abootimg/abootimg.c

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/* abootimg - Manipulate (read, modify, create) Android Boot Images
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* Copyright (c) 2010-2011 Gilles Grandou <gilles@grandou.net>
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*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <stdarg.h>
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#include <fcntl.h>
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#include <sys/stat.h>
#include <unistd.h>
#ifdef __linux__
#include <sys/ioctl.h>
#include <linux/fs.h> /* BLKGETSIZE64 */
#endif
#ifdef __CYGWIN__
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#include <sys/ioctl.h>
#include <cygwin/fs.h> /* BLKGETSIZE64 */
#endif
#if defined(__FreeBSD__) || defined(__FreeBSD_kernel__)
#include <sys/disk.h> /* DIOCGMEDIASIZE */
#include <sys/sysctl.h>
#endif
#if defined(__APPLE__)
# include <sys/disk.h> /* DKIOCGETBLOCKCOUNT */
#endif
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#ifdef HAS_BLKID
#include <blkid/blkid.h>
#endif
#include "version.h"
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#include "bootimg.h"
enum command {
none,
help,
info,
extract,
update,
create
};
typedef struct
{
unsigned size;
int is_blkdev;
char* fname;
char* config_fname;
char* kernel_fname;
char* ramdisk_fname;
char* second_fname;
FILE* stream;
boot_img_hdr header;
char* kernel;
char* ramdisk;
char* second;
} t_abootimg;
#define MAX_CONF_LEN 4096
char config_args[MAX_CONF_LEN] = "";
void abort_perror(char* str)
{
perror(str);
exit(errno);
}
void abort_printf(char *fmt, ...)
{
va_list args;
va_start(args, fmt);
vfprintf(stderr, fmt, args);
va_end(args);
fprintf(stderr, "\n");
exit(1);
}
int blkgetsize(int fd, unsigned long long *pbsize)
{
# if defined(__FreeBSD__) || defined(__FreeBSD_kernel__)
return ioctl(fd, DIOCGMEDIASIZE, pbsize);
# elif defined(__APPLE__)
return ioctl(fd, DKIOCGETBLOCKCOUNT, pbsize);
# elif defined(__NetBSD__)
// does a suitable ioctl exist?
// return (ioctl(fd, DIOCGDINFO, &label) == -1);
return 1;
# elif defined(__linux__) || defined(__CYGWIN__)
return ioctl(fd, BLKGETSIZE64, pbsize);
# elif defined(__GNU__)
// does a suitable ioctl for HURD exist?
return 1;
# else
return 1;
# endif
}
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void print_usage(void)
{
printf (
" abootimg - manipulate Android Boot Images.\n"
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" (c) 2010-2011 Gilles Grandou <gilles@grandou.net>\n"
" " VERSION_STR "\n"
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"\n"
" abootimg [-h]\n"
"\n"
" print usage\n"
"\n"
" abootimg -i <bootimg>\n"
"\n"
" print boot image information\n"
"\n"
" abootimg -x <bootimg> [<bootimg.cfg> [<kernel> [<ramdisk> [<secondstage>]]]]\n"
"\n"
" extract objects from boot image:\n"
" - config file (default name bootimg.cfg)\n"
" - kernel image (default name zImage)\n"
" - ramdisk image (default name initrd.img)\n"
" - second stage image (default name stage2.img)\n"
"\n"
" abootimg -u <bootimg> [-c \"param=value\"] [-f <bootimg.cfg>] [-k <kernel>] [-r <ramdisk>] [-s <secondstage>]\n"
"\n"
" update a current boot image with objects given in command line\n"
" - header informations given in arguments (several can be provided)\n"
" - header informations given in config file\n"
" - kernel image\n"
" - ramdisk image\n"
" - second stage image\n"
"\n"
" bootimg has to be valid Android Boot Image, or the update will abort.\n"
"\n"
" abootimg --create <bootimg> [-c \"param=value\"] [-f <bootimg.cfg>] -k <kernel> -r <ramdisk> [-s <secondstage>]\n"
"\n"
" create a new image from scratch.\n"
" if the boot image file is a block device, sanity check will be performed to avoid overwriting a existing\n"
" filesystem.\n"
"\n"
" argurments are the same than for -u.\n"
" kernel and ramdisk are mandatory.\n"
"\n"
);
}
