1 //-----------------------------------------------------------------------------
2 // This code is licensed to you under the terms of the GNU GPL, version 2 or,
3 // at your option, any later version. See the LICENSE.txt file for the text of
5 //-----------------------------------------------------------------------------
6 // Hitag2 emulation (preliminary test version)
8 // (c) 2009 Henryk Plötz <henryk@ploetzli.ch>
9 //-----------------------------------------------------------------------------
10 // Hitag2 complete rewrite of the code
11 // - Fixed modulation/encoding issues
12 // - Rewrote code for transponder emulation
13 // - Added snooping of transponder communication
14 // - Added reader functionality
16 // (c) 2012 Roel Verdult
17 //-----------------------------------------------------------------------------
19 #include "proxmark3.h"
28 static bool bAuthenticating
;
30 static bool bSuccessful
;
35 TAG_STATE_RESET
= 0x01, // Just powered up, awaiting GetSnr
36 TAG_STATE_ACTIVATING
= 0x02 , // In activation phase (password mode), sent UID, awaiting reader password
37 TAG_STATE_ACTIVATED
= 0x03, // Activation complete, awaiting read/write commands
38 TAG_STATE_WRITING
= 0x04, // In write command, awaiting sector contents to be written
40 unsigned int active_sector
;
43 byte_t sectors
[12][4];
46 static struct hitag2_tag tag
= {
47 .state
= TAG_STATE_RESET
,
48 .sectors
= { // Password mode: | Crypto mode:
49 [0] = { 0x02, 0x4e, 0x02, 0x20}, // UID | UID
50 [1] = { 0x4d, 0x49, 0x4b, 0x52}, // Password RWD | 32 bit LSB key
51 [2] = { 0x20, 0xf0, 0x4f, 0x4e}, // Reserved | 16 bit MSB key, 16 bit reserved
52 [3] = { 0x0e, 0xaa, 0x48, 0x54}, // Configuration, password TAG | Configuration, password TAG
53 [4] = { 0x46, 0x5f, 0x4f, 0x4b}, // Data: F_OK
54 [5] = { 0x55, 0x55, 0x55, 0x55}, // Data: UUUU
55 [6] = { 0xaa, 0xaa, 0xaa, 0xaa}, // Data: ....
56 [7] = { 0x55, 0x55, 0x55, 0x55}, // Data: UUUU
57 [8] = { 0x00, 0x00, 0x00, 0x00}, // RSK Low
58 [9] = { 0x00, 0x00, 0x00, 0x00}, // RSK High
59 [10] = { 0x00, 0x00, 0x00, 0x00}, // RCF
60 [11] = { 0x00, 0x00, 0x00, 0x00}, // SYNC
64 // ToDo: define a meaningful maximum size for auth_table. The bigger this is, the lower will be the available memory for traces.
65 // Historically it used to be FREE_BUFFER_SIZE, which was 2744.
66 #define AUTH_TABLE_LENGTH 2744
67 static byte_t
* auth_table
;
68 static size_t auth_table_pos
= 0;
69 static size_t auth_table_len
= AUTH_TABLE_LENGTH
;
71 static byte_t password
[4];
72 static byte_t NrAr
[8];
74 static uint64_t cipher_state
;
76 /* Following is a modified version of cryptolib.com/ciphers/hitag2/ */
77 // Software optimized 48-bit Philips/NXP Mifare Hitag2 PCF7936/46/47/52 stream cipher algorithm by I.C. Wiener 2006-2007.
78 // For educational purposes only.
79 // No warranties or guarantees of any kind.
80 // This code is released into the public domain by its author.
87 #define rev8(x) ((((x)>>7)&1)+((((x)>>6)&1)<<1)+((((x)>>5)&1)<<2)+((((x)>>4)&1)<<3)+((((x)>>3)&1)<<4)+((((x)>>2)&1)<<5)+((((x)>>1)&1)<<6)+(((x)&1)<<7))
88 #define rev16(x) (rev8 (x)+(rev8 (x>> 8)<< 8))
89 #define rev32(x) (rev16(x)+(rev16(x>>16)<<16))
90 #define rev64(x) (rev32(x)+(rev32(x>>32)<<32))
91 #define bit(x,n) (((x)>>(n))&1)
92 #define bit32(x,n) ((((x)[(n)>>5])>>((n)))&1)
93 #define inv32(x,i,n) ((x)[(i)>>5]^=((u32)(n))<<((i)&31))
94 #define rotl64(x, n) ((((u64)(x))<<((n)&63))+(((u64)(x))>>((0-(n))&63)))
96 // Single bit Hitag2 functions:
97 #define i4(x,a,b,c,d) ((u32)((((x)>>(a))&1)+(((x)>>(b))&1)*2+(((x)>>(c))&1)*4+(((x)>>(d))&1)*8))
99 static const u32 ht2_f4a
= 0x2C79; // 0010 1100 0111 1001
100 static const u32 ht2_f4b
= 0x6671; // 0110 0110 0111 0001
101 static const u32 ht2_f5c
= 0x7907287B; // 0111 1001 0000 0111 0010 1000 0111 1011
103 static u32
_f20 (const u64 x
)
107 i5
= ((ht2_f4a
>> i4 (x
, 1, 2, 4, 5)) & 1)* 1
108 + ((ht2_f4b
>> i4 (x
, 7,11,13,14)) & 1)* 2
109 + ((ht2_f4b
>> i4 (x
,16,20,22,25)) & 1)* 4
110 + ((ht2_f4b
>> i4 (x
,27,28,30,32)) & 1)* 8
111 + ((ht2_f4a
>> i4 (x
,33,42,43,45)) & 1)*16;
113 return (ht2_f5c
>> i5
) & 1;
116 static u64
_hitag2_init (const u64 key
, const u32 serial
, const u32 IV
)
119 u64 x
= ((key
& 0xFFFF) << 32) + serial
;
121 for (i
= 0; i
< 32; i
++)
124 x
+= (u64
) (_f20 (x
) ^ (((IV
>> i
) ^ (key
>> (i
+16))) & 1)) << 47;
129 static u64
_hitag2_round (u64
*state
)
134 ((((x
>> 0) ^ (x
>> 2) ^ (x
>> 3) ^ (x
>> 6)
135 ^ (x
>> 7) ^ (x
>> 8) ^ (x
>> 16) ^ (x
>> 22)
136 ^ (x
>> 23) ^ (x
>> 26) ^ (x
>> 30) ^ (x
>> 41)
137 ^ (x
>> 42) ^ (x
>> 43) ^ (x
>> 46) ^ (x
>> 47)) & 1) << 47);
143 // "MIKRON" = O N M I K R
144 // Key = 4F 4E 4D 49 4B 52 - Secret 48-bit key
145 // Serial = 49 43 57 69 - Serial number of the tag, transmitted in clear
146 // Random = 65 6E 45 72 - Random IV, transmitted in clear
147 //~28~DC~80~31 = D7 23 7F CE - Authenticator value = inverted first 4 bytes of the keystream
149 // The code below must print out "D7 23 7F CE 8C D0 37 A9 57 49 C1 E6 48 00 8A B6".
