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/***************************************************************************
* __________ __ ___ .
* Open \ ______ \ ____ ____ | | _ \ _ | __ _______ ___
* Source | _ // _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( < _ > ) \ ___ | < | \ _ \ ( < _ > > < <
* Firmware | ____ | _ / \ ____ / \ ___ > __ | _ \ | ___ / \ ____ / __ / \ _ \
* \ / \ / \ / \ / \ /
* $ Id $
*
* Copyright ( C ) 2010 Bertrik Sikken
*
* 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 software is distributed on an " AS IS " basis , WITHOUT WARRANTY OF ANY
* KIND , either express or implied .
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* . sb file parser and chunk extractor
*
* Based on amsinfo , which is
* Copyright © 2008 Rafaël Carré < rafael . carre @ gmail . com >
*/
# define _ISOC99_SOURCE /* snprintf() */
# include <stdio.h>
# include <sys/types.h>
# include <sys/stat.h>
# include <fcntl.h>
# include <errno.h>
# include <unistd.h>
# include <stdlib.h>
# include <inttypes.h>
# include <string.h>
# include <ctype.h>
# include <time.h>
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# include "crypto.h"
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# include "elf.h"
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# include "sb.h"
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# if 1 /* ANSI colors */
# define color(a) printf("%s",a)
char OFF [ ] = { 0x1b , 0x5b , 0x31 , 0x3b , ' 0 ' , ' 0 ' , 0x6d , ' \0 ' } ;
char GREY [ ] = { 0x1b , 0x5b , 0x31 , 0x3b , ' 3 ' , ' 0 ' , 0x6d , ' \0 ' } ;
char RED [ ] = { 0x1b , 0x5b , 0x31 , 0x3b , ' 3 ' , ' 1 ' , 0x6d , ' \0 ' } ;
char GREEN [ ] = { 0x1b , 0x5b , 0x31 , 0x3b , ' 3 ' , ' 2 ' , 0x6d , ' \0 ' } ;
char YELLOW [ ] = { 0x1b , 0x5b , 0x31 , 0x3b , ' 3 ' , ' 3 ' , 0x6d , ' \0 ' } ;
char BLUE [ ] = { 0x1b , 0x5b , 0x31 , 0x3b , ' 3 ' , ' 4 ' , 0x6d , ' \0 ' } ;
# else
/* disable colors */
# define color(a)
# endif
# define bug(...) do { fprintf(stderr,"ERROR: "__VA_ARGS__); exit(1); } while(0)
# define bugp(a) do { perror("ERROR: "a); exit(1); } while(0)
/* all blocks are sized as a multiple of 0x1ff */
# define PAD_TO_BOUNDARY(x) (((x) + 0x1ff) & ~0x1ff)
/* If you find a firmware that breaks the known format ^^ */
# define assert(a) do { if(!(a)) { fprintf(stderr,"Assertion \"%s\" failed in %s() line %d!\n\nPlease send us your firmware!\n",#a,__func__,__LINE__); exit(1); } } while(0)
/* globals */
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size_t g_sz ; /* file size */
uint8_t * g_buf ; /* file content */
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# define PREFIX_SIZE 128
char out_prefix [ PREFIX_SIZE ] ;
const char * key_file ;
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void * xmalloc ( size_t s ) /* malloc helper, used in elf.c */
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{
void * r = malloc ( s ) ;
if ( ! r ) bugp ( " malloc " ) ;
return r ;
}
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static void print_hex ( byte * data , int len , bool newline )
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{
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for ( int i = 0 ; i < len ; i + + )
printf ( " %02X " , data [ i ] ) ;
if ( newline )
printf ( " \n " ) ;
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}
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int convxdigit ( char digit , byte * val )
{
if ( digit > = ' 0 ' & & digit < = ' 9 ' )
{
* val = digit - ' 0 ' ;
return 0 ;
}
else if ( digit > = ' A ' & & digit < = ' F ' )
{
* val = digit - ' A ' + 10 ;
return 0 ;
}
else if ( digit > = ' a ' & & digit < = ' f ' )
{
* val = digit - ' a ' + 10 ;
return 0 ;
}
else
return 1 ;
}
typedef byte ( * key_array_t ) [ 16 ] ;
static key_array_t read_keys ( int num_keys )
{
int size ;
struct stat st ;
int fd = open ( key_file , O_RDONLY ) ;
if ( fd = = - 1 )
