openwrtv4/tools/firmware-utils/src/mktplinkfw2.c

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/*
* Copyright (C) 2009 Gabor Juhos <juhosg@openwrt.org>
*
* This tool was based on:
* TP-Link WR941 V2 firmware checksum fixing tool.
* Copyright (C) 2008,2009 Wang Jian <lark@linux.net.cn>
*
* 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 <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h> /* for unlink() */
#include <libgen.h>
#include <getopt.h> /* for getopt() */
#include <stdarg.h>
#include <errno.h>
#include <stdbool.h>
#include <endian.h>
#include <sys/stat.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include "md5.h"
#include "mktplinkfw-lib.h"
struct fw_header {
uint32_t version; /* 0x00: header version */
char fw_version[48]; /* 0x04: fw version string */
uint32_t hw_id; /* 0x34: hardware id */
uint32_t hw_rev; /* 0x38: FIXME: hardware revision? */
uint32_t hw_ver_add; /* 0x3c: additional hardware version */
uint8_t md5sum1[MD5SUM_LEN]; /* 0x40 */
uint32_t unk2; /* 0x50: 0x00000000 */
uint8_t md5sum2[MD5SUM_LEN]; /* 0x54 */
uint32_t unk3; /* 0x64: 0xffffffff */
uint32_t kernel_la; /* 0x68: kernel load address */
uint32_t kernel_ep; /* 0x6c: kernel entry point */
uint32_t fw_length; /* 0x70: total length of the image */
uint32_t kernel_ofs; /* 0x74: kernel data offset */
uint32_t kernel_len; /* 0x78: kernel data length */
uint32_t rootfs_ofs; /* 0x7c: rootfs data offset */
uint32_t rootfs_len; /* 0x80: rootfs data length */
uint32_t boot_ofs; /* 0x84: bootloader offset */
uint32_t boot_len; /* 0x88: bootloader length */
uint16_t unk4; /* 0x8c: 0x55aa */
uint8_t sver_hi; /* 0x8e */
uint8_t sver_lo; /* 0x8f */
uint8_t unk5; /* 0x90: magic: 0xa5 */
uint8_t ver_hi; /* 0x91 */
uint8_t ver_mid; /* 0x92 */
uint8_t ver_lo; /* 0x93 */
uint8_t pad[364];
} __attribute__ ((packed));
#define FLAG_LE_KERNEL_LA_EP 0x00000001 /* Little-endian used for kernel load address & entry point */
struct board_info {
char *id;
uint32_t hw_id;
uint32_t hw_rev;
uint32_t hw_ver_add;
char *layout_id;
uint32_t hdr_ver;
uint32_t flags;
};
/*
* Globals
*/
char *ofname;
char *progname;
static char *vendor = "TP-LINK Technologies";
static char *version = "ver. 1.0";
static char *fw_ver = "0.0.0";
static char *sver = "1.0";
static uint32_t hdr_ver = 2;
static struct board_info custom_board;
static struct board_info *board;
static char *layout_id;
struct flash_layout *layout;
static char *opt_hw_id;
static char *opt_hw_rev;
static char *opt_hw_ver_add;
static int fw_ver_lo;
static int fw_ver_mid;
static int fw_ver_hi;
static int sver_lo;
static int sver_hi;
struct file_info kernel_info;
static uint32_t kernel_la = 0;
static uint32_t kernel_ep = 0;
uint32_t kernel_len = 0;
struct file_info rootfs_info;
uint32_t rootfs_ofs = 0;
uint32_t rootfs_align;
static struct file_info boot_info;
int combined;
int strip_padding;
int add_jffs2_eof;
static struct file_info inspect_info;
static int extract = 0;
char md5salt_normal[MD5SUM_LEN] = {
0xdc, 0xd7, 0x3a, 0xa5, 0xc3, 0x95, 0x98, 0xfb,
0xdc, 0xf9, 0xe7, 0xf4, 0x0e, 0xae, 0x47, 0x37,
};
char md5salt_boot[MD5SUM_LEN] = {