150 // The inverse of the first 4 bytes is sent to the tag to authenticate.
151 // The rest is encrypted by XORing it with the subsequent keystream.
153 static u32
_hitag2_byte (u64
* x
)
157 for (i
= 0, c
= 0; i
< 8; i
++) c
+= (u32
) _hitag2_round (x
) << (i
^7);
161 static int hitag2_reset(void) {
162 tag
.state
= TAG_STATE_RESET
;
163 tag
.crypto_active
= 0;
167 static int hitag2_init(void) {
172 static void hitag2_cipher_reset(struct hitag2_tag
*tag
, const byte_t
*iv
)
174 uint64_t key
= ((uint64_t)tag
->sectors
[2][2]) |
175 ((uint64_t)tag
->sectors
[2][3] << 8) |
176 ((uint64_t)tag
->sectors
[1][0] << 16) |
177 ((uint64_t)tag
->sectors
[1][1] << 24) |
178 ((uint64_t)tag
->sectors
[1][2] << 32) |
179 ((uint64_t)tag
->sectors
[1][3] << 40);
180 uint32_t uid
= ((uint32_t)tag
->sectors
[0][0]) |
181 ((uint32_t)tag
->sectors
[0][1] << 8) |
182 ((uint32_t)tag
->sectors
[0][2] << 16) |
183 ((uint32_t)tag
->sectors
[0][3] << 24);
184 uint32_t iv_
= (((uint32_t)(iv
[0]))) |
185 (((uint32_t)(iv
[1])) << 8) |
186 (((uint32_t)(iv
[2])) << 16) |
187 (((uint32_t)(iv
[3])) << 24);
188 tag
->cs
= _hitag2_init(rev64(key
), rev32(uid
), rev32(iv_
));
191 static int hitag2_cipher_authenticate(uint64_t* cs
, const byte_t
*authenticator_is
)
193 byte_t authenticator_should
[4];
194 authenticator_should
[0] = ~_hitag2_byte(cs
);
195 authenticator_should
[1] = ~_hitag2_byte(cs
);
196 authenticator_should
[2] = ~_hitag2_byte(cs
);
197 authenticator_should
[3] = ~_hitag2_byte(cs
);
198 return (memcmp(authenticator_should
, authenticator_is
, 4) == 0);
201 static int hitag2_cipher_transcrypt(uint64_t* cs
, byte_t
*data
, unsigned int bytes
, unsigned int bits
)
204 for(i
=0; i
<bytes
; i
++) data
[i
] ^= _hitag2_byte(cs
);
205 for(i
=0; i
<bits
; i
++) data
[bytes
] ^= _hitag2_round(cs
) << (7-i
);
209 // Sam7s has several timers, we will use the source TIMER_CLOCK1 (aka AT91C_TC_CLKS_TIMER_DIV1_CLOCK)
210 // TIMER_CLOCK1 = MCK/2, MCK is running at 48 MHz, Timer is running at 48/2 = 24 MHz
211 // Hitag units (T0) have duration of 8 microseconds (us), which is 1/125000 per second (carrier)
212 // T0 = TIMER_CLOCK1 / 125000 = 192
215 #define SHORT_COIL() LOW(GPIO_SSC_DOUT)
216 #define OPEN_COIL() HIGH(GPIO_SSC_DOUT)
218 #define HITAG_FRAME_LEN 20
219 #define HITAG_T_STOP 36 /* T_EOF should be > 36 */
220 #define HITAG_T_LOW 8 /* T_LOW should be 4..10 */
221 #define HITAG_T_0_MIN 15 /* T[0] should be 18..22 */
222 #define HITAG_T_1_MIN 25 /* T[1] should be 26..30 */
223 //#define HITAG_T_EOF 40 /* T_EOF should be > 36 */
224 #define HITAG_T_EOF 80 /* T_EOF should be > 36 */
225 #define HITAG_T_WAIT_1 200 /* T_wresp should be 199..206 */
226 #define HITAG_T_WAIT_2 90 /* T_wresp should be 199..206 */
227 #define HITAG_T_WAIT_MAX 300 /* bit more than HITAG_T_WAIT_1 + HITAG_T_WAIT_2 */
229 #define HITAG_T_TAG_ONE_HALF_PERIOD 10
230 #define HITAG_T_TAG_TWO_HALF_PERIOD 25
231 #define HITAG_T_TAG_THREE_HALF_PERIOD 41
232 #define HITAG_T_TAG_FOUR_HALF_PERIOD 57
234 #define HITAG_T_TAG_HALF_PERIOD 16
235 #define HITAG_T_TAG_FULL_PERIOD 32
237 #define HITAG_T_TAG_CAPTURE_ONE_HALF 13
238 #define HITAG_T_TAG_CAPTURE_TWO_HALF 25
239 #define HITAG_T_TAG_CAPTURE_THREE_HALF 41
240 #define HITAG_T_TAG_CAPTURE_FOUR_HALF 57
243 static void hitag_send_bit(int bit
) {
245 // Reset clock for the next bit
246 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_SWTRG
;
248 // Fixed modulation, earlier proxmark version used inverted signal
250 // Manchester: Unloaded, then loaded |__--|
252 while(AT91C_BASE_TC0
->TC_CV
< T0
*HITAG_T_TAG_HALF_PERIOD
);
254 while(AT91C_BASE_TC0
->TC_CV
< T0
*HITAG_T_TAG_FULL_PERIOD
);
256 // Manchester: Loaded, then unloaded |--__|
258 while(AT91C_BASE_TC0
->TC_CV
< T0
*HITAG_T_TAG_HALF_PERIOD
);
260 while(AT91C_BASE_TC0
->TC_CV
< T0
*HITAG_T_TAG_FULL_PERIOD
);
265 static void hitag_send_frame(const byte_t
* frame
, size_t frame_len
)
267 // Send start of frame
268 for(size_t i
=0; i
<5; i
++) {
272 // Send the content of the frame
273 for(size_t i
=0; i
<frame_len
; i
++) {
274 hitag_send_bit((frame
[i
/8] >> (7-(i
%8)))&1);
277 // Drop the modulation
282 static void hitag2_handle_reader_command(byte_t
* rx
, const size_t rxlen
, byte_t
* tx
, size_t* txlen
)
284 byte_t rx_air
[HITAG_FRAME_LEN
];
286 // Copy the (original) received frame how it is send over the air
287 memcpy(rx_air
,rx
,nbytes(rxlen
));
289 if(tag
.crypto_active
) {
290 hitag2_cipher_transcrypt(&(tag
.cs
),rx
,rxlen
/8,rxlen
%8);
293 // Reset the transmission frame length
296 // Try to find out which command was send by selecting on length (in bits)
298 // Received 11000 from the reader, request for UID, send UID
300 // Always send over the air in the clear plaintext mode
301 if(rx_air
[0] != 0xC0) {
306 memcpy(tx
,tag
.sectors
[0],4);
307 tag
.crypto_active
= 0;
311 // Read/Write command: ..xx x..y yy with yyy == ~xxx, xxx is sector number
313 unsigned int sector
= (~( ((rx
[0]<<2)&0x04) | ((rx
[1]>>6)&0x03) ) & 0x07);
314 // Verify complement of sector index
315 if(sector
!= ((rx
[0]>>3)&0x07)) {
316 //DbpString("Transmission error (read/write)");
320 switch (rx
[0] & 0xC6) {
321 // Read command: 11xx x00y
323 memcpy(tx
,tag
.sectors
[sector
],4);
327 // Inverted Read command: 01xx x10y
329 for (size_t i
=0; i
<4; i
++) {
330 tx
[i
] = tag
.sectors
[sector
][i
] ^ 0xff;
335 // Write command: 10xx x01y
337 // Prepare write, acknowledge by repeating command
338 memcpy(tx
,rx
,nbytes(rxlen
));
340 tag
.active_sector
= sector
;
341 tag
.state
=TAG_STATE_WRITING
;
346 Dbprintf("Uknown command: %02x %02x",rx
[0],rx
[1]);
353 // Writing data or Reader password
355 if(tag
.state
== TAG_STATE_WRITING
) {
356 // These are the sector contents to be written. We don't have to do anything else.
357 memcpy(tag
.sectors
[tag
.active_sector
],rx
,nbytes(rxlen
));
358 tag
.state
=TAG_STATE_RESET
;
361 // Received RWD password, respond with configuration and our password
362 if(memcmp(rx
,tag
.sectors
[1],4) != 0) {
363 DbpString("Reader password is wrong");
367 memcpy(tx
,tag
.sectors
[3],4);
372 // Received RWD authentication challenge and respnse
374 // Store the authentication attempt
375 if (auth_table_len
< (AUTH_TABLE_LENGTH
-8)) {
376 memcpy(auth_table
+auth_table_len
,rx
,8);
380 // Reset the cipher state
381 hitag2_cipher_reset(&tag
,rx
);
382 // Check if the authentication was correct
383 if(!hitag2_cipher_authenticate(&(tag
.cs
),rx
+4)) {
384 // The reader failed to authenticate, do nothing
385 Dbprintf("auth: %02x%02x%02x%02x%02x%02x%02x%02x Failed!",rx
[0],rx
[1],rx
[2],rx
[3],rx
[4],rx
[5],rx
[6],rx
[7]);
388 // Succesful, but commented out reporting back to the Host, this may delay to much.
389 // Dbprintf("auth: %02x%02x%02x%02x%02x%02x%02x%02x OK!",rx[0],rx[1],rx[2],rx[3],rx[4],rx[5],rx[6],rx[7]);
391 // Activate encryption algorithm for all further communication
392 tag
.crypto_active
= 1;
394 // Use the tag password as response
395 memcpy(tx
,tag
.sectors
[3],4);
401 // LogTraceHitag(rx,rxlen,0,0,false);
402 // LogTraceHitag(tx,*txlen,0,0,true);
404 if(tag
.crypto_active
) {
405 hitag2_cipher_transcrypt(&(tag
.cs
), tx
, *txlen
/8, *txlen
%8);
409 static void hitag_reader_send_bit(int bit
) {
411 // Reset clock for the next bit
412 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_SWTRG
;
414 // Binary puls length modulation (BPLM) is used to encode the data stream
415 // This means that a transmission of a one takes longer than that of a zero
417 // Enable modulation, which means, drop the field
420 // Wait for 4-10 times the carrier period
421 while(AT91C_BASE_TC0
->TC_CV
< T0
*6);
424 // Disable modulation, just activates the field again
429 while(AT91C_BASE_TC0
->TC_CV
< T0
*22);
433 while(AT91C_BASE_TC0
->TC_CV
< T0
*28);
439 static void hitag_reader_send_frame(const byte_t
* frame
, size_t frame_len
)
441 // Send the content of the frame
442 for(size_t i
=0; i
<frame_len
; i
++) {
443 hitag_reader_send_bit((frame
[i
/8] >> (7-(i
%8)))&1);
446 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_SWTRG
;
447 // Enable modulation, which means, drop the field
449 // Wait for 4-10 times the carrier period
450 while(AT91C_BASE_TC0
->TC_CV
< T0
*6);
451 // Disable modulation, just activates the field again
457 static bool hitag2_password(byte_t
* rx
, const size_t rxlen
, byte_t
* tx
, size_t* txlen
) {
458 // Reset the transmission frame length
461 // Try to find out which command was send by selecting on length (in bits)
463 // No answer, try to resurrect
465 // Stop if there is no answer (after sending password)
467 DbpString("Password failed!");
471 memcpy(tx
,"\xc0",nbytes(*txlen
));
474 // Received UID, tag password
478 memcpy(tx
,password
,4);
480 memcpy(tag
.sectors
[blocknr
],rx
,4);
485 //store password in block1, the TAG answers with Block3, but we need the password in memory
486 memcpy(tag
.sectors
[blocknr
],tx
,4);
488 memcpy(tag
.sectors
[blocknr
],rx
,4);
493 DbpString("Read succesful!");
498 tx
[0] = 0xc0 | (blocknr
<< 3) | ((blocknr
^7) >> 2);
499 tx
[1] = ((blocknr
^7) << 6);
503 // Unexpected response
505 Dbprintf("Uknown frame length: %d",rxlen
);
512 static bool hitag2_crypto(byte_t
* rx
, const size_t rxlen
, byte_t
* tx
, size_t* txlen
) {
513 // Reset the transmission frame length
517 hitag2_cipher_transcrypt(&cipher_state
,rx
,rxlen
/8,rxlen
%8);
520 // Try to find out which command was send by selecting on length (in bits)
522 // No answer, try to resurrect
524 // Stop if there is no answer while we are in crypto mode (after sending NrAr)
526 // Failed during authentication
527 if (bAuthenticating
) {
528 DbpString("Authentication failed!");
531 // Failed reading a block, could be (read/write) locked, skip block and re-authenticate
533 // Write the low part of the key in memory
534 memcpy(tag
.sectors
[1],key
+2,4);
535 } else if (blocknr
== 2) {
536 // Write the high part of the key in memory
537 tag
.sectors
[2][0] = 0x00;
538 tag
.sectors
[2][1] = 0x00;
539 tag
.sectors
[2][2] = key
[0];
540 tag
.sectors
[2][3] = key
[1];
542 // Just put zero's in the memory (of the unreadable block)
543 memset(tag
.sectors
[blocknr
],0x00,4);
550 memcpy(tx
,"\xc0",nbytes(*txlen
));
554 // Received UID, crypto tag answer
557 uint64_t ui64key
= key
[0] | ((uint64_t)key
[1]) << 8 | ((uint64_t)key
[2]) << 16 | ((uint64_t)key
[3]) << 24 | ((uint64_t)key
[4]) << 32 | ((uint64_t)key
[5]) << 40;
558 uint32_t ui32uid
= rx
[0] | ((uint32_t)rx
[1]) << 8 | ((uint32_t)rx
[2]) << 16 | ((uint32_t)rx
[3]) << 24;
559 cipher_state
= _hitag2_init(rev64(ui64key
), rev32(ui32uid
), 0);
562 hitag2_cipher_transcrypt(&cipher_state
,tx
+4,4,0);
565 bAuthenticating
= true;
567 // Check if we received answer tag (at)
568 if (bAuthenticating
) {
569 bAuthenticating
= false;
571 // Store the received block
572 memcpy(tag
.sectors
[blocknr
],rx
,4);
576 DbpString("Read succesful!");
581 tx
[0] = 0xc0 | (blocknr
<< 3) | ((blocknr
^7) >> 2);
582 tx
[1] = ((blocknr
^7) << 6);
586 // Unexpected response
588 Dbprintf("Uknown frame length: %d",rxlen
);
595 // We have to return now to avoid double encryption
596 if (!bAuthenticating
) {
597 hitag2_cipher_transcrypt(&cipher_state
, tx
, *txlen
/8, *txlen
%8);
605 static bool hitag2_authenticate(byte_t
* rx
, const size_t rxlen
, byte_t
* tx
, size_t* txlen
) {
606 // Reset the transmission frame length
609 // Try to find out which command was send by selecting on length (in bits)
611 // No answer, try to resurrect
613 // Stop if there is no answer while we are in crypto mode (after sending NrAr)
615 DbpString("Authentication failed!");
619 memcpy(tx
,"\xc0",nbytes(*txlen
));
622 // Received UID, crypto tag answer
629 DbpString("Authentication succesful!");
634 // Unexpected response
636 Dbprintf("Uknown frame length: %d",rxlen
);
645 static bool hitag2_test_auth_attempts(byte_t
* rx
, const size_t rxlen
, byte_t
* tx
, size_t* txlen
) {
647 // Reset the transmission frame length
650 // Try to find out which command was send by selecting on length (in bits)
652 // No answer, try to resurrect
654 // Stop if there is no answer while we are in crypto mode (after sending NrAr)
656 Dbprintf("auth: %02x%02x%02x%02x%02x%02x%02x%02x Failed, removed entry!",NrAr
[0],NrAr
[1],NrAr
[2],NrAr
[3],NrAr
[4],NrAr
[5],NrAr
[6],NrAr
[7]);
658 // Removing failed entry from authentiations table
659 memcpy(auth_table
+auth_table_pos
,auth_table
+auth_table_pos
+8,8);
662 // Return if we reached the end of the authentications table
664 if (auth_table_pos
== auth_table_len
) {
668 // Copy the next authentication attempt in row (at the same position, b/c we removed last failed entry)
669 memcpy(NrAr
,auth_table
+auth_table_pos
,8);
672 memcpy(tx
,"\xc0",nbytes(*txlen
));
675 // Received UID, crypto tag answer, or read block response
682 Dbprintf("auth: %02x%02x%02x%02x%02x%02x%02x%02x OK",NrAr
[0],NrAr
[1],NrAr
[2],NrAr
[3],NrAr
[4],NrAr
[5],NrAr
[6],NrAr
[7]);
684 if ((auth_table_pos
+8) == auth_table_len
) {
688 memcpy(NrAr
,auth_table
+auth_table_pos
,8);
693 Dbprintf("Uknown frame length: %d",rxlen
);
702 void SnoopHitag(uint32_t type
) {
711 byte_t rx
[HITAG_FRAME_LEN
];
714 FpgaDownloadAndGo(FPGA_BITSTREAM_LF
);
716 // Clean up trace and prepare it for storing frames
724 auth_table
= (byte_t
*)BigBuf_malloc(AUTH_TABLE_LENGTH
);
725 memset(auth_table
, 0x00, AUTH_TABLE_LENGTH
);
727 DbpString("Starting Hitag2 snoop");
730 // Set up eavesdropping mode, frequency divisor which will drive the FPGA
731 // and analog mux selection.