bugp ( " opening key file failed " ) ;
if ( fstat ( fd , & st ) = = - 1 )
bugp ( " key file stat() failed " ) ;
size = st . st_size ;
char * buf = xmalloc ( size ) ;
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if ( read ( fd , buf , size ) ! = ( ssize_t ) size )
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bugp ( " reading key file " ) ;
close ( fd ) ;
key_array_t keys = xmalloc ( sizeof ( byte [ 16 ] ) * num_keys ) ;
int pos = 0 ;
for ( int i = 0 ; i < num_keys ; i + + )
{
/* skip ws */
while ( pos < size & & isspace ( buf [ pos ] ) )
pos + + ;
/* enough space ? */
if ( ( pos + 32 ) > size )
bugp ( " invalid key file (not enough keys) " ) ;
for ( int j = 0 ; j < 16 ; j + + )
{
byte a , b ;
if ( convxdigit ( buf [ pos + 2 * j ] , & a ) | | convxdigit ( buf [ pos + 2 * j + 1 ] , & b ) )
bugp ( " invalid key, it should be a 128-bit key written in hexadecimal \n " ) ;
keys [ i ] [ j ] = ( a < < 4 ) | b ;
}
pos + = 32 ;
}
free ( buf ) ;
return keys ;
}
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# define ROUND_UP(val, round) ((((val) + (round) - 1) / (round)) * (round))
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static uint8_t instruction_checksum ( struct sb_instruction_header_t * hdr )
{
uint8_t sum = 90 ;
byte * ptr = ( byte * ) hdr ;
for ( int i = 1 ; i < 16 ; i + + )
sum + = ptr [ i ] ;
return sum ;
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}
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static void elf_write ( void * user , uint32_t addr , const void * buf , size_t count )
{
FILE * f = user ;
fseek ( f , addr , SEEK_SET ) ;
fwrite ( buf , count , 1 , f ) ;
}
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static void extract_elf_section ( struct elf_params_t * elf , int count , const char * prefix ,
const char * indent )
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{
char * filename = xmalloc ( strlen ( prefix ) + 32 ) ;
sprintf ( filename , " %s.%d.elf " , prefix , count ) ;
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printf ( " %swrite %s \n " , indent , filename ) ;
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FILE * fd = fopen ( filename , " wb " ) ;
free ( filename ) ;
if ( fd = = NULL )
return ;
elf_output ( elf , elf_write , fd ) ;
fclose ( fd ) ;
}
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static void extract_section ( int data_sec , char name [ 5 ] , byte * buf , int size , const char * indent )
{
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char filename [ PREFIX_SIZE + 32 ] ;
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snprintf ( filename , sizeof filename , " %s%s.bin " , out_prefix , name ) ;
FILE * fd = fopen ( filename , " wb " ) ;
if ( fd ! = NULL ) {
fwrite ( buf , size , 1 , fd ) ;
fclose ( fd ) ;
}
if ( data_sec )
return ;
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snprintf ( filename , sizeof filename , " %s%s " , out_prefix , name ) ;
/* elf construction */
struct elf_params_t elf ;
elf_init ( & elf ) ;
int elf_count = 0 ;
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/* Pretty print the content */
int pos = 0 ;
while ( pos < size )
{
struct sb_instruction_header_t * hdr = ( struct sb_instruction_header_t * ) & buf [ pos ] ;
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printf ( " %s " , indent ) ;
uint8_t checksum = instruction_checksum ( hdr ) ;
if ( checksum ! = hdr - > checksum )
{
color ( GREY ) ;
printf ( " [Bad checksum] " ) ;
}
if ( hdr - > opcode = = SB_INST_LOAD )
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{
struct sb_instruction_load_t * load = ( struct sb_instruction_load_t * ) & buf [ pos ] ;
color ( RED ) ;
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printf ( " LOAD " ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( BLUE ) ;
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printf ( " addr=0x%08x " , load - > addr ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( GREEN ) ;