enum command parse_args(int argc, char** argv, t_abootimg* img)
{
enum command cmd = none;
int i;
if (argc<2)
return none;
if (!strcmp(argv[1], "-h")) {
return help;
}
else if (!strcmp(argv[1], "-i")) {
cmd=info;
}
else if (!strcmp(argv[1], "-x")) {
cmd=extract;
}
else if (!strcmp(argv[1], "-u")) {
cmd=update;
}
else if (!strcmp(argv[1], "--create")) {
cmd=create;
}
else
return none;
switch(cmd) {
case info:
if (argc != 3)
return none;
img->fname = argv[2];
break;
case extract:
if ((argc < 3) || (argc > 7))
return none;
img->fname = argv[2];
if (argc >= 4)
img->config_fname = argv[3];
if (argc >= 5)
img->kernel_fname = argv[4];
if (argc >= 6)
img->ramdisk_fname = argv[5];
if (argc >= 7)
img->second_fname = argv[6];
break;
case update:
case create:
if (argc < 3)
return none;
img->fname = argv[2];
img->config_fname = NULL;
img->kernel_fname = NULL;
img->ramdisk_fname = NULL;
img->second_fname = NULL;
for(i=3; i<argc; i++) {
if (!strcmp(argv[i], "-c")) {
if (++i >= argc)
return none;
unsigned len = strlen(argv[i]);
if (strlen(config_args)+len+1 >= MAX_CONF_LEN)
abort_printf("too many config parameters.\n");
strcat(config_args, argv[i]);
strcat(config_args, "\n");
}
else if (!strcmp(argv[i], "-f")) {
if (++i >= argc)
return none;
img->config_fname = argv[i];
}
else if (!strcmp(argv[i], "-k")) {
if (++i >= argc)
return none;
img->kernel_fname = argv[i];
}
else if (!strcmp(argv[i], "-r")) {
if (++i >= argc)
return none;
img->ramdisk_fname = argv[i];
}
else if (!strcmp(argv[i], "-s")) {
if (++i >= argc)
return none;
img->second_fname = argv[i];
}
else
return none;
}
break;
}
return cmd;
}
int check_boot_img_header(t_abootimg* img)
{
if (strncmp(img->header.magic, BOOT_MAGIC, BOOT_MAGIC_SIZE)) {
fprintf(stderr, "%s: no Android Magic Value\n", img->fname);
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return 1;
}
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if (!(img->header.kernel_size)) {
fprintf(stderr, "%s: kernel size is null\n", img->fname);
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return 1;
}
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if (!(img->header.ramdisk_size)) {
fprintf(stderr, "%s: ramdisk size is null\n", img->fname);
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return 1;
}
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unsigned page_size = img->header.page_size;
if (!page_size) {
fprintf(stderr, "%s: Image page size is null\n", img->fname);
return 1;
}
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unsigned n = (img->header.kernel_size + page_size - 1) / page_size;
unsigned m = (img->header.ramdisk_size + page_size - 1) / page_size;
unsigned o = (img->header.second_size + page_size - 1) / page_size;
unsigned total_size = (1+n+m+o)*page_size;
if (total_size > img->size) {
fprintf(stderr, "%s: sizes mismatches in boot image\n", img->fname);
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return 1;
}
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return 0;
}
void check_if_block_device(t_abootimg* img)
{
struct stat st;
if (stat(img->fname, &st))
if (errno != ENOENT) {
printf("errno=%d\n", errno);
abort_perror(img->fname);
}
#ifdef HAS_BLKID
if (S_ISBLK(st.st_mode)) {
img->is_blkdev = 1;
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char* type = blkid_get_tag_value(NULL, "TYPE", img->fname);
if (type)
abort_printf("%s: refuse to write on a valid partition type (%s)\n", img->fname, type);
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int fd = open(img->fname, O_RDONLY);
if (fd == -1)
abort_perror(img->fname);
unsigned long long bsize = 0;
if (blkgetsize(fd, &bsize))
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abort_perror(img->fname);
img->size = bsize;
close(fd);
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}
#endif
}
void open_bootimg(t_abootimg* img, char* mode)
{
img->stream = fopen(img->fname, mode);
if (!img->stream)
abort_perror(img->fname);