732 FpgaWriteConfWord(FPGA_MAJOR_MODE_LF_EDGE_DETECT
| FPGA_LF_EDGE_DETECT_TOGGLE_MODE
);
733 FpgaSendCommand(FPGA_CMD_SET_DIVISOR
, 95); //125Khz
734 SetAdcMuxFor(GPIO_MUXSEL_LOPKD
);
737 // Configure output pin that is connected to the FPGA (for modulating)
738 AT91C_BASE_PIOA
->PIO_OER
= GPIO_SSC_DOUT
;
739 AT91C_BASE_PIOA
->PIO_PER
= GPIO_SSC_DOUT
;
741 // Disable modulation, we are going to eavesdrop, not modulate ;)
744 // Enable Peripheral Clock for TIMER_CLOCK1, used to capture edges of the reader frames
745 AT91C_BASE_PMC
->PMC_PCER
= (1 << AT91C_ID_TC1
);
746 AT91C_BASE_PIOA
->PIO_BSR
= GPIO_SSC_FRAME
;
748 // Disable timer during configuration
749 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
751 // Capture mode, defaul timer source = MCK/2 (TIMER_CLOCK1), TIOA is external trigger,
752 // external trigger rising edge, load RA on rising edge of TIOA.
753 uint32_t t1_channel_mode
= AT91C_TC_CLKS_TIMER_DIV1_CLOCK
| AT91C_TC_ETRGEDG_BOTH
| AT91C_TC_ABETRG
| AT91C_TC_LDRA_BOTH
;
754 AT91C_BASE_TC1
->TC_CMR
= t1_channel_mode
;
756 // Enable and reset counter
757 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKEN
| AT91C_TC_SWTRG
;
759 // Reset the received frame, frame count and timing info
760 memset(rx
,0x00,sizeof(rx
));
764 reader_frame
= false;
769 while(!BUTTON_PRESS() && !usb_poll_validate_length()) {
773 // Receive frame, watch for at most T0*EOF periods
774 while (AT91C_BASE_TC1
->TC_CV
< T0
*HITAG_T_EOF
) {
775 // Check if rising edge in modulation is detected
776 if(AT91C_BASE_TC1
->TC_SR
& AT91C_TC_LDRAS
) {
777 // Retrieve the new timing values
778 int ra
= (AT91C_BASE_TC1
->TC_RA
/T0
);
780 // Find out if we are dealing with a rising or falling edge
781 rising_edge
= (AT91C_BASE_PIOA
->PIO_PDSR
& GPIO_SSC_FRAME
) > 0;
783 // Shorter periods will only happen with reader frames
784 if (!reader_frame
&& rising_edge
&& ra
< HITAG_T_TAG_CAPTURE_ONE_HALF
) {
785 // Switch from tag to reader capture
788 memset(rx
,0x00,sizeof(rx
));
792 // Only handle if reader frame and rising edge, or tag frame and falling edge
793 if (reader_frame
!= rising_edge
) {
798 // Add the buffered timing values of earlier captured edges which were skipped
804 // Capture reader frame
805 if(ra
>= HITAG_T_STOP
) {
807 //DbpString("wierd0?");
809 // Capture the T0 periods that have passed since last communication or field drop (reset)
810 response
= (ra
- HITAG_T_LOW
);
811 } else if(ra
>= HITAG_T_1_MIN
) {
813 rx
[rxlen
/ 8] |= 1 << (7-(rxlen
%8));
815 } else if(ra
>= HITAG_T_0_MIN
) {
817 rx
[rxlen
/ 8] |= 0 << (7-(rxlen
%8));
820 // Ignore wierd value, is to small to mean anything
824 // Capture tag frame (manchester decoding using only falling edges)
825 if(ra
>= HITAG_T_EOF
) {
827 //DbpString("wierd1?");
829 // Capture the T0 periods that have passed since last communication or field drop (reset)
830 // We always recieve a 'one' first, which has the falling edge after a half period |-_|
831 response
= ra
-HITAG_T_TAG_HALF_PERIOD
;
832 } else if(ra
>= HITAG_T_TAG_CAPTURE_FOUR_HALF
) {
833 // Manchester coding example |-_|_-|-_| (101)
834 rx
[rxlen
/ 8] |= 0 << (7-(rxlen
%8));
836 rx
[rxlen
/ 8] |= 1 << (7-(rxlen
%8));
838 } else if(ra
>= HITAG_T_TAG_CAPTURE_THREE_HALF
) {
839 // Manchester coding example |_-|...|_-|-_| (0...01)
840 rx
[rxlen
/ 8] |= 0 << (7-(rxlen
%8));
