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1 | //----------------------------------------------------------------------------- | |
2 | // (c) 2009 Henