2024-02-09 08:16:14 +00:00
# include "nfc_supported_card_plugin.h"
# include <flipper_application/flipper_application.h>
# include <nfc/nfc_device.h>
# include <nfc/helpers/nfc_util.h>
# include <nfc/protocols/mf_classic/mf_classic_poller_sync.h>
# include <stdint.h>
# define TAG "Microel"
# define KEY_LENGTH 6
# define UID_LENGTH 4
typedef struct {
uint64_t a ;
uint64_t b ;
} MfClassicKeyPair ;
static MfClassicKeyPair microel_1k_keys [ ] = {
{ . a = 0x000000000000 , . b = 0x000000000000 } , // 000
{ . a = 0x000000000000 , . b = 0x000000000000 } , // 001
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 002
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 003
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 004
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 005
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 006
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 007
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 008
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 009
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 010
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 011
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 012
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 013
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 014
{ . a = 0xffffffffffff , . b = 0xffffffffffff } , // 015
} ;
const uint8_t verify_sector = 1 ;
void calculateSumHex ( const uint8_t * uid , size_t uidSize , uint8_t sumHex [ ] ) {
const uint8_t xorKey [ ] = { 0x01 , 0x92 , 0xA7 , 0x75 , 0x2B , 0xF9 } ;
int sum = 0 ;
for ( size_t i = 0 ; i < uidSize ; i + + ) {
sum + = uid [ i ] ;
}
int sumTwoDigits = sum % 256 ;
if ( sumTwoDigits % 2 = = 1 ) {
sumTwoDigits + = 2 ;
}
for ( size_t i = 0 ; i < sizeof ( xorKey ) ; i + + ) {
sumHex [ i ] = sumTwoDigits ^ xorKey [ i ] ;
}
}
void generateKeyA ( const uint8_t * uid , uint8_t uidSize , uint8_t keyA [ ] ) {
uint8_t sumHex [ 6 ] ;
calculateSumHex ( uid , uidSize , sumHex ) ;
uint8_t firstCharacter = ( sumHex [ 0 ] > > 4 ) & 0xF ;
if ( firstCharacter = = 0x2 | | firstCharacter = = 0x3 | | firstCharacter = = 0xA | |
firstCharacter = = 0xB ) {
// XOR WITH 0x40
for ( size_t i = 0 ; i < sizeof ( sumHex ) ; i + + ) {
keyA [ i ] = 0x40 ^ sumHex [ i ] ;
}
} else if (
firstCharacter = = 0x6 | | firstCharacter = = 0x7 | | firstCharacter = = 0xE | |
firstCharacter = = 0xF ) {
// XOR WITH 0xC0
for ( size_t i = 0 ; i < sizeof ( sumHex ) ; i + + ) {
keyA [ i ] = 0xC0 ^ sumHex [ i ] ;
}
} else {
//Key a is the same as sumHex
for ( size_t i = 0 ; i < sizeof ( sumHex ) ; i + + ) {
keyA [ i ] = sumHex [ i ] ;
}
}
}
void generateKeyB ( uint8_t keyA [ ] , size_t keyASize , uint8_t keyB [ ] ) {
for ( size_t i = 0 ; i < keyASize ; i + + ) {
keyB [ i ] = 0xFF ^ keyA [ i ] ;
}
}
static bool microel_read ( Nfc * nfc , NfcDevice * device ) {
FURI_LOG_D ( TAG , " Entering Microel KDF " ) ;
furi_assert ( nfc ) ;
furi_assert ( device ) ;
bool is_read = false ;
MfClassicData * data = mf_classic_alloc ( ) ;
nfc_device_copy_data ( device , NfcProtocolMfClassic , data ) ;
do {
MfClassicType type = MfClassicType1k ;
MfClassicError error = mf_classic_poller_sync_detect_type ( nfc , & type ) ;
if ( error ! = MfClassicErrorNone ) break ;
//Get UID and check if it is 4 bytes
size_t uid_len ;
const uint8_t * uid = mf_classic_get_uid ( data , & uid_len ) ;
FURI_LOG_D ( TAG , " UID identified: %02X%02X%02X%02X " , uid [ 0 ] , uid [ 1 ] , uid [ 2 ] , uid [ 3 ] ) ;
if ( uid_len ! = UID_LENGTH ) break ;
// Generate keys
uint8_t keyA [ KEY_LENGTH ] ;
uint8_t keyB [ KEY_LENGTH ] ;
generateKeyA ( uid , UID_LENGTH , keyA ) ;
generateKeyB ( keyA , KEY_LENGTH , keyB ) ;
// Check key 0a to verify if it is a microel card
MfClassicKey key = { 0 } ;
nfc_util_num2bytes ( nfc_util_bytes2num ( keyA , KEY_LENGTH ) , COUNT_OF ( key . data ) , key . data ) ;