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printf ( " len=0x%08x " , load - > len ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( YELLOW ) ;
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printf ( " crc=0x%08x " , load - > crc ) ;
/* data is padded to 16-byte boundary with random data and crc'ed with it */
uint32_t computed_crc = crc ( & buf [ pos + sizeof ( struct sb_instruction_load_t ) ] ,
ROUND_UP ( load - > len , 16 ) ) ;
color ( RED ) ;
if ( load - > crc = = computed_crc )
printf ( " Ok \n " ) ;
else
printf ( " Failed (crc=0x%08x) \n " , computed_crc ) ;
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/* elf construction */
elf_add_load_section ( & elf , load - > addr , load - > len ,
& buf [ pos + sizeof ( struct sb_instruction_load_t ) ] ) ;
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pos + = load - > len + sizeof ( struct sb_instruction_load_t ) ;
// unsure about rounding
pos = ROUND_UP ( pos , 16 ) ;
}
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else if ( hdr - > opcode = = SB_INST_FILL )
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{
struct sb_instruction_fill_t * fill = ( struct sb_instruction_fill_t * ) & buf [ pos ] ;
color ( RED ) ;
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printf ( " FILL " ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( BLUE ) ;
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printf ( " addr=0x%08x " , fill - > addr ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( GREEN ) ;
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printf ( " len=0x%08x " , fill - > len ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( YELLOW ) ;
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printf ( " pattern=0x%08x \n " , fill - > pattern ) ;
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color ( OFF ) ;
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/* elf construction */
elf_add_fill_section ( & elf , fill - > addr , fill - > len , fill - > pattern ) ;
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pos + = sizeof ( struct sb_instruction_fill_t ) ;
// fixme: useless as pos is a multiple of 16 and fill struct is 4-bytes wide ?
pos = ROUND_UP ( pos , 16 ) ;
}
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else if ( hdr - > opcode = = SB_INST_CALL | |
hdr - > opcode = = SB_INST_JUMP )
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{
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int is_call = ( hdr - > opcode = = SB_INST_CALL ) ;
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struct sb_instruction_call_t * call = ( struct sb_instruction_call_t * ) & buf [ pos ] ;
color ( RED ) ;
if ( is_call )
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printf ( " CALL " ) ;
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else
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printf ( " JUMP " ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( BLUE ) ;
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printf ( " addr=0x%08x " , call - > addr ) ;
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color ( OFF ) ; printf ( " | " ) ;
color ( GREEN ) ;
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printf ( " arg=0x%08x \n " , call - > arg ) ;
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color ( OFF ) ;
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/* elf construction */
elf_set_start_addr ( & elf , call - > addr ) ;
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extract_elf_section ( & elf , elf_count + + , filename , indent ) ;
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elf_release ( & elf ) ;
elf_init ( & elf ) ;
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pos + = sizeof ( struct sb_instruction_call_t ) ;
// fixme: useless as pos is a multiple of 16 and call struct is 4-bytes wide ?
