rest: 0xff padding (To erase block size)
*
* The kernel partition checksum and length is not used for every device.
* If it's notused, pad those 8 bytes with 0xFF.
*
* The checksums are calculated by adding up all bytes and if a 16bit
* overflow occurs, one is added and the sum is masked to 16 bit:
* csum = csum + databyte; if (csum > 0xffff) { csum += 1; csum &= 0xffff };
* Should the file have an odd number of bytes then the byte len-0x800 is
* used additionally.
*
* The checksum for the header is calculated over the first 2048 bytes with
* the rootfs image checksum as the placeholder during calculation.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 as published
* by the Free Software Foundation.
*
*/
#include <fcntl.h>
#include <getopt.h>
#include <libgen.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <arpa/inet.h>
#define VERSION_STRING_LEN 31
#define ROOTFS_HEADER_LEN 40
#define KERNEL_HEADER_LEN 8
#define BOARD_NAME_LEN 64
#define BOARD_HEADER_LEN 68
#define HEADER_PARTITION_CALC_LENGTH 2048
#define HEADER_PARTITION_LENGTH 0x10000
struct file_info {
char *name; /* name of the file */
char *data; /* file content */
size_t size; /* length of the file */
};
static char *progname;
static char *board_name = 0;
static char *version_name = 0;
static unsigned int rootfs_size = 0;
static struct file_info kernel = { NULL, NULL, 0 };
static struct file_info rootfs = { NULL, NULL, 0 };
static struct file_info rootfs_out = { NULL, NULL, 0 };
static struct file_info out = { NULL, NULL, 0 };
#define ERR(fmt, ...) do { \
fprintf(stderr, "[%s] *** error: " fmt "\n", \
progname, ## __VA_ARGS__ ); \
} while (0)
void map_file(struct file_info *finfo)
{
struct stat file_stat = {0};
int fd;
fd = open(finfo->name, O_RDONLY, (mode_t)0600);
if (fd == -1) {
ERR("Error while opening file %s.", finfo->name);
exit(EXIT_FAILURE);
}
if (fstat(fd, &file_stat) == -1) {
ERR("Error getting file size for %s.", finfo->name);
exit(EXIT_FAILURE);
}
finfo->size = file_stat.st_size;
finfo->data = mmap(0, finfo->size, PROT_READ, MAP_SHARED, fd, 0);
if (finfo->data == MAP_FAILED) {
ERR("Error mapping file %s.", finfo->name);
exit(EXIT_FAILURE);
}
close(fd);
}
void unmap_file(struct file_info *finfo)
{
if(munmap(finfo->data, finfo->size) == -1) {
ERR("Error unmapping file %s.", finfo->name);
exit(EXIT_FAILURE);
}
}
void write_file(struct file_info *finfo)
{
FILE *fout = fopen(finfo->name, "w");
fwrite(finfo->data, finfo->size, 1, fout);
if (ferror(fout)) {
ERR("Wanted to write, but something went wrong.");
exit(EXIT_FAILURE);
}
fclose(fout);
}
void usage(int status)
{
FILE *stream = (status != EXIT_SUCCESS) ? stderr : stdout;
fprintf(stream, "Usage: %s [OPTIONS...]\n", progname);
fprintf(stream,
"\n"
"Options:\n"
" -k <kernel> path for kernel image\n"
" -r <rootfs> path for rootfs image\n"
" -s <rfssize> size of output rootfs\n"
" -v <version> version string\n"
" -b <boardname> name of board to generate image for\n"
" -o <out_name> name of output image\n"
" -h show this screen\n"
);
exit(status);
}
static int sysv_chksm(const unsigned char *data, int size)
{
int r;
int checksum;
unsigned int s = 0; /* The sum of all the input bytes, modulo (UINT_MAX + 1). */
for (int i = 0; i < size; i++) {
s += data[i];
}
r = (s & 0xffff) + ((s & 0xffffffff) >> 16);
checksum = (r & 0xffff) + (r >> 16);
return checksum;
}
static int zyxel_chksm(const unsigned char *data, int size)
{
return htonl(sysv_chksm(data, size));
}
char *generate_rootfs_header(struct file_info filesystem, char *version)
{
size_t version_string_length;
unsigned int chksm, size;
char *rootfs_header;
size_t ptr = 0;
rootfs_header = malloc(ROOTFS_HEADER_LEN);
if (!rootfs_header) {
ERR("Couldn't allocate memory for rootfs header!");