}
void read_header(t_abootimg* img)
{
size_t rb = fread(&img->header, sizeof(boot_img_hdr), 1, img->stream);
if ((rb!=1) || ferror(img->stream))
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abort_perror(img->fname);
else if (feof(img->stream))
abort_printf("%s: cannot read image header\n", img->fname);
struct stat s;
int fd = fileno(img->stream);
if (fstat(fd, &s))
abort_perror(img->fname);
if (S_ISBLK(s.st_mode)) {
unsigned long long bsize = 0;
if (blkgetsize(fd, &bsize))
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abort_perror(img->fname);
img->size = bsize;
img->is_blkdev = 1;
}
else {
img->size = s.st_size;
img->is_blkdev = 0;
}
if (check_boot_img_header(img))
abort_printf("%s: not a valid Android Boot Image.\n", img->fname);
}
void update_header_entry(t_abootimg* img, char* cmd)
{
char *p;
char *token;
char *endtoken;
char *value;
p = strchr(cmd, '\n');
if (p)
*p = '\0';
p = cmd;
p += strspn(p, " \t");
token = p;
p += strcspn(p, " =\t");
endtoken = p;
p += strspn(p, " \t");
if (*p++ != '=')
goto err;
p += strspn(p, " \t");
value = p;
*endtoken = '\0';
unsigned valuenum = strtoul(value, NULL, 0);
if (!strcmp(token, "cmdline")) {
unsigned len = strlen(value);
if (len >= BOOT_ARGS_SIZE)
abort_printf("cmdline length (%d) is too long (max %d)", len, BOOT_ARGS_SIZE-1);
memset(img->header.cmdline, 0, BOOT_ARGS_SIZE);
strcpy(img->header.cmdline, value);
}
else if (!strncmp(token, "name", 4)) {
strncpy(img->header.name, value, BOOT_NAME_SIZE);
img->header.name[BOOT_NAME_SIZE-1] = '\0';
}
else if (!strncmp(token, "bootsize", 8)) {
if (img->is_blkdev && (img->size != valuenum))
abort_printf("%s: cannot change Boot Image size for a block device\n", img->fname);
img->size = valuenum;
}
else if (!strncmp(token, "pagesize", 8)) {
img->header.page_size = valuenum;
}
else if (!strncmp(token, "kerneladdr", 10)) {
img->header.kernel_addr = valuenum;
}
else if (!strncmp(token, "ramdiskaddr", 11)) {
img->header.ramdisk_addr = valuenum;
}
else if (!strncmp(token, "secondaddr", 10)) {
img->header.second_addr = valuenum;
}
else if (!strncmp(token, "tagsaddr", 8)) {
img->header.tags_addr = valuenum;
}
else
goto err;
return;
err:
abort_printf("%s: bad config entry\n", token);
}
void update_header(t_abootimg* img)
{
if (img->config_fname) {
FILE* config_file = fopen(img->config_fname, "r");
if (!config_file)
abort_perror(img->config_fname);
printf("reading config file %s\n", img->config_fname);
char* line = NULL;
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size_t len = 0;
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int read;
while ((read = getline(&line, &len, config_file)) != -1) {
update_header_entry(img, line);
free(line);
line = NULL;
}
if (ferror(config_file))
abort_perror(img->config_fname);
}
unsigned len = strlen(config_args);
if (len) {
FILE* config_file = fmemopen(config_args, len, "r");
if (!config_file)
abort_perror("-c args");
printf("reading config args\n");
char* line = NULL;
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size_t len = 0;
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int read;
while ((read = getline(&line, &len, config_file)) != -1) {
update_header_entry(img, line);
free(line);
line = NULL;
}
if (ferror(config_file))
abort_perror("-c args");
}
}
void update_images(t_abootimg *img)
{
unsigned page_size = img->header.page_size;
unsigned ksize = img->header.kernel_size;
unsigned rsize = img->header.ramdisk_size;
unsigned ssize = img->header.second_size;
if (!page_size)
abort_printf("%s: Image page size is null\n", img->fname);
unsigned n = (ksize + page_size - 1) / page_size;
unsigned m = (rsize + page_size - 1) / page_size;
unsigned o = (ssize + page_size - 1) / page_size;
unsigned roffset = (1+n)*page_size;
unsigned soffset = (1+n+m)*page_size;
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if (img->kernel_fname) {
printf("reading kernel from %s\n", img->kernel_fname);