firmware-utils: mktplinkfw2: fix MD5 salt LEDE supports few devices using TP-Link firmware format (V2 or V3): ArcherC20i, ArcherC50, ArcherMR200, TDW8970, TDW8980, TL-WR840N v4, TL-WR841N v13 and VR200v Testing mktplinkfw2 tool with official (vendor generated) firmware files for above devices has shown an error when comparing calculated and included MD5 sum, e.g.: > mktplinkfw2 -i Archer_C20iv1_0.9.1_3.2_up_boot\(170221\)_2017-02-21_17.14.03.bin | grep -A 1 MD5Sum1 Header MD5Sum1 : 22 5a cb 92 10 d2 95 7b df 62 9a f8 62 17 37 10 (*ERROR*) --> expected : ad 19 11 d1 78 98 a7 42 5f 2e 64 da 8a 34 ec cb This problem has been verified to occur with: Archer_C20iv1_0.9.1_3.2_up_boot(170221)_2017-02-21_17.14.03.bin Archer MR200v1_0.9.1_1.1_up_boot_v004a.0 Build 160905 Rel.60037n.bin TD-W8970v3_0.9.1_2.0_up_boot(160816)_2016-08-16_10.40.57.bin TD-W8980v1_0.6.0_1.8_up_boot(150514)_2015-05-14_11.16.43.bin Archer_VR200vv2_0.2.0_0.8.0_up_boot(161202)_2016-12-05_14.39.06.bin For some images, e.g.: Archer_C50v3_EU_0.9.1_0.3_up_boot[170417-rel52298].bin TL-WR840Nv4_EU_0.9.1_4.16_up_boot[170421-rel70692].bin TL-WR841Nv13_0.9.1_3.16_up_boot(161012).bin mktplinkfw2 calculates zero MD5 so these has to be fixed separately: > mktplinkfw2 -i TL-WR841Nv13_0.9.1_3.16_up_boot\(161012\).bin | grep -A 1 MD5Sum1 Header MD5Sum1 : 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 (*ERROR*) --> expected : 6f 1d 9b 57 5d 42 14 6d bf a2 03 9d 46 7d 55 55 It's most likely that MD5 salt used in mktplinkfw2 has been always wrong (and it's not a matter of e.g. a vendor change). Update it to fix MD5 calculation. This has been also verified to calculate MD5 correctly for other (not yet supported) devices, e.g.: Archer_C3150v2_0.1.0_0.9.1_up_boot(160812)_2016-08-12_10.52.54.bin Archer_C3200v1_0.9.1_0.1_up_boot(160704)_2016-07-04_15.48.28.bin Signed-off-by: Rafał Miłecki <rafal@milecki.pl> Acked-by: Mathias Kresin <dev@kresin.me>
2017-07-02 15:06:58 +00:00
0x8c, 0xef, 0x33, 0x5f, 0xd5, 0xc5, 0xce, 0xfa,
0xac, 0x9c, 0x28, 0xda, 0xb2, 0xe9, 0x0f, 0x42,
};
static struct flash_layout layouts[] = {
{
ramips: add support for TP-Link TL-WR840N v5 TP-Link TL-WR840N v5 is simple N300 router with 5-port FE switch and non-detachable antennas, based on MediaTek MT7628NN (aka MT7628N) WiSoC. Specification: - MT7628N/N (580 MHz) - 64 MB of RAM (DDR2) - 4 MB of FLASH - 2T2R 2.4 GHz - 5x 10/100 Mbps Ethernet - 2x external, non-detachable antennas - UART (J1) header on PCB (115200 8n1) - 1x LED (GPIO-controlled), 1x button * LED in TL-WR840N v5 is a dual-color, dual-leads type which isn't (fully) supported by gpio-leds driver. This type of LED requires both GPIOs state change at the same time to select color or turn it off. For now, we support/use only the green part of the LED. Orange LED is registered so you can later use it for your own purposes. Flash instruction: Unlike TL-WR840N v4 flashing through WEB UI works in v5. 1. Download lede-ramips-mt76x8-tl-wr840n-v5-squashfs-sysupgrade.bin image. 2. Go to 192.168.0.1 3. Flash the sysupgrade image through Firmware upgrade section of WEB UI. 4. Wait until green LED stops flashing and use the router. Notes: TFTP recovery is broken since TP-Link reused bootloader code for v4 and that does not take into account only 4 MB of flash and bricks the device. So do not use TFTP Recovery or you will have to rewrite SPI flash. They fixed it in later GPL code,but it is unknown which version of bootloader you have. After manually compiling and flashing bootloader from GPL sources TFTP recovery works properly. Signed-off-by: Robert Marko <robimarko@gmail.com>
2017-11-08 13:00:06 +00:00
.id = "4Mmtk",
.fw_max_len = 0x3d0000,
ramips: add support for TP-Link TL-WR840N v5 TP-Link TL-WR840N v5 is simple N300 router with 5-port FE switch and non-detachable antennas, based on MediaTek MT7628NN (aka MT7628N) WiSoC. Specification: - MT7628N/N (580 MHz) - 64 MB of RAM (DDR2) - 4 MB of FLASH - 2T2R 2.4 GHz - 5x 10/100 Mbps Ethernet - 2x external, non-detachable antennas - UART (J1) header on PCB (115200 8n1) - 1x LED (GPIO-controlled), 1x button * LED in TL-WR840N v5 is a dual-color, dual-leads type which isn't (fully) supported by gpio-leds driver. This type of LED requires both GPIOs state change at the same time to select color or turn it off. For now, we support/use only the green part of the LED. Orange LED is registered so you can later use it for your own purposes. Flash instruction: Unlike TL-WR840N v4 flashing through WEB UI works in v5. 1. Download lede-ramips-mt76x8-tl-wr840n-v5-squashfs-sysupgrade.bin image. 2. Go to 192.168.0.1 3. Flash the sysupgrade image through Firmware upgrade section of WEB UI. 4. Wait until green LED stops flashing and use the router. Notes: TFTP recovery is broken since TP-Link reused bootloader code for v4 and that does not take into account only 4 MB of flash and bricks the device. So do not use TFTP Recovery or you will have to rewrite SPI flash. They fixed it in later GPL code,but it is unknown which version of bootloader you have. After manually compiling and flashing bootloader from GPL sources TFTP recovery works properly. Signed-off-by: Robert Marko <robimarko@gmail.com>
2017-11-08 13:00:06 +00:00
.kernel_la = 0x80000000,
.kernel_ep = 0x80000000,
.rootfs_ofs = 0x140000,
}, {
.id = "8Mltq",
.fw_max_len = 0x7a0000,
.kernel_la = 0x80002000,
.kernel_ep = 0x80002000,
.rootfs_ofs = 0x140000,
}, {
.id = "16Mltq",
.fw_max_len = 0xf90000,
.kernel_la = 0x80002000,
.kernel_ep = 0x800061b0,
.rootfs_ofs = 0x140000,
}, {
.id = "8Mmtk",
.fw_max_len = 0x7a0000,
.kernel_la = 0x80000000,
.kernel_ep = 0x80000000,
.rootfs_ofs = 0x140000,
}, {
.id = "8MLmtk",
.fw_max_len = 0x7b0000,
.kernel_la = 0x80000000,
.kernel_ep = 0x80000000,
.rootfs_ofs = 0x140000,
}, {
/* terminating entry */
}
};
static void usage(int status)
{
FILE *stream = (status != EXIT_SUCCESS) ? stderr : stdout;
struct board_info *board;
fprintf(stream, "Usage: %s [OPTIONS...]\n", progname);
fprintf(stream,
"\n"
"Options:\n"
" -c use combined kernel image\n"
" -e swap endianness in kernel load address and entry point\n"
" -E <ep> overwrite kernel entry point with <ep> (hexval prefixed with 0x)\n"
" -L <la> overwrite kernel load address with <la> (hexval prefixed with 0x)\n"
" -H <hwid> use hardware id specified with <hwid>\n"
" -W <hwrev> use hardware revision specified with <hwrev>\n"
" -w <hwveradd> use additional hardware version specified with <hwveradd>\n"
" -F <id> use flash layout specified with <id>\n"
" -k <file> read kernel image from the file <file>\n"
" -r <file> read rootfs image from the file <file>\n"
" -a <align> align the rootfs start on an <align> bytes boundary\n"