842 // We have to skip this half period at start and add the 'one' the second time
844 rx
[rxlen
/ 8] |= 1 << (7-(rxlen
%8));
849 } else if(ra
>= HITAG_T_TAG_CAPTURE_TWO_HALF
) {
850 // Manchester coding example |_-|_-| (00) or |-_|-_| (11)
852 // Ignore bits that are transmitted during SOF
855 // bit is same as last bit
856 rx
[rxlen
/ 8] |= lastbit
<< (7-(rxlen
%8));
860 // Ignore wierd value, is to small to mean anything
866 // Check if frame was captured
869 if (!LogTraceHitag(rx
,rxlen
,response
,0,reader_frame
)) {
870 DbpString("Trace full");
874 // Check if we recognize a valid authentication attempt
875 if (nbytes(rxlen
) == 8) {
876 // Store the authentication attempt
877 if (auth_table_len
< (AUTH_TABLE_LENGTH
-8)) {
878 memcpy(auth_table
+auth_table_len
,rx
,8);
883 // Reset the received frame and response timing info
884 memset(rx
,0x00,sizeof(rx
));
886 reader_frame
= false;
895 // Save the timer overflow, will be 0 when frame was received
896 overflow
+= (AT91C_BASE_TC1
->TC_CV
/T0
);
898 // Reset the frame length
900 // Reset the timer to restart while-loop that receives frames
901 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_SWTRG
;
907 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
908 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_CLKDIS
;
909 FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF
);
912 // Dbprintf("frame received: %d",frame_count);
913 // Dbprintf("Authentication Attempts: %d",(auth_table_len/8));
914 // DbpString("All done");
917 void SimulateHitagTag(bool tag_mem_supplied
, byte_t
* data
) {
921 byte_t rx
[HITAG_FRAME_LEN
];
923 byte_t tx
[HITAG_FRAME_LEN
];
925 bool bQuitTraceFull
= false;
928 FpgaDownloadAndGo(FPGA_BITSTREAM_LF
);
930 // Clean up trace and prepare it for storing frames
938 auth_table
= (byte_t
*)BigBuf_malloc(AUTH_TABLE_LENGTH
);
939 memset(auth_table
, 0x00, AUTH_TABLE_LENGTH
);
941 DbpString("Starting Hitag2 simulation");
945 if (tag_mem_supplied
) {
946 DbpString("Loading hitag2 memory...");
947 memcpy((byte_t
*)tag
.sectors
,data
,48);
951 for (size_t i
=0; i
<12; i
++) {
952 for (size_t j
=0; j
<4; j
++) {
954 block
|= tag
.sectors
[i
][j
];
956 Dbprintf("| %d | %08x |",i
,block
);
959 // Set up simulator mode, frequency divisor which will drive the FPGA
960 // and analog mux selection.
961 FpgaWriteConfWord(FPGA_MAJOR_MODE_LF_EDGE_DETECT
| FPGA_LF_EDGE_DETECT_READER_FIELD
);
962 FpgaSendCommand(FPGA_CMD_SET_DIVISOR
, 95); //125Khz
963 SetAdcMuxFor(GPIO_MUXSEL_LOPKD
);
966 // Configure output pin that is connected to the FPGA (for modulating)
967 AT91C_BASE_PIOA
->PIO_OER
= GPIO_SSC_DOUT
;
968 AT91C_BASE_PIOA
->PIO_PER
= GPIO_SSC_DOUT
;
970 // Disable modulation at default, which means release resistance
973 // Enable Peripheral Clock for TIMER_CLOCK0, used to measure exact timing before answering
974 AT91C_BASE_PMC
->PMC_PCER
= (1 << AT91C_ID_TC0
);
976 // Enable Peripheral Clock for TIMER_CLOCK1, used to capture edges of the reader frames
977 AT91C_BASE_PMC
->PMC_PCER
= (1 << AT91C_ID_TC1
);
978 AT91C_BASE_PIOA
->PIO_BSR
= GPIO_SSC_FRAME
;
980 // Disable timer during configuration
981 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
983 // Capture mode, default timer source = MCK/2 (TIMER_CLOCK1), TIOA is external trigger,
984 // external trigger rising edge, load RA on rising edge of TIOA.