pos = ROUND_UP ( pos , 16 ) ;
}
else
{
color ( RED ) ;
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printf ( " Unknown instruction %d at address 0x%08lx \n " , hdr - > opcode , ( unsigned long ) pos ) ;
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break ;
}
}
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if ( ! elf_is_empty ( & elf ) )
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extract_elf_section ( & elf , elf_count + + , filename , indent ) ;
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elf_release ( & elf ) ;
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}
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static void extract ( unsigned long filesize )
{
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struct sha_1_params_t sha_1_params ;
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/* Basic header info */
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struct sb_header_t * sb_header = ( struct sb_header_t * ) g_buf ;
if ( memcmp ( sb_header - > signature , " STMP " , 4 ) ! = 0 )
bugp ( " Bad signature " ) ;
if ( sb_header - > image_size * BLOCK_SIZE ! = filesize )
bugp ( " File size mismatch " ) ;
if ( sb_header - > header_size * BLOCK_SIZE ! = sizeof ( struct sb_header_t ) )
bugp ( " Bad header size " ) ;
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if ( sb_header - > major_ver ! = IMAGE_MAJOR_VERSION | |
sb_header - > minor_ver ! = IMAGE_MINOR_VERSION )
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bugp ( " Bad file format version " ) ;
if ( sb_header - > sec_hdr_size * BLOCK_SIZE ! = sizeof ( struct sb_section_header_t ) )
bugp ( " Bad section header size " ) ;
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color ( BLUE ) ;
printf ( " Basic info: \n " ) ;
color ( GREEN ) ;
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printf ( " Header SHA-1: " ) ;
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byte * hdr_sha1 = sb_header - > sha1_header ;
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color ( YELLOW ) ;
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print_hex ( hdr_sha1 , 20 , false ) ;
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/* Check SHA1 sum */
byte computed_sha1 [ 20 ] ;
sha_1_init ( & sha_1_params ) ;
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sha_1_update ( & sha_1_params , & sb_header - > signature [ 0 ] ,
sizeof ( struct sb_header_t ) - sizeof ( sb_header - > sha1_header ) ) ;
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sha_1_finish ( & sha_1_params ) ;
sha_1_output ( & sha_1_params , computed_sha1 ) ;
color ( RED ) ;
if ( memcmp ( hdr_sha1 , computed_sha1 , 20 ) = = 0 )
printf ( " Ok \n " ) ;
else
printf ( " Failed \n " ) ;
color ( GREEN ) ;
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printf ( " Flags: " ) ;
color ( YELLOW ) ;
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printf ( " %x \n " , sb_header - > flags ) ;
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color ( GREEN ) ;
printf ( " Total file size : " ) ;
color ( YELLOW ) ;
printf ( " %ld \n " , filesize ) ;
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/* Sizes and offsets */
color ( BLUE ) ;
printf ( " Sizes and offsets: \n " ) ;
color ( GREEN ) ;
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printf ( " # of encryption keys = " ) ;
color ( YELLOW ) ;
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printf ( " %d \n " , sb_header - > nr_keys ) ;
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color ( GREEN ) ;
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printf ( " # of sections = " ) ;
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color ( YELLOW ) ;
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printf ( " %d \n " , sb_header - > nr_sections ) ;
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/* Versions */
color ( BLUE ) ;
printf ( " Versions \n " ) ;
color ( GREEN ) ;
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printf ( " Random 1: " ) ;
color ( YELLOW ) ;
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print_hex ( sb_header - > rand_pad0 , sizeof ( sb_header - > rand_pad0 ) , true ) ;
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color ( GREEN ) ;
printf ( " Random 2: " ) ;
color ( YELLOW ) ;
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print_hex ( sb_header - > rand_pad1 , sizeof ( sb_header - > rand_pad1 ) , true ) ;
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uint64_t micros = sb_header - > timestamp ;
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time_t seconds = ( micros / ( uint64_t ) 1000000L ) ;
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struct tm tm_base = { 0 , 0 , 0 , 1 , 0 , 100 , 0 , 0 , 1 , 0 , NULL } ; /* 2000/1/1 0:00:00 */
seconds + = mktime ( & tm_base ) ;
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struct tm * time = gmtime ( & seconds ) ;
color ( GREEN ) ;
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printf ( " Creation date/time = " ) ;
color ( YELLOW ) ;
printf ( " %s " , asctime ( time ) ) ;
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color ( GREEN ) ;