FILE* stream = fopen(img->kernel_fname, "r");
if (!stream)
abort_perror(img->kernel_fname);
struct stat st;
if (fstat(fileno(stream), &st))
abort_perror(img->kernel_fname);
ksize = st.st_size;
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char* k = malloc(ksize);
if (!k)
abort_perror("");
size_t rb = fread(k, ksize, 1, stream);
if ((rb!=1) || ferror(stream))
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abort_perror(img->kernel_fname);
else if (feof(stream))
abort_printf("%s: cannot read kernel\n", img->kernel_fname);
fclose(stream);
img->header.kernel_size = ksize;
img->kernel = k;
}
if (img->ramdisk_fname) {
printf("reading ramdisk from %s\n", img->ramdisk_fname);
FILE* stream = fopen(img->ramdisk_fname, "r");
if (!stream)
abort_perror(img->ramdisk_fname);
struct stat st;
if (fstat(fileno(stream), &st))
abort_perror(img->ramdisk_fname);
rsize = st.st_size;
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char* r = malloc(rsize);
if (!r)
abort_perror("");
size_t rb = fread(r, rsize, 1, stream);
if ((rb!=1) || ferror(stream))
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abort_perror(img->ramdisk_fname);
else if (feof(stream))
abort_printf("%s: cannot read ramdisk\n", img->ramdisk_fname);
fclose(stream);
img->header.ramdisk_size = rsize;
img->ramdisk = r;
}
else if (img->kernel) {
// if kernel is updated, copy the ramdisk from original image
char* r = malloc(rsize);
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if (!r)
abort_perror("");
if (fseek(img->stream, roffset, SEEK_SET))
abort_perror(img->fname);
size_t rb = fread(r, rsize, 1, img->stream);
if ((rb!=1) || ferror(img->stream))
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abort_perror(img->fname);
else if (feof(img->stream))
abort_printf("%s: cannot read ramdisk\n", img->fname);
img->ramdisk = r;
}
if (img->second_fname) {
printf("reading second stage from %s\n", img->second_fname);
FILE* stream = fopen(img->second_fname, "r");
if (!stream)
abort_perror(img->second_fname);
struct stat st;
if (fstat(fileno(stream), &st))
abort_perror(img->second_fname);
ssize = st.st_size;
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char* s = malloc(ssize);
if (!s)
abort_perror("");
size_t rb = fread(s, ssize, 1, stream);
if ((rb!=1) || ferror(stream))
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abort_perror(img->second_fname);
else if (feof(stream))
abort_printf("%s: cannot read second stage\n", img->second_fname);
fclose(stream);
img->header.second_size = ssize;
img->second = s;
}
else if (img->ramdisk && img->header.second_size) {
// if ramdisk is updated, copy the second stage from original image
char* s = malloc(ssize);
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if (!s)
abort_perror("");
if (fseek(img->stream, soffset, SEEK_SET))
abort_perror(img->fname);
size_t rb = fread(s, ssize, 1, img->stream);
if ((rb!=1) || ferror(img->stream))
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abort_perror(img->fname);
else if (feof(img->stream))
abort_printf("%s: cannot read second stage\n", img->fname);
img->second = s;
}
n = (img->header.kernel_size + page_size - 1) / page_size;
m = (img->header.ramdisk_size + page_size - 1) / page_size;
o = (img->header.second_size + page_size - 1) / page_size;
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unsigned total_size = (1+n+m+o)*page_size;
if (!img->size)
img->size = total_size;
else if (total_size > img->size)
abort_printf("%s: updated is too big for the Boot Image (%u vs %u bytes)\n", img->fname, total_size, img->size);
}
void write_bootimg(t_abootimg* img)
{
unsigned psize;
char* padding;
printf ("Writing Boot Image %s\n", img->fname);
psize = img->header.page_size;
padding = calloc(psize, 1);
if (!padding)
abort_perror("");
unsigned n = (img->header.kernel_size + psize - 1) / psize;
unsigned m = (img->header.ramdisk_size + psize - 1) / psize;
