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/*
0xFFFF - Open Free Fiasco Firmware Flasher
Copyright (C) 2012 Pali Rohár <pali.rohar@gmail.com>
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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include "global.h"
#include "device.h"
#include "image.h"
#define IMAGE_STORE_CUR(image) do { if ( image->is_shared_fd ) { image->cur = lseek(image->fd, 0, SEEK_CUR) - image->offset; if ( image->cur > image->size ) image->cur = image->size; } } while (0)
#define IMAGE_RESTORE_CUR(image) do { if ( image->is_shared_fd ) { if ( image->cur <= image->size ) lseek(image->fd, image->offset + image->cur, SEEK_SET); else lseek(image->fd, image->offset + image->size, SEEK_SET); } } while (0)
/* format: type-device:hwrevs_version */
static void image_missing_values_from_name(struct image * image, const char * name) {
char * str;
char * ptr;
char * ptr2;
char * type = NULL;
char * device = NULL;
char * hwrevs = NULL;
char * version = NULL;
enum device new_device;
str = strdup(name);
if ( ! str )
return;
ptr = strchr(str, '_');
if ( ptr ) {
*ptr = 0;
++ptr;
version = strdup(ptr);
}
ptr = strchr(str, '-');
if ( ptr ) {
*ptr = 0;
++ptr;
type = strdup(str);
ptr2 = strchr(ptr, ':');
if ( ptr2 ) {
*ptr2 = 0;
++ptr2;
hwrevs = strdup(ptr2);
}
device = strdup(ptr);
} else {
type = strdup(str);
}
if ( ! image->type )
image->type = image_type_from_string(type);
free(type);
if ( ! image->devices || image->devices->device || image->devices->device == DEVICE_ANY ) {
new_device = device_from_string(device);
if ( new_device ) {
if ( ! image->devices ) image->devices = calloc(1, sizeof(struct device_list));
if ( image->devices )
image->devices->device = new_device;
}
}
free(device);
if ( image->devices && image->devices->device && ! image->devices->hwrevs )
image->devices->hwrevs = hwrevs_alloc_from_string(hwrevs);
else
free(hwrevs);
if ( ! image->version )
image->version = version;
else
free(version);
free(str);
}
/* format: type-device:hwrevs_version */
char * image_name_alloc_from_values(struct image * image) {
char * name;
char * ptr;
char * hwrevs;
size_t length;
const char * type;
const char * device;
type = image_type_to_string(image->type);
if ( ! type )
type = "unknown";
if ( image->devices )
device = device_to_string(image->devices->device);
else
device = NULL;
if ( image->devices && image->devices->hwrevs )
hwrevs = hwrevs_alloc_to_string(image->devices->hwrevs);
else
hwrevs = NULL;
length = 1 + strlen(type);
if ( device )
length += 1 + strlen(device);
if ( hwrevs )
length += 1 + strlen(hwrevs);
if ( image->version )
length += 1 + strlen(image->version);
name = calloc(1, length);
if ( ! name )
ALLOC_ERROR_RETURN(NULL);
strcpy(name, type);
ptr = name + strlen(name);
if ( device )
ptr += sprintf(ptr, "-%s", device);
if ( hwrevs )
ptr += sprintf(ptr, ":%s", hwrevs);
if ( image->version )
ptr += sprintf(ptr, "_%s", image->version);
free(hwrevs);
return name;
}
static int image_append(struct image * image, const char * type, const char * device, const char * hwrevs, const char * version, const char * layout) {
enum image_type detected_type;
image->hash = image_hash_from_data(image);
image->devices = calloc(1, sizeof(struct device_list));
if ( ! image->devices )
return -1;
image->devices->device = DEVICE_ANY;
if ( device && device[0] ) {
image->devices->device = device_from_string(device);
if ( ! noverify && image->devices->device == DEVICE_UNKNOWN ) {
ERROR("Specified Device %s is unknown", device);
image_free(image);
return -1;
}
}
detected_type = image_type_from_data(image);
image->type = detected_type;
if ( type && type[0] ) {
image->type = image_type_from_string(type);
if ( ! noverify && image->type == IMAGE_UNKNOWN ) {
ERROR("Specified Image type %s is unknown", type);
image_free(image);
return -1;
}
if ( ! noverify && detected_type != image->type && detected_type != IMAGE_UNKNOWN ) {
ERROR("Image type mishmash (detected %s, got %s)", image_type_to_string(detected_type), type);
image_free(image);
return -1;
}
}
if ( hwrevs && hwrevs[0] )
image->devices->hwrevs = hwrevs_alloc_from_string(hwrevs);
else
image->devices->hwrevs = NULL;