" -R <offset> overwrite rootfs offset with <offset> (hexval prefixed with 0x)\n"
" -o <file> write output to the file <file>\n"
" -s strip padding from the end of the image\n"
" -j add jffs2 end-of-filesystem markers\n"
" -N <vendor> set image vendor to <vendor>\n"
" -T <version> set header version to <version>\n"
" -V <version> set image version to <version>\n"
" -v <version> set firmware version to <version>\n"
" -y <version> set secondary version to <version>\n"
" -i <file> inspect given firmware file <file>\n"
" -x extract kernel and rootfs while inspecting (requires -i)\n"
" -h show this screen\n"
);
exit(status);
}
static int check_options(void)
{
int ret;
if (inspect_info.file_name) {
ret = get_file_stat(&inspect_info);
if (ret)
return ret;
return 0;
} else if (extract) {
ERR("no firmware for inspection specified");
return -1;
}
if (opt_hw_id == NULL) {
ERR("hardware id must be specified");
return -1;
}
board = &custom_board;
if (layout_id == NULL) {
ERR("flash layout is not specified");
return -1;
}
board->hw_id = strtoul(opt_hw_id, NULL, 0);
board->hw_rev = 1;
board->hw_ver_add = 0;
if (opt_hw_rev)
board->hw_rev = strtoul(opt_hw_rev, NULL, 0);
if (opt_hw_ver_add)
board->hw_ver_add = strtoul(opt_hw_ver_add, NULL, 0);
layout = find_layout(layouts, layout_id);
if (layout == NULL) {
ERR("unknown flash layout \"%s\"", layout_id);
return -1;
}
if (!kernel_la)
kernel_la = layout->kernel_la;
if (!kernel_ep)
kernel_ep = layout->kernel_ep;
if (!rootfs_ofs)
rootfs_ofs = layout->rootfs_ofs;
if (kernel_info.file_name == NULL) {
ERR("no kernel image specified");
return -1;
}
ret = get_file_stat(&kernel_info);
if (ret)
return ret;
kernel_len = kernel_info.file_size;
if (combined) {
if (kernel_info.file_size >
layout->fw_max_len - sizeof(struct fw_header)) {
ERR("kernel image is too big");
return -1;
}
} else {
if (rootfs_info.file_name == NULL) {
ERR("no rootfs image specified");
return -1;
}
ret = get_file_stat(&rootfs_info);
if (ret)
return ret;
if (rootfs_align) {
kernel_len += sizeof(struct fw_header);
tools/firmware-utils: mktplinkfw* fix rootfs offset With '-a' specified on the command line, the current code: - computes an aligned _kernel length_ instead of an aligned _rootfs offset_. - does not update the rootfs offset after computing the new kernel length, and instead retains the layout default. When the kernel length exceeds the available space left with this fixed offset, the resulting image header contains invalid data, with the recorded rootfs offset overlapping the kernel area. This patch ensures that rootfs offset is correctly computed and reflected in the final image. Furthermore, the build_fw() function special cases the rootfs_align option because of the above invalid logic. This is also fixed and the computed (or command-line provided, or layout-provided) rootfs_ofs value is used in all cases. There seems to be no valid reason to extend the kernel length beyond the actual length of the kernel itself (OFW images don't do it) so this part of the existing behavior is dropped. Example image before the patch: Kernel data offset : 0x00000200 / 512 bytes Kernel data length : 0x00158438 / 1410104 bytes Kernel load address : 0x00000080 Kernel entry point : 0x00000080 Rootfs data offset : 0x00140000 / 1310720 bytes Rootfs data length : 