unsigned o = (img->header.second_size + psize - 1) / psize;
unsigned total_pages = 1+n+m+o;
unsigned bootimg_pages = img->size/psize;
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if (fseek(img->stream, 0, SEEK_SET))
abort_perror(img->fname);
fwrite(&img->header, sizeof(img->header), 1, img->stream);
if (ferror(img->stream))
abort_perror(img->fname);
fwrite(padding, psize - sizeof(img->header), 1, img->stream);
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if (ferror(img->stream))
abort_perror(img->fname);
if (img->kernel) {
fwrite(img->kernel, img->header.kernel_size, 1, img->stream);
if (ferror(img->stream))
abort_perror(img->fname);
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fwrite(padding, psize - (img->header.kernel_size % psize), 1, img->stream);
if (ferror(img->stream))
abort_perror(img->fname);
}
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if (img->ramdisk) {
if (fseek(img->stream, (1+n)*psize, SEEK_SET))
abort_perror(img->fname);
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fwrite(img->ramdisk, img->header.ramdisk_size, 1, img->stream);
if (ferror(img->stream))
abort_perror(img->fname);
fwrite(padding, psize - (img->header.ramdisk_size % psize), 1, img->stream);
if (ferror(img->stream))
abort_perror(img->fname);
}
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if (img->header.second_size) {
if (fseek(img->stream, (1+n+m)*psize, SEEK_SET))
abort_perror(img->fname);
fwrite(img->second, img->header.second_size, 1, img->stream);
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if (ferror(img->stream))
abort_perror(img->fname);
fwrite(padding, psize - (img->header.second_size % psize), 1, img->stream);
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if (ferror(img->stream))
abort_perror(img->fname);
}
ftruncate (fileno(img->stream), img->size);
free(padding);
}
void print_bootimg_info(t_abootimg* img)
{
printf ("\nAndroid Boot Image Info:\n\n");
printf ("* file name = %s %s\n\n", img->fname, img->is_blkdev ? "[block device]":"");
printf ("* image size = %u bytes (%.2f MB)\n", img->size, (double)img->size/0x100000);
printf (" page size = %u bytes\n\n", img->header.page_size);
printf ("* Boot Name = \"%s\"\n\n", img->header.name);
unsigned kernel_size = img->header.kernel_size;
unsigned ramdisk_size = img->header.ramdisk_size;
unsigned second_size = img->header.second_size;
printf ("* kernel size = %u bytes (%.2f MB)\n", kernel_size, (double)kernel_size/0x100000);
printf (" ramdisk size = %u bytes (%.2f MB)\n", ramdisk_size, (double)ramdisk_size/0x100000);
if (second_size)
printf (" second stage size = %u bytes (%.2f MB)\n", ramdisk_size, (double)ramdisk_size/0x100000);
printf ("\n* load addresses:\n");
printf (" kernel: 0x%08x\n", img->header.kernel_addr);
printf (" ramdisk: 0x%08x\n", img->header.ramdisk_addr);
if (second_size)
printf (" second stage: 0x%08x\n", img->header.second_addr);
printf (" tags: 0x%08x\n\n", img->header.tags_addr);
if (img->header.cmdline[0])
printf ("* cmdline = %s\n\n", img->header.cmdline);
else
printf ("* empty cmdline\n");
printf ("* id = ");
int i;
for (i=0; i<8; i++)
printf ("0x%08x ", img->header.id[i]);
printf ("\n\n");
}
void write_bootimg_config(t_abootimg* img)
{
printf ("writing boot image config in %s\n", img->config_fname);
FILE* config_file = fopen(img->config_fname, "w");
if (!config_file)
abort_perror(img->config_fname);
fprintf(config_file, "bootsize = 0x%x\n", img->size);
fprintf(config_file, "pagesize = 0x%x\n", img->header.page_size);
fprintf(config_file, "kerneladdr = 0x%x\n", img->header.kernel_addr);
fprintf(config_file, "ramdiskaddr = 0x%x\n", img->header.ramdisk_addr);
fprintf(config_file, "secondaddr = 0x%x\n", img->header.second_addr);
fprintf(config_file, "tagsaddr = 0x%x\n", img->header.tags_addr);
fprintf(config_file, "name = %s\n", img->header.name);
fprintf(config_file, "cmdline = %s\n", img->header.cmdline);