if ( version && version[0] )
image->version = strdup(version);
else
image->version = NULL;
if ( layout && layout[0] )
image->layout = strdup(layout);
else
image->layout = NULL;
return 0;
}
static void image_align(struct image * image) {
size_t align = 0;
if ( image->type == IMAGE_MMC )
align = 8;
else
align = 7;
if ( align == 0 )
return;
if ( ( image->size & ( ( 1ULL << align ) - 1 ) ) == 0 )
return;
align = ((image->size >> align) + 1) << align;
image->align = align - image->size;
image->size = align;
image->hash = image_hash_from_data(image);
}
static struct image * image_alloc(void) {
struct image * image = calloc(1, sizeof(struct image));
if ( ! image )
ALLOC_ERROR_RETURN(NULL);
return image;
}
struct image * image_alloc_from_file(const char * file, const char * type, const char * device, const char * hwrevs, const char * version, const char * layout) {
struct image * image = image_alloc();
if ( ! image )
return NULL;
image->is_shared_fd = 0;
image->fd = open(file, O_RDONLY);
if ( image->fd < 0 ) {
ERROR_INFO("Cannot open image file %s", file);
free(image);
return NULL;
}
image->size = lseek(image->fd, 0, SEEK_END);
image->offset = 0;
image->cur = 0;
image->orig_filename = strdup(file);
lseek(image->fd, 0, SEEK_SET);
if ( image_append(image, type, device, hwrevs, version, layout) < 0 )
return NULL;
if ( ( ! type || ! type[0] ) && ( ! device || ! device[0] ) && ( ! hwrevs || ! hwrevs[0] ) && ( ! version || ! version[0] ) )
image_missing_values_from_name(image, file);
image_align(image);
return image;
}
struct image * image_alloc_from_shared_fd(int fd, size_t size, size_t offset, uint16_t hash, const char * type, const char * device, const char * hwrevs, const char * version, const char * layout) {
struct image * image = image_alloc();
if ( ! image )
return NULL;
image->is_shared_fd = 1;
image->fd = fd;
image->size = size;
image->offset = offset;
image->cur = 0;
if ( image_append(image, type, device, hwrevs, version, layout) < 0 )
return NULL;
if ( ! noverify && image->hash != hash ) {
ERROR("Image hash mishmash (counted %#04x, got %#04x)", image->hash, hash);
image_free(image);
return NULL;
}
image_align(image);
return image;
}
void image_free(struct image * image) {
if ( ! image )
return;
if ( ! image->is_shared_fd ) {
close(image->fd);
image->fd = -1;
}
while ( image->devices ) {
struct device_list * next = image->devices->next;
free(image->devices->hwrevs);
free(image->devices);
image->devices = next;
}
free(image->version);
free(image->layout);
free(image->orig_filename);
free(image);
}
void image_seek(struct image * image, size_t whence) {
if ( whence > image->size )
return;
if ( whence >= image->size - image->align ) {
lseek(image->fd, image->size - image->align - 1, SEEK_SET);
image->acur = whence - ( image->size - image->align );
} else {
lseek(image->fd, image->offset + whence, SEEK_SET);
image->acur = 0;
}
IMAGE_STORE_CUR(image);
}
size_t image_read(struct image * image, void * buf, size_t count) {
size_t cur;
ssize_t ret;
size_t new_count = 0;
size_t ret_count = 0;
IMAGE_RESTORE_CUR(image);
if ( ! image->is_shared_fd || image->cur < image->size - image->align ) {
if ( image->is_shared_fd && image->cur + count > image->size - image->align )
new_count = image->size - image->align - image->cur;
else
new_count = count;
ret = read(image->fd, buf, new_count);
if ( ret > 0 )
ret_count += ret;
IMAGE_STORE_CUR(image);
if ( ret < 0 )
return 0;
}
if ( ret_count == count )
return ret_count;
cur = lseek(image->fd, 0, SEEK_CUR) - image->offset;
if ( image->align && cur == image->size - image->align && image->acur < image->align ) {
if ( image->acur + count - ret_count > image->align )
new_count = image->align - image->acur;
else
new_count = count - ret_count;
memset((unsigned char *)buf+ret_count, 0xFF, new_count);
ret_count += new_count;
image->acur += new_count;
}
return ret_count;
}
void image_list_add(struct image_list ** list, struct image * image) {
struct image_list * last = calloc(1, sizeof(struct image_list));
if ( ! last )
ALLOC_ERROR_RETURN();
last->image = image;
if ( ! *list ) {
*list = last;
return;
}
while ( (*list)->next )
list = &((*list)->next);
last->prev = *list;