0x001e4f7e / 1986430 bytes Example image after the patch: Kernel data offset : 0x00000200 / 512 bytes Kernel data length : 0x001583fe / 1410046 bytes Kernel load address : 0x00000080 Kernel entry point : 0x00000080 Rootfs data offset : 0x00158600 / 1410560 bytes Rootfs data length : 0x001e4e22 / 1986082 bytes Tested-by: Mathias Kresin <dev@kresin.me> Tested-by: Stefan Lippers-Hollmann <s.l-h@gmx.de> Tested-by: Daniel Engberg <daniel.engberg.lists@pyret.net> Tested-by: Henryk Heisig <hyniu@o2.pl> Signed-off-by: Thibaut VARÈNE <hacks@slashdirt.org>
2017-10-27 18:12:15 +00:00
rootfs_ofs = ALIGN(kernel_len, rootfs_align);
kernel_len -= sizeof(struct fw_header);
tools/firmware-utils: mktplinkfw* fix rootfs offset With '-a' specified on the command line, the current code: - computes an aligned _kernel length_ instead of an aligned _rootfs offset_. - does not update the rootfs offset after computing the new kernel length, and instead retains the layout default. When the kernel length exceeds the available space left with this fixed offset, the resulting image header contains invalid data, with the recorded rootfs offset overlapping the kernel area. This patch ensures that rootfs offset is correctly computed and reflected in the final image. Furthermore, the build_fw() function special cases the rootfs_align option because of the above invalid logic. This is also fixed and the computed (or command-line provided, or layout-provided) rootfs_ofs value is used in all cases. There seems to be no valid reason to extend the kernel length beyond the actual length of the kernel itself (OFW images don't do it) so this part of the existing behavior is dropped. Example image before the patch: Kernel data offset : 0x00000200 / 512 bytes Kernel data length : 0x00158438 / 1410104 bytes Kernel load address : 0x00000080 Kernel entry point : 0x00000080 Rootfs data offset : 0x00140000 / 1310720 bytes Rootfs data length : 0x001e4f7e / 1986430 bytes Example image after the patch: Kernel data offset : 0x00000200 / 512 bytes Kernel data length : 0x001583fe / 1410046 bytes Kernel load address : 0x00000080 Kernel entry point : 0x00000080 Rootfs data offset : 0x00158600 / 1410560 bytes Rootfs data length : 0x001e4e22 / 1986082 bytes Tested-by: Mathias Kresin <dev@kresin.me> Tested-by: Stefan Lippers-Hollmann <s.l-h@gmx.de> Tested-by: Daniel Engberg <daniel.engberg.lists@pyret.net> Tested-by: Henryk Heisig <hyniu@o2.pl> Signed-off-by: Thibaut VARÈNE <hacks@slashdirt.org>
2017-10-27 18:12:15 +00:00
DBG("rootfs offset aligned to 0x%u", rootfs_ofs);
if (kernel_len + rootfs_info.file_size >
layout->fw_max_len - sizeof(struct fw_header)) {
ERR("images are too big");
return -1;
}
} else {
if (kernel_info.file_size >
rootfs_ofs - sizeof(struct fw_header)) {
ERR("kernel image is too big");
return -1;
}
if (rootfs_info.file_size >
(layout->fw_max_len - rootfs_ofs)) {
ERR("rootfs image is too big");
return -1;
}
}
}
if (ofname == NULL) {
ERR("no output file specified");
return -1;
}
ret = sscanf(fw_ver, "%d.%d.%d", &fw_ver_hi, &fw_ver_mid, &fw_ver_lo);
if (ret != 3) {
ERR("invalid firmware version '%s'", fw_ver);
return -1;
}
ret = sscanf(sver, "%d.%d", &sver_hi, &sver_lo);
if (ret != 2) {
ERR("invalid secondary version '%s'", sver);
return -1;
}
return 0;