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printf ( " Product version = " ) ;
color ( YELLOW ) ;
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printf ( " %X.%X.%X \n " , sb_header - > product_ver . major ,
sb_header - > product_ver . minor , sb_header - > product_ver . revision ) ;
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color ( GREEN ) ;
printf ( " Component version = " ) ;
color ( YELLOW ) ;
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printf ( " %X.%X.%X \n " , sb_header - > component_ver . major ,
sb_header - > component_ver . minor , sb_header - > component_ver . revision ) ;
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/* encryption cbc-mac */
key_array_t keys = NULL ; /* array of 16-bytes keys */
byte real_key [ 16 ] ;
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if ( sb_header - > nr_keys > 0 )
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{
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keys = read_keys ( sb_header - > nr_keys ) ;
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color ( BLUE ) ;
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printf ( " Encryption data \n " ) ;
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for ( int i = 0 ; i < sb_header - > nr_keys ; i + + )
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{
color ( RED ) ;
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printf ( " Key %d: " , i ) ;
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print_hex ( keys [ i ] , 16 , true ) ;
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color ( GREEN ) ;
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printf ( " CBC-MAC of headers: " ) ;
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uint32_t ofs = sizeof ( struct sb_header_t )
+ sizeof ( struct sb_section_header_t ) * sb_header - > nr_sections
+ sizeof ( struct sb_key_dictionary_entry_t ) * i ;
struct sb_key_dictionary_entry_t * dict_entry =
( struct sb_key_dictionary_entry_t * ) & g_buf [ ofs ] ;
/* cbc mac */
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color ( YELLOW ) ;
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print_hex ( dict_entry - > hdr_cbc_mac , 16 , false ) ;
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/* check it */
byte computed_cbc_mac [ 16 ] ;
byte zero [ 16 ] ;
memset ( zero , 0 , 16 ) ;
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cbc_mac ( g_buf , NULL , sb_header - > header_size + sb_header - > nr_sections ,
keys [ i ] , zero , & computed_cbc_mac , 1 ) ;
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color ( RED ) ;
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if ( memcmp ( dict_entry - > hdr_cbc_mac , computed_cbc_mac , 16 ) = = 0 )
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printf ( " Ok \n " ) ;
else
printf ( " Failed \n " ) ;
color ( GREEN ) ;
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printf ( " Encrypted key : " ) ;
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color ( YELLOW ) ;
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print_hex ( dict_entry - > key , 16 , true ) ;
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color ( GREEN ) ;
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/* decrypt */
byte decrypted_key [ 16 ] ;
byte iv [ 16 ] ;
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memcpy ( iv , g_buf , 16 ) ; /* uses the first 16-bytes of SHA-1 sig as IV */
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cbc_mac ( dict_entry - > key , decrypted_key , 1 , keys [ i ] , iv , NULL , 0 ) ;
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printf ( " Decrypted key : " ) ;
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color ( YELLOW ) ;
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print_hex ( decrypted_key , 16 , false ) ;
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/* cross-check or copy */
if ( i = = 0 )
memcpy ( real_key , decrypted_key , 16 ) ;
else if ( memcmp ( real_key , decrypted_key , 16 ) = = 0 )
{
color ( RED ) ;
printf ( " Cross-Check Ok " ) ;
}
else
{
color ( RED ) ;
printf ( " Cross-Check Failed " ) ;
}
printf ( " \n " ) ;
}
}
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/* sections */
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color ( BLUE ) ;
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printf ( " Sections \n " ) ;
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for ( int i = 0 ; i < sb_header - > nr_sections ; i + + )
{
uint32_t ofs = sb_header - > header_size * BLOCK_SIZE + i * sizeof ( struct sb_section_header_t ) ;
struct sb_section_header_t * sec_hdr = ( struct sb_section_header_t * ) & g_buf [ ofs ] ;
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char name [ 5 ] ;
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name [ 0 ] = ( sec_hdr - > identifier > > 24 ) & 0xff ;
name [ 1 ] = ( sec_hdr - > identifier > > 16 ) & 0xff ;
name [ 2 ] = ( sec_hdr - > identifier > > 8 ) & 0xff ;
name [ 3 ] = sec_hdr - > identifier & 0xff ;
for ( int i = 0 ; i < 4 ; i + + )
if ( ! isprint ( name [ i ] ) )
name [ i ] = ' _ ' ;
name [ 4 ] = 0 ;