(*list)->next = last;
}
void image_list_del(struct image_list * list) {
if ( ! list )
return;
image_list_unlink(list);
image_free(list->image);
free(list);
}
void image_list_unlink(struct image_list * list) {
if ( ! list )
return;
if ( list->prev )
list->prev->next = list->next;
if ( list->next )
list->next->prev = list->prev;
list->prev = NULL;
list->next = NULL;
}
static uint16_t do_hash(uint16_t * b, int len) {
uint16_t result = 0;
for ( len >>= 1; len--; b = b+1 )
result^=b[0];
return result;
}
uint16_t image_hash_from_data(struct image * image) {
unsigned char buf[0x20000];
uint16_t hash = 0;
int ret;
image_seek(image, 0);
while ( ( ret = image_read(image, &buf, sizeof(buf)) ) )
hash ^= do_hash((uint16_t *)&buf, ret);
return hash;
}
static const char * image_types[] = {
[IMAGE_XLOADER] = "xloader",
[IMAGE_2ND] = "2nd",
[IMAGE_SECONDARY] = "secondary",
[IMAGE_KERNEL] = "kernel",
[IMAGE_INITFS] = "initfs",
[IMAGE_ROOTFS] = "rootfs",
[IMAGE_MMC] = "mmc",
[IMAGE_CMT_2ND] = "cmt-2nd",
[IMAGE_CMT_ALGO] = "cmt-algo",
[IMAGE_CMT_MCUSW] = "cmt-mcusw",
};
enum image_type image_type_from_data(struct image * image) {
unsigned char buf[512];
memset(buf, 0, sizeof(buf));
image_seek(image, 0);
image_read(image, buf, sizeof(buf));
if ( memcmp(buf+52, "2NDAPE", 6) == 0 )
return IMAGE_2ND;
else if ( memcmp(buf+20, "2ND", 3) == 0 )
return IMAGE_2ND;
else if ( memcmp(buf+4, "NOLOScnd", 8) == 0 )
return IMAGE_SECONDARY;
else if ( memcmp(buf+20, "X-LOADER", 8) == 0 )
return IMAGE_XLOADER;
else if ( memcmp(buf+12, "NOLOXldr", 8) == 0 )
return IMAGE_XLOADER;
else if ( memcmp(buf+4, "NOLOXldr", 8) == 0 )
return IMAGE_2ND;
else if ( memcmp(buf+36, "\x18\x28\x6f\x01", 4) == 0 ) /* ARM Linux kernel magic number */
return IMAGE_KERNEL;
else if ( memcmp(buf, "\x14\x00\x00\xea", 4) == 0 ) /* ARM U-Boot - instruction branch +0x50 */
return IMAGE_KERNEL;
else if ( memcmp(buf, "UBI#", 4) == 0 ) /* UBI EC header */
return IMAGE_ROOTFS;
else if ( memcmp(buf+510, "\x55\xaa", 2) == 0 ) /* FAT boot sector signature */
return IMAGE_MMC;
else if ( memcmp(buf, "\xb0\x00\x01\x03\x9d\x00\x00\x00", 8) == 0 )
return IMAGE_CMT_2ND;
else if ( memcmp(buf, "\xb1\x00\x00\x00\x82\x00\x00\x00", 8) == 0 )
return IMAGE_CMT_ALGO;
else if ( memcmp(buf, "\xb2\x00\x00\x01\x44\x00\x00\x00", 8) == 0 )
return IMAGE_CMT_MCUSW;
else if ( memcmp(buf, "\x45\x3d\xcd\x28", 4) == 0 ) /* CRAMFS MAGIC */
return IMAGE_INITFS;
else if ( memcmp(buf, "\x85\x19", 2) == 0 ) { /* JFFS2 MAGIC */
if ( image->size < 0x300000 )
return IMAGE_INITFS;
else
return IMAGE_ROOTFS;
}
return IMAGE_UNKNOWN;
}
enum image_type image_type_from_string(const char * type) {
size_t i;
if ( ! type )
return IMAGE_UNKNOWN;
for ( i = 0; i < sizeof(image_types)/sizeof(image_types[0]); ++i )
if ( image_types[i] && strcmp(image_types[i], type) == 0 )
return i;
return IMAGE_UNKNOWN;
}
const char * image_type_to_string(enum image_type type) {
if ( type >= sizeof(image_types)/sizeof(image_types[0]) )
return NULL;
return image_types[type];
}
int image_hwrev_is_valid(struct image * image, int16_t hwrev) {
struct device_list * device_ptr = image->devices;
while ( device_ptr ) {
if ( hwrev_is_valid(device_ptr->hwrevs, hwrev) )
return 1;
device_ptr = device_ptr->next;
}
return 0;
}
void image_print_info(struct image * image) {
const char * str;
struct device_list * device = image->devices;
if ( image->orig_filename )
printf("File: %s\n", image->orig_filename);
str = image_type_to_string(image->type);
printf(" Image type: %s\n", str ? str : "unknown");
printf(" Image size: %d bytes\n", image->size);
if ( image->version )
printf(" Image version: %s\n", image->version);
if ( image->layout )
printf(" Image layout: included\n");
while ( device ) {
char * str2 = NULL;
struct device_list * next = device->next;
if ( device->device == DEVICE_UNKNOWN )
str = "unknown";
else
str = device_to_string(device->device);
if ( str )
printf(" Valid for: device %s", str);
if ( str && device->hwrevs )
str2 = hwrevs_alloc_to_string(device->hwrevs);
if ( str2 ) {
printf(", HW revisions: %s\n", str2);
free(str2);
} else if ( str ) {
printf("\n");
}
device = next;
}
}
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