}
void fill_header(char *buf, int len)
{
struct fw_header *hdr = (struct fw_header *)buf;
unsigned ver_len;
memset(hdr, '\xff', sizeof(struct fw_header));
hdr->version = htonl(bswap_32(hdr_ver));
ver_len = strlen(version);
if (ver_len > (sizeof(hdr->fw_version) - 1))
ver_len = sizeof(hdr->fw_version) - 1;
memcpy(hdr->fw_version, version, ver_len);
hdr->fw_version[ver_len] = 0;
hdr->hw_id = htonl(board->hw_id);
hdr->hw_rev = htonl(board->hw_rev);
hdr->hw_ver_add = htonl(board->hw_ver_add);
if (boot_info.file_size == 0) {
memcpy(hdr->md5sum1, md5salt_normal, sizeof(hdr->md5sum1));
hdr->boot_ofs = htonl(0);
hdr->boot_len = htonl(0);
} else {
memcpy(hdr->md5sum1, md5salt_boot, sizeof(hdr->md5sum1));
hdr->boot_ofs = htonl(rootfs_ofs + rootfs_info.file_size);
hdr->boot_len = htonl(rootfs_info.file_size);
}
hdr->kernel_la = htonl(kernel_la);
hdr->kernel_ep = htonl(kernel_ep);
hdr->fw_length = htonl(layout->fw_max_len);
hdr->kernel_ofs = htonl(sizeof(struct fw_header));
hdr->kernel_len = htonl(kernel_len);
if (!combined) {
hdr->rootfs_ofs = htonl(rootfs_ofs);
hdr->rootfs_len = htonl(rootfs_info.file_size);
}
hdr->boot_ofs = htonl(0);
hdr->boot_len = htonl(boot_info.file_size);
hdr->unk2 = htonl(0);
hdr->unk3 = htonl(0xffffffff);
hdr->unk4 = htons(0x55aa);
hdr->unk5 = 0xa5;
hdr->sver_hi = sver_hi;
hdr->sver_lo = sver_lo;
hdr->ver_hi = fw_ver_hi;
hdr->ver_mid = fw_ver_mid;
hdr->ver_lo = fw_ver_lo;
if (board->flags & FLAG_LE_KERNEL_LA_EP) {
hdr->kernel_la = bswap_32(hdr->kernel_la);
hdr->kernel_ep = bswap_32(hdr->kernel_ep);
}
get_md5(buf, len, hdr->md5sum1);
}
static int inspect_fw(void)
{
char *buf;
struct fw_header *hdr;
uint8_t md5sum[MD5SUM_LEN];
struct board_info *board;
int ret = EXIT_FAILURE;
buf = malloc(inspect_info.file_size);
if (!buf) {
ERR("no memory for buffer!\n");
goto out;
}
ret = read_to_buf(&inspect_info, buf);
if (ret)
goto out_free_buf;
hdr = (struct fw_header *)buf;
board = &custom_board;
if (board->flags & FLAG_LE_KERNEL_LA_EP) {
hdr->kernel_la = bswap_32(hdr->kernel_la);
hdr->kernel_ep = bswap_32(hdr->kernel_ep);
}
inspect_fw_pstr("File name", inspect_info.file_name);
inspect_fw_phexdec("File size", inspect_info.file_size);
switch(bswap_32(ntohl(hdr->version))) {
case 2:
case 3:
break;
default:
ERR("file does not seem to have V2/V3 header!\n");
goto out_free_buf;
}
inspect_fw_phexdec("Version 2 Header size", sizeof(struct fw_header));
memcpy(md5sum, hdr->md5sum1, sizeof(md5sum));
if (ntohl(hdr->boot_len) == 0)
memcpy(hdr->md5sum1, md5salt_normal, sizeof(md5sum));
else
memcpy(hdr->md5sum1, md5salt_boot, sizeof(md5sum));
get_md5(buf, inspect_info.file_size, hdr->md5sum1);
if (memcmp(md5sum, hdr->md5sum1, sizeof(md5sum))) {
inspect_fw_pmd5sum("Header MD5Sum1", md5sum, "(*ERROR*)");
inspect_fw_pmd5sum(" --> expected", hdr->md5sum1, "");
} else {
inspect_fw_pmd5sum("Header MD5Sum1", md5sum, "(ok)");
}
if (ntohl(hdr->unk2) != 0)
inspect_fw_phexdec("Unknown value 2", hdr->unk2);
inspect_fw_pmd5sum("Header MD5Sum2", hdr->md5sum2,
"(purpose yet unknown, unchecked here)");
if (ntohl(hdr->unk3) != 0xffffffff)
inspect_fw_phexdec("Unknown value 3", hdr->unk3);
if (ntohs(hdr->unk4) != 0x55aa)
inspect_fw_phexdec("Unknown value 4", hdr->unk4);
if (hdr->unk5 != 0xa5)
inspect_fw_phexdec("Unknown value 5", hdr->unk5);