const uint8_t block_num = mf_classic_get_first_block_num_of_sector ( 0 ) ; // This is 0
MfClassicAuthContext auth_context ;
error =
mf_classic_poller_sync_auth ( nfc , block_num , & key , MfClassicKeyTypeA , & auth_context ) ;
if ( error ! = MfClassicErrorNone ) {
break ;
}
// Save keys generated to stucture
for ( size_t i = 0 ; i < mf_classic_get_total_sectors_num ( data - > type ) ; i + + ) {
if ( microel_1k_keys [ i ] . a = = 0x000000000000 ) {
microel_1k_keys [ i ] . a = nfc_util_bytes2num ( keyA , KEY_LENGTH ) ;
}
if ( microel_1k_keys [ i ] . b = = 0x000000000000 ) {
microel_1k_keys [ i ] . b = nfc_util_bytes2num ( keyB , KEY_LENGTH ) ;
}
}
MfClassicDeviceKeys keys = { } ;
for ( size_t i = 0 ; i < mf_classic_get_total_sectors_num ( data - > type ) ; i + + ) {
nfc_util_num2bytes ( microel_1k_keys [ i ] . a , sizeof ( MfClassicKey ) , keys . key_a [ i ] . data ) ;
FURI_BIT_SET ( keys . key_a_mask , i ) ;
nfc_util_num2bytes ( microel_1k_keys [ i ] . b , sizeof ( MfClassicKey ) , keys . key_b [ i ] . data ) ;
FURI_BIT_SET ( keys . key_b_mask , i ) ;
}
error = mf_classic_poller_sync_read ( nfc , & keys , data ) ;
2024-02-10 14:40:58 +00:00
if ( error = = MfClassicErrorNotPresent ) {
2024-02-09 08:16:14 +00:00
FURI_LOG_W ( TAG , " Failed to read data " ) ;
break ;
}
nfc_device_set_data ( device , NfcProtocolMfClassic , data ) ;
2024-02-10 14:40:58 +00:00
is_read = ( error = = MfClassicErrorNone ) ;
2024-02-09 08:16:14 +00:00
} while ( false ) ;
mf_classic_free ( data ) ;
return is_read ;
}
static bool microel_parse ( const NfcDevice * device , FuriString * parsed_data ) {
furi_assert ( device ) ;
furi_assert ( parsed_data ) ;
const MfClassicData * data = nfc_device_get_data ( device , NfcProtocolMfClassic ) ;
bool parsed = false ;
do {
//Get UID
size_t uid_len ;
const uint8_t * uid = mf_classic_get_uid ( data , & uid_len ) ;
if ( uid_len ! = UID_LENGTH ) break ;
// Generate key from uid
uint8_t keyA [ KEY_LENGTH ] ;
generateKeyA ( uid , UID_LENGTH , keyA ) ;
// Verify key
MfClassicSectorTrailer * sec_tr =
mf_classic_get_sector_trailer_by_sector ( data , verify_sector ) ;
uint64_t key = nfc_util_bytes2num ( sec_tr - > key_a . data , 6 ) ;
uint64_t key_for_check_from_array = nfc_util_bytes2num ( keyA , KEY_LENGTH ) ;
if ( key ! = key_for_check_from_array ) break ;
//Get credit in block number 8
const uint8_t * temp_ptr = data - > block [ 4 ] . data ;
uint16_t balance = ( temp_ptr [ 6 ] < < 8 ) | ( temp_ptr [ 5 ] ) ;
uint16_t previus_balance = ( data - > block [ 5 ] . data [ 6 ] < < 8 ) | ( data - > block [ 5 ] . data [ 5 ] ) ;
furi_string_cat_printf ( parsed_data , " \ e#Microel Card \n " ) ;
furi_string_cat_printf ( parsed_data , " UID: " ) ;
for ( size_t i = 0 ; i < UID_LENGTH ; i + + ) {
furi_string_cat_printf ( parsed_data , " %02X " , uid [ i ] ) ;
}
furi_string_cat_printf (
parsed_data , " \n Current Credit: %d.%02d E \n " , balance / 100 , balance % 100 ) ;
furi_string_cat_printf (
parsed_data ,
" Previus Credit: %d.%02d E \n " ,
previus_balance / 100 ,
previus_balance % 100 ) ;
parsed = true ;
} while ( false ) ;
return parsed ;
}
/* Actual implementation of app<>plugin interface */
static const NfcSupportedCardsPlugin microel_plugin = {
. protocol = NfcProtocolMfClassic ,
. verify =
NULL , // the verification I need is based on verifying the keys generated via uid and try to authenticate not like on mizip that there is default b0 but added verify in read function
. read = microel_read ,
. parse = microel_parse ,
} ;
/* Plugin descriptor to comply with basic plugin specification */
static const FlipperAppPluginDescriptor microel_plugin_descriptor = {
. appid = NFC_SUPPORTED_CARD_PLUGIN_APP_ID ,
. ep_api_version = NFC_SUPPORTED_CARD_PLUGIN_API_VERSION ,
. entry_point = & microel_plugin ,
} ;
/* Plugin entry point - must return a pointer to const descriptor */
const FlipperAppPluginDescriptor * microel_plugin_ep ( ) {
return & microel_plugin_descriptor ;
}