fclose(config_file);
}
void extract_kernel(t_abootimg* img)
{
unsigned psize = img->header.page_size;
unsigned ksize = img->header.kernel_size;
printf ("extracting kernel in %s\n", img->kernel_fname);
void* k = malloc(ksize);
if (!k)
abort_perror(NULL);
if (fseek(img->stream, psize, SEEK_SET))
abort_perror(img->fname);
size_t rb = fread(k, ksize, 1, img->stream);
if ((rb!=1) || ferror(img->stream))
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abort_perror(img->fname);
FILE* kernel_file = fopen(img->kernel_fname, "w");
if (!kernel_file)
abort_perror(img->kernel_fname);
fwrite(k, ksize, 1, kernel_file);
if (ferror(kernel_file))
abort_perror(img->kernel_fname);
fclose(kernel_file);
free(k);
}
void extract_ramdisk(t_abootimg* img)
{
unsigned psize = img->header.page_size;
unsigned ksize = img->header.kernel_size;
unsigned rsize = img->header.ramdisk_size;
unsigned n = (ksize + psize - 1) / psize;
unsigned roffset = (1+n)*psize;
printf ("extracting ramdisk in %s\n", img->ramdisk_fname);
void* r = malloc(rsize);
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if (!r)
abort_perror(NULL);
if (fseek(img->stream, roffset, SEEK_SET))
abort_perror(img->fname);
size_t rb = fread(r, rsize, 1, img->stream);
if ((rb!=1) || ferror(img->stream))
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abort_perror(img->fname);
FILE* ramdisk_file = fopen(img->ramdisk_fname, "w");
if (!ramdisk_file)
abort_perror(img->ramdisk_fname);
fwrite(r, rsize, 1, ramdisk_file);
if (ferror(ramdisk_file))
abort_perror(img->ramdisk_fname);
fclose(ramdisk_file);
free(r);
}
void extract_second(t_abootimg* img)
{
unsigned psize = img->header.page_size;
unsigned ksize = img->header.kernel_size;
unsigned rsize = img->header.ramdisk_size;
unsigned ssize = img->header.second_size;
if (!ssize) // Second Stage not present
return;
unsigned n = (rsize + ksize + psize - 1) / psize;
unsigned soffset = (1+n)*psize;
printf ("extracting second stage image in %s\n", img->second_fname);
void* s = malloc(ksize);
if (!s)
abort_perror(NULL);
if (fseek(img->stream, soffset, SEEK_SET))
abort_perror(img->fname);
size_t rb = fread(s, ssize, 1, img->stream);
if ((rb!=1) || ferror(img->stream))
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abort_perror(img->fname);
FILE* second_file = fopen(img->second_fname, "w");
if (!second_file)
abort_perror(img->second_fname);
fwrite(s, ssize, 1, second_file);
if (ferror(second_file))
abort_perror(img->second_fname);
fclose(second_file);
free(s);
}
t_abootimg* new_bootimg()
{
t_abootimg* img;
img = calloc(sizeof(t_abootimg), 1);
if (!img)
abort_perror(NULL);
img->config_fname = "bootimg.cfg";
img->kernel_fname = "zImage";
img->ramdisk_fname = "initrd.img";
img->second_fname = "stage2.img";
memcpy(img->header.magic, BOOT_MAGIC, BOOT_MAGIC_SIZE);
img->header.page_size = 2048; // a sensible default page size
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return img;
}
int main(int argc, char** argv)
{
t_abootimg* bootimg = new_bootimg();
switch(parse_args(argc, argv, bootimg))
{
case none:
printf("error - bad arguments\n\n");
print_usage();
break;
case help:
print_usage();
break;
case info:
open_bootimg(bootimg, "r");
read_header(bootimg);
print_bootimg_info(bootimg);
break;
case extract:
open_bootimg(bootimg, "r");
read_header(bootimg);
write_bootimg_config(bootimg);
extract_kernel(bootimg);
extract_ramdisk(bootimg);
extract_second(bootimg);
break;
case update:
open_bootimg(bootimg, "r+");
read_header(bootimg);
update_header(bootimg);
update_images(bootimg);
write_bootimg(bootimg);
break;
case create:
if (!bootimg->kernel_fname || !bootimg->ramdisk_fname) {
print_usage();
break;
}
check_if_block_device(bootimg);
open_bootimg(bootimg, "w");
update_header(bootimg);
update_images(bootimg);
if (check_boot_img_header(bootimg))
abort_printf("%s: Sanity cheks failed", bootimg->fname);
write_bootimg(bootimg);
break;
}
return 0;
}