985 AT91C_BASE_TC1
->TC_CMR
= AT91C_TC_CLKS_TIMER_DIV1_CLOCK
| AT91C_TC_ETRGEDG_RISING
| AT91C_TC_ABETRG
| AT91C_TC_LDRA_RISING
;
987 // Reset the received frame, frame count and timing info
988 memset(rx
,0x00,sizeof(rx
));
993 // Enable and reset counter
994 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKEN
| AT91C_TC_SWTRG
;
996 while(!BUTTON_PRESS() && !usb_poll_validate_length()) {
1000 // Receive frame, watch for at most T0*EOF periods
1001 while (AT91C_BASE_TC1
->TC_CV
< T0
*HITAG_T_EOF
) {
1002 // Check if rising edge in modulation is detected
1003 if(AT91C_BASE_TC1
->TC_SR
& AT91C_TC_LDRAS
) {
1004 // Retrieve the new timing values
1005 int ra
= (AT91C_BASE_TC1
->TC_RA
/T0
) + overflow
;
1008 // Reset timer every frame, we have to capture the last edge for timing
1009 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_CLKEN
| AT91C_TC_SWTRG
;
1013 // Capture reader frame
1014 if(ra
>= HITAG_T_STOP
) {
1016 //DbpString("wierd0?");
1018 // Capture the T0 periods that have passed since last communication or field drop (reset)
1019 response
= (ra
- HITAG_T_LOW
);
1020 } else if(ra
>= HITAG_T_1_MIN
) {
1022 rx
[rxlen
/ 8] |= 1 << (7-(rxlen
%8));
1024 } else if(ra
>= HITAG_T_0_MIN
) {
1026 rx
[rxlen
/ 8] |= 0 << (7-(rxlen
%8));
1029 // Ignore wierd value, is to small to mean anything
1034 // Check if frame was captured
1038 if (!LogTraceHitag(rx
,rxlen
,response
,0,true)) {
1039 DbpString("Trace full");
1040 if (bQuitTraceFull
) {
1048 // Disable timer 1 with external trigger to avoid triggers during our own modulation
1049 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
1051 // Process the incoming frame (rx) and prepare the outgoing frame (tx)
1052 hitag2_handle_reader_command(rx
,rxlen
,tx
,&txlen
);
1054 // Wait for HITAG_T_WAIT_1 carrier periods after the last reader bit,
1055 // not that since the clock counts since the rising edge, but T_Wait1 is
1056 // with respect to the falling edge, we need to wait actually (T_Wait1 - T_Low)
1057 // periods. The gap time T_Low varies (4..10). All timer values are in
1058 // terms of T0 units
1059 while(AT91C_BASE_TC0
->TC_CV
< T0
*(HITAG_T_WAIT_1
-HITAG_T_LOW
));
1061 // Send and store the tag answer (if there is any)
1063 // Transmit the tag frame
1064 hitag_send_frame(tx
,txlen
);
1065 // Store the frame in the trace
1067 if (!LogTraceHitag(tx
,txlen
,0,0,false)) {
1068 DbpString("Trace full");
1069 if (bQuitTraceFull
) {
1078 // Reset the received frame and response timing info
1079 memset(rx
,0x00,sizeof(rx
));
1082 // Enable and reset external trigger in timer for capturing future frames
1083 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKEN
| AT91C_TC_SWTRG
;
1086 // Reset the frame length
1088 // Save the timer overflow, will be 0 when frame was received
1089 overflow
+= (AT91C_BASE_TC1
->TC_CV
/T0
);
1090 // Reset the timer to restart while-loop that receives frames
1091 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_SWTRG
;
1095 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
1096 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_CLKDIS
;
1097 FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF
);
1099 DbpString("Sim Stopped");
1103 void ReaderHitag(hitag_function htf
, hitag_data
* htd
) {
1106 byte_t rx
[HITAG_FRAME_LEN
];
1108 byte_t txbuf
[HITAG_FRAME_LEN
];
1115 int t_wait
= HITAG_T_WAIT_MAX
;
1117 bool bQuitTraceFull
= false;
1119 FpgaDownloadAndGo(FPGA_BITSTREAM_LF
);
1120 // Reset the return status
1121 bSuccessful
= false;
1123 // Clean up trace and prepare it for storing frames
1127 DbpString("Starting Hitag reader family");
1129 // Check configuration
1131 case RHT2F_PASSWORD
: {
1132 Dbprintf("List identifier in password mode");
1133 memcpy(password
,htd
->pwd
.password
,4);
1135 bQuitTraceFull
= false;
1140 case RHT2F_AUTHENTICATE
: {
1141 DbpString("Authenticating using nr,ar pair:");
1142 memcpy(NrAr
,htd
->auth
.NrAr
,8);
1143 Dbhexdump(8,NrAr
,false);
1146 bAuthenticating
= false;
1147 bQuitTraceFull
= true;
1150 case RHT2F_CRYPTO
: {
1151 DbpString("Authenticating using key:");
1152 memcpy(key
,htd
->crypto
.key
,4); //HACK; 4 or 6?? I read both in the code.
1153 Dbhexdump(6,key
,false);
1157 bAuthenticating
= false;
1158 bQuitTraceFull
= true;
1161 case RHT2F_TEST_AUTH_ATTEMPTS
: {
1162 Dbprintf("Testing %d authentication attempts",(auth_table_len
/8));
1164 memcpy(NrAr
, auth_table
, 8);
1165 bQuitTraceFull
= false;
1171 Dbprintf("Error, unknown function: %d",htf
);
1180 // Configure output and enable pin that is connected to the FPGA (for modulating)
1181 AT91C_BASE_PIOA
->PIO_OER
= GPIO_SSC_DOUT
;
1182 AT91C_BASE_PIOA
->PIO_PER
= GPIO_SSC_DOUT
;
1184 // Set fpga in edge detect with reader field, we can modulate as reader now
1185 FpgaWriteConfWord(FPGA_MAJOR_MODE_LF_EDGE_DETECT
| FPGA_LF_EDGE_DETECT_READER_FIELD
);
1187 // Set Frequency divisor which will drive the FPGA and analog mux selection
1188 FpgaSendCommand(FPGA_CMD_SET_DIVISOR
, 95); //125Khz
1189 SetAdcMuxFor(GPIO_MUXSEL_LOPKD
);
1192 // Disable modulation at default, which means enable the field
1195 // Give it a bit of time for the resonant antenna to settle.
1198 // Enable Peripheral Clock for TIMER_CLOCK0, used to measure exact timing before answering
1199 AT91C_BASE_PMC
->PMC_PCER
= (1 << AT91C_ID_TC0
);
1201 // Enable Peripheral Clock for TIMER_CLOCK1, used to capture edges of the tag frames
1202 AT91C_BASE_PMC
->PMC_PCER
= (1 << AT91C_ID_TC1
);
1203 AT91C_BASE_PIOA
->PIO_BSR
= GPIO_SSC_FRAME
;
1205 // Disable timer during configuration
1206 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
1208 // Capture mode, defaul timer source = MCK/2 (TIMER_CLOCK1), TIOA is external trigger,
1209 // external trigger rising edge, load RA on falling edge of TIOA.