printf("\n");
inspect_fw_pstr("Firmware version", hdr->fw_version);
inspect_fw_phex("Hardware ID", ntohl(hdr->hw_id));
inspect_fw_phex("Hardware Revision",
ntohl(hdr->hw_rev));
inspect_fw_phex("Additional HW Version",
ntohl(hdr->hw_ver_add));
printf("%-23s: %d.%d.%d-%d.%d\n", "Software version",
hdr->ver_hi, hdr->ver_mid, hdr->ver_lo,
hdr->sver_hi, hdr->sver_lo);
printf("\n");
inspect_fw_phexdec("Kernel data offset",
ntohl(hdr->kernel_ofs));
inspect_fw_phexdec("Kernel data length",
ntohl(hdr->kernel_len));
inspect_fw_phex("Kernel load address",
ntohl(hdr->kernel_la));
inspect_fw_phex("Kernel entry point",
ntohl(hdr->kernel_ep));
inspect_fw_phexdec("Rootfs data offset",
ntohl(hdr->rootfs_ofs));
inspect_fw_phexdec("Rootfs data length",
ntohl(hdr->rootfs_len));
inspect_fw_phexdec("Boot loader data offset",
ntohl(hdr->boot_ofs));
inspect_fw_phexdec("Boot loader data length",
ntohl(hdr->boot_len));
inspect_fw_phexdec("Total firmware length",
ntohl(hdr->fw_length));
if (extract) {
FILE *fp;
char *filename;
printf("\n");
filename = malloc(strlen(inspect_info.file_name) + 8);
sprintf(filename, "%s-kernel", inspect_info.file_name);
printf("Extracting kernel to \"%s\"...\n", filename);
fp = fopen(filename, "w");
if (fp) {
if (!fwrite(buf + ntohl(hdr->kernel_ofs),
ntohl(hdr->kernel_len), 1, fp)) {
ERR("error in fwrite(): %s", strerror(errno));
}
fclose(fp);
} else {
ERR("error in fopen(): %s", strerror(errno));
}
free(filename);
filename = malloc(strlen(inspect_info.file_name) + 8);
sprintf(filename, "%s-rootfs", inspect_info.file_name);
printf("Extracting rootfs to \"%s\"...\n", filename);
fp = fopen(filename, "w");
if (fp) {
if (!fwrite(buf + ntohl(hdr->rootfs_ofs),
ntohl(hdr->rootfs_len), 1, fp)) {
ERR("error in fwrite(): %s", strerror(errno));
}
fclose(fp);
} else {
ERR("error in fopen(): %s", strerror(errno));
}
free(filename);
}
out_free_buf:
free(buf);
out:
return ret;
}
int main(int argc, char *argv[])
{
int ret = EXIT_FAILURE;
progname = basename(argv[0]);
while ( 1 ) {
int c;
c = getopt(argc, argv, "a:H:E:F:L:V:N:W:w:ci:k:r:R:o:xhsjv:y:T:e");
if (c == -1)
break;
switch (c) {
case 'a':
sscanf(optarg, "0x%x", &rootfs_align);
break;
case 'H':
opt_hw_id = optarg;
break;
case 'E':
sscanf(optarg, "0x%x", &kernel_ep);
break;
case 'F':
layout_id = optarg;
break;
case 'W':
opt_hw_rev = optarg;
break;
case 'w':
opt_hw_ver_add = optarg;
break;
case 'L':
sscanf(optarg, "0x%x", &kernel_la);
break;
case 'V':
version = optarg;
break;
case 'v':
fw_ver = optarg;
break;
case 'y':
sver = optarg;
break;
case 'N':
vendor = optarg;
break;
case 'c':
combined++;
break;
case 'k':
kernel_info.file_name = optarg;
break;
case 'r':
rootfs_info.file_name = optarg;
break;
case 'R':
sscanf(optarg, "0x%x", &rootfs_ofs);
break;
case 'o':
ofname = optarg;
break;
case 's':
strip_padding = 1;
break;
case 'i':
inspect_info.file_name = optarg;
break;
case 'j':
add_jffs2_eof = 1;
break;
case 'x':
extract = 1;
break;
case 'T':
hdr_ver = atoi(optarg);
break;
case 'e':
custom_board.flags = FLAG_LE_KERNEL_LA_EP;
break;
case 'h':
usage(EXIT_SUCCESS);
break;
default:
usage(EXIT_FAILURE);
break;
}
}
ret = check_options();
if (ret)
goto out;
if (!inspect_info.file_name)
ret = build_fw(sizeof(struct fw_header));
else
ret = inspect_fw();
out:
return ret;
}