exit(EXIT_FAILURE);
}
/* Prepare padding for firmware-version string here */
memset(rootfs_header, 0xff, ROOTFS_HEADER_LEN);
chksm = zyxel_chksm((const unsigned char *)filesystem.data, filesystem.size);
size = htonl(filesystem.size);
/* 4 bytes: checksum of the rootfs image */
memcpy(rootfs_header + ptr, &chksm, 4);
ptr += 4;
/* 4 bytes: length of the contained rootfs image file (big endian) */
memcpy(rootfs_header + ptr, &size, 4);
ptr += 4;
/* 32 bytes: Firmware Version string (NUL terminated, 0xff padded) */
version_string_length = strlen(version) <= VERSION_STRING_LEN ? strlen(version) : VERSION_STRING_LEN;
memcpy(rootfs_header + ptr, version, version_string_length);
ptr += version_string_length;
/* Add null-terminator */
rootfs_header[ptr] = 0x0;
return rootfs_header;
}
char *generate_kernel_header(struct file_info kernel)
{
unsigned int chksm, size;
char *kernel_header;
size_t ptr = 0;
kernel_header = malloc(KERNEL_HEADER_LEN);
if (!kernel_header) {
ERR("Couldn't allocate memory for kernel header!");
exit(EXIT_FAILURE);
}
chksm = zyxel_chksm((const unsigned char *)kernel.data, kernel.size);
size = htonl(kernel.size);
/* 4 bytes: checksum of the kernel image */
memcpy(kernel_header + ptr, &chksm, 4);
ptr += 4;
/* 4 bytes: length of the contained kernel image file (big endian) */
memcpy(kernel_header + ptr, &size, 4);
return kernel_header;
}
unsigned int generate_board_header_checksum(char *kernel_hdr, char *rootfs_hdr, char *boardname)
{
char *board_hdr_tmp;
unsigned int sum;
size_t ptr = 0;
/*
* The checksum of the board header is calculated over the first 2048 bytes of
* the header partition with the rootfs checksum used as a placeholder for then
* board checksum we calculate in this step. The checksum gained from this step
* is then used for the final board header partition.
*/
board_hdr_tmp = malloc(HEADER_PARTITION_CALC_LENGTH);
if (!board_hdr_tmp) {
ERR("Couldn't allocate memory for temporary board header!");
exit(EXIT_FAILURE);
}
memset(board_hdr_tmp, 0xff, HEADER_PARTITION_CALC_LENGTH);
/* 40 bytes: RootFS header */
memcpy(board_hdr_tmp, rootfs_hdr, ROOTFS_HEADER_LEN);
ptr += ROOTFS_HEADER_LEN;
/* 4 bytes: RootFS checksum (BE) as placeholder for board-header checksum */
memcpy(board_hdr_tmp + ptr, rootfs_hdr, 4);
ptr += 4;
/* 32 bytes: Model (e.g. "NBG6617", NUL termiated, 0xff padded) */
memcpy(board_hdr_tmp + ptr, boardname, strlen(boardname));
ptr += strlen(boardname);
/* Add null-terminator */
board_hdr_tmp[ptr] = 0x0;
ptr = ROOTFS_HEADER_LEN + 4 + BOARD_NAME_LEN;
/* 8 bytes: Kernel header */
if (kernel_hdr)
memcpy(board_hdr_tmp + ptr, kernel_hdr, 8);
/* Calculate the checksum over the first 2048 bytes */
sum = zyxel_chksm((const unsigned char *)board_hdr_tmp, HEADER_PARTITION_CALC_LENGTH);
free(board_hdr_tmp);
return sum;
}
char *generate_board_header(char *kernel_hdr, char *rootfs_hdr, char *boardname)
{
unsigned int board_checksum;
char *board_hdr;
board_hdr = malloc(BOARD_HEADER_LEN);
if (!board_hdr) {
ERR("Couldn't allocate memory for board header!");
exit(EXIT_FAILURE);
}
memset(board_hdr, 0xff, BOARD_HEADER_LEN);
/* 4 bytes: checksum over the header partition (big endian) */
board_checksum = generate_board_header_checksum(kernel_hdr, rootfs_hdr, boardname);
memcpy(board_hdr, &board_checksum, 4);
/* 32 bytes: Model (e.g. "NBG6617", NUL termiated, 0xff padded) */
memcpy(board_hdr + 4, boardname, strlen(boardname));
board_hdr[4 + strlen(boardname)] = 0x0;
return board_hdr;
}
int build_image()
{
char *rootfs_header = NULL;
char *kernel_header = NULL;
char *board_header = NULL;
size_t ptr;
/* Load files */
if (kernel.name)
map_file(&kernel);
map_file(&rootfs);
/*
* Allocate memory and copy input rootfs for temporary output rootfs.
* This is important as we have to generate the rootfs checksum over the
* entire rootfs partition. As we might have to pad the partition to allow
* for flashing via ZyXEL's Web-GUI, we prepare the rootfs partition for the
* output image here (and also use it for calculating the rootfs checksum).
*
* The roofs padding has to be done with 0x00.
*/
rootfs_out.data = calloc(rootfs_out.size, sizeof(char));
memcpy(rootfs_out.data, rootfs.data, rootfs.size);
/* Prepare headers */
rootfs_header = generate_rootfs_header(rootfs_out, version_name);
if (kernel.name)
kernel_header = generate_kernel_header(kernel);
board_header = generate_board_header(kernel_header, rootfs_header, board_name);
/* Prepare output file */
out.size = HEADER_PARTITION_LENGTH + rootfs_out.size;
if (kernel.name)
out.size += kernel.size;
out.data = malloc(out.size);
memset(out.data, 0xFF, out.size);
/* Build output image */
memcpy(out.data, rootfs_header, ROOTFS_HEADER_LEN);
memcpy(out.data + ROOTFS_HEADER_LEN, board_header, BOARD_HEADER_LEN);
if (kernel.name)
memcpy(out.data + ROOTFS_HEADER_LEN + BOARD_HEADER_LEN, kernel_header, KERNEL_HEADER_LEN);
ptr = HEADER_PARTITION_LENGTH;
memcpy(out.data + ptr, rootfs_out.data, rootfs_out.size);
ptr += rootfs_out.size;
if (kernel.name)
memcpy(out.data + ptr, kernel.data, kernel.size);
/* Write back output image */
write_file(&out);
/* Free allocated memory */
if (kernel.name)
unmap_file(&kernel);
unmap_file(&rootfs);
free(out.data);
free(rootfs_out.data);
free(rootfs_header);
if (kernel.name)
free(kernel_header);
free(board_header);
return 0;
}
int check_options()
{
if (!rootfs.name) {
ERR("No rootfs filename supplied");
return -2;
}
if (!out.name) {
ERR("No output filename supplied");
return -3;
}
if (!board_name) {
ERR("No board-name supplied");
return -4;
}
if (!version_name) {
ERR("No version supplied");
return -5;
}
if (rootfs_size <= 0) {
ERR("Invalid rootfs size supplied");
return -6;
}
if (strlen(board_name) > 31) {
ERR("Board name is to long");
return -7;
}
return 0;
}
int main(int argc, char *argv[])
{
int ret;
progname = basename(argv[0]);
while (1) {
int c;
c = getopt(argc, argv, "b:k:o:r:s:v:h");
if (c == -1)
break;
switch (c) {
case 'b':
board_name = optarg;
break;
case 'h':
usage(EXIT_SUCCESS);
break;
case 'k':
kernel.name = optarg;
break;
case 'o':
out.name = optarg;
break;
case 'r':
rootfs.name = optarg;
break;
case 's':
sscanf(optarg, "%u", &rootfs_size);
break;
case 'v':
version_name = optarg;
break;
default:
usage(EXIT_FAILURE);
break;
}
}
ret = check_options();
if (ret)
usage(EXIT_FAILURE);
/* As ZyXEL Web-GUI only accept images with a rootfs equal or larger than the first firmware shipped
* for the device, we need to pad rootfs partition to this size. To perform further calculations, we
* decide the size of this part here. In case the rootfs we want to integrate in our image is larger,
* take it's size, otherwise the supplied size.
*
* Be careful! We rely on assertion of correct size to be performed beforehand. It is unknown if images
* with a to large rootfs are accepted or not.
*/
rootfs_out.size = rootfs_size < rootfs.size ? rootfs.size : rootfs_size;
return build_image();
}