1210 AT91C_BASE_TC1
->TC_CMR
= AT91C_TC_CLKS_TIMER_DIV1_CLOCK
| AT91C_TC_ETRGEDG_FALLING
| AT91C_TC_ABETRG
| AT91C_TC_LDRA_FALLING
;
1212 // Enable and reset counters
1213 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_CLKEN
| AT91C_TC_SWTRG
;
1214 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKEN
| AT91C_TC_SWTRG
;
1216 // Reset the received frame, frame count and timing info
1222 // Tag specific configuration settings (sof, timings, etc.)
1227 DbpString("Configured for hitagS reader");
1228 } else if (htf
< 20) {
1232 DbpString("Configured for hitag1 reader");
1233 } else if (htf
< 30) {
1236 t_wait
= HITAG_T_WAIT_2
;
1237 DbpString("Configured for hitag2 reader");
1239 Dbprintf("Error, unknown hitag reader type: %d",htf
);
1244 while(!bStop
&& !BUTTON_PRESS()) {
1248 // Check if frame was captured and store it
1252 if (!LogTraceHitag(rx
,rxlen
,response
,0,false)) {
1253 DbpString("Trace full");
1254 if (bQuitTraceFull
) {
1263 // By default reset the transmission buffer
1266 case RHT2F_PASSWORD
: {
1267 bStop
= !hitag2_password(rx
,rxlen
,tx
,&txlen
);
1269 case RHT2F_AUTHENTICATE
: {
1270 bStop
= !hitag2_authenticate(rx
,rxlen
,tx
,&txlen
);
1272 case RHT2F_CRYPTO
: {
1273 bStop
= !hitag2_crypto(rx
,rxlen
,tx
,&txlen
);
1275 case RHT2F_TEST_AUTH_ATTEMPTS
: {
1276 bStop
= !hitag2_test_auth_attempts(rx
,rxlen
,tx
,&txlen
);
1279 Dbprintf("Error, unknown function: %d",htf
);
1285 // Send and store the reader command
1286 // Disable timer 1 with external trigger to avoid triggers during our own modulation
1287 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
1289 // Wait for HITAG_T_WAIT_2 carrier periods after the last tag bit before transmitting,
1290 // Since the clock counts since the last falling edge, a 'one' means that the
1291 // falling edge occured halfway the period. with respect to this falling edge,
1292 // we need to wait (T_Wait2 + half_tag_period) when the last was a 'one'.
1293 // All timer values are in terms of T0 units
1294 while(AT91C_BASE_TC0
->TC_CV
< T0
*(t_wait
+(HITAG_T_TAG_HALF_PERIOD
*lastbit
)));
1296 // Transmit the reader frame
1297 hitag_reader_send_frame(tx
,txlen
);
1299 // Enable and reset external trigger in timer for capturing future frames
1300 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKEN
| AT91C_TC_SWTRG
;
1302 // Add transmitted frame to total count
1306 // Store the frame in the trace
1307 if (!LogTraceHitag(tx
,txlen
,HITAG_T_WAIT_2
,0,true)) {
1308 if (bQuitTraceFull
) {
1317 // Reset values for receiving frames
1318 memset(rx
,0x00,sizeof(rx
));
1322 tag_sof
= reset_sof
;
1325 // Receive frame, watch for at most T0*EOF periods
1326 while (AT91C_BASE_TC1
->TC_CV
< T0
*HITAG_T_WAIT_MAX
) {
1327 // Check if falling edge in tag modulation is detected
1328 if(AT91C_BASE_TC1
->TC_SR
& AT91C_TC_LDRAS
) {
1329 // Retrieve the new timing values
1330 int ra
= (AT91C_BASE_TC1
->TC_RA
/T0
);
1332 // Reset timer every frame, we have to capture the last edge for timing
1333 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_SWTRG
;
1337 // Capture tag frame (manchester decoding using only falling edges)
1338 if(ra
>= HITAG_T_EOF
) {
1340 //DbpString("wierd1?");
1342 // Capture the T0 periods that have passed since last communication or field drop (reset)
1343 // We always recieve a 'one' first, which has the falling edge after a half period |-_|
1344 response
= ra
-HITAG_T_TAG_HALF_PERIOD
;
1345 } else if(ra
>= HITAG_T_TAG_CAPTURE_FOUR_HALF
) {
1346 // Manchester coding example |-_|_-|-_| (101)
1347 rx
[rxlen
/ 8] |= 0 << (7-(rxlen
%8));
1349 rx
[rxlen
/ 8] |= 1 << (7-(rxlen
%8));
1351 } else if(ra
>= HITAG_T_TAG_CAPTURE_THREE_HALF
) {
1352 // Manchester coding example |_-|...|_-|-_| (0...01)
1353 rx
[rxlen
/ 8] |= 0 << (7-(rxlen
%8));
1355 // We have to skip this half period at start and add the 'one' the second time
1357 rx
[rxlen
/ 8] |= 1 << (7-(rxlen
%8));
1362 } else if(ra
>= HITAG_T_TAG_CAPTURE_TWO_HALF
) {
1363 // Manchester coding example |_-|_-| (00) or |-_|-_| (11)
1365 // Ignore bits that are transmitted during SOF
1368 // bit is same as last bit
1369 rx
[rxlen
/ 8] |= lastbit
<< (7-(rxlen
%8));
1373 // Ignore wierd value, is to small to mean anything
1377 // We can break this loop if we received the last bit from a frame
1378 if (AT91C_BASE_TC1
->TC_CV
> T0
*HITAG_T_EOF
) {
1385 AT91C_BASE_TC1
->TC_CCR
= AT91C_TC_CLKDIS
;
1386 AT91C_BASE_TC0
->TC_CCR
= AT91C_TC_CLKDIS
;
1387 FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF
);
1388 Dbprintf("DONE: frame received: %d",frame_count
);
1389 cmd_send(CMD_ACK
,bSuccessful
,0,0,(byte_t
*)tag
.sectors
,48);