int pos = sec_hdr - > offset * BLOCK_SIZE ;
int size = sec_hdr - > size * BLOCK_SIZE ;
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int data_sec = ! ( sec_hdr - > flags & SECTION_BOOTABLE ) ;
int encrypted = ! ( sec_hdr - > flags & SECTION_CLEARTEXT ) ;
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color ( GREEN ) ;
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printf ( " Chunk " ) ;
color ( YELLOW ) ;
printf ( " '%s' \n " , name ) ;
color ( GREEN ) ;
printf ( " pos = " ) ;
color ( YELLOW ) ;
printf ( " %8x - %8x \n " , pos , pos + size ) ;
color ( GREEN ) ;
printf ( " len = " ) ;
color ( YELLOW ) ;
printf ( " %8x \n " , size ) ;
color ( GREEN ) ;
printf ( " flags = " ) ;
color ( YELLOW ) ;
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printf ( " %8x " , sec_hdr - > flags ) ;
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color ( RED ) ;
if ( data_sec )
printf ( " Data Section " ) ;
else
printf ( " Boot Section " ) ;
if ( encrypted )
printf ( " (Encrypted) " ) ;
printf ( " \n " ) ;
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/* save it */
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byte * sec = xmalloc ( size ) ;
if ( encrypted )
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cbc_mac ( g_buf + pos , sec , size / BLOCK_SIZE , real_key , g_buf , NULL , 0 ) ;
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else
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memcpy ( sec , g_buf + pos , size ) ;
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extract_section ( data_sec , name , sec , size , " " ) ;
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free ( sec ) ;
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}
/* final signature */
color ( BLUE ) ;
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printf ( " Final signature: \n " ) ;
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color ( GREEN ) ;
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printf ( " Encrypted signature: \n " ) ;
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color ( YELLOW ) ;
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byte * encrypted_block = & g_buf [ filesize - 32 ] ;
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printf ( " " ) ;
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print_hex ( encrypted_block , 16 , true ) ;
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printf ( " " ) ;
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print_hex ( encrypted_block + 16 , 16 , true ) ;
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/* decrypt it */
byte decrypted_block [ 32 ] ;
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cbc_mac ( encrypted_block , decrypted_block , 2 , real_key , g_buf , NULL , 0 ) ;
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color ( GREEN ) ;
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printf ( " Decrypted SHA-1: \n " ) ;
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color ( YELLOW ) ;
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print_hex ( decrypted_block , 20 , false ) ;
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/* check it */
sha_1_init ( & sha_1_params ) ;
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sha_1_update ( & sha_1_params , g_buf , filesize - 32 ) ;
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sha_1_finish ( & sha_1_params ) ;
sha_1_output ( & sha_1_params , computed_sha1 ) ;
color ( RED ) ;
if ( memcmp ( decrypted_block , computed_sha1 , 20 ) = = 0 )
printf ( " Ok \n " ) ;
else
printf ( " Failed \n " ) ;
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}
int main ( int argc , const char * * argv )
{
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int fd ;
struct stat st ;
if ( argc ! = 3 & & argc ! = 4 )
bug ( " Usage: %s <firmware> <key file> [<out prefix>] \n " , * argv ) ;
if ( argc = = 4 )
snprintf ( out_prefix , PREFIX_SIZE , " %s " , argv [ 3 ] ) ;
else
strcpy ( out_prefix , " " ) ;
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if ( ( fd = open ( argv [ 1 ] , O_RDONLY ) ) = = - 1 )
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bugp ( " opening firmware failed " ) ;
key_file = argv [ 2 ] ;
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if ( fstat ( fd , & st ) = = - 1 )
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bugp ( " firmware stat() failed " ) ;
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g_sz = st . st_size ;
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g_buf = xmalloc ( g_sz ) ;
if ( read ( fd , g_buf , g_sz ) ! = ( ssize_t ) g_sz ) /* load the whole file into memory */
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bugp ( " reading firmware " ) ;
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close ( fd ) ;
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extract ( st . st_size ) ;
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color ( OFF ) ;
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free ( g_buf ) ;
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return 0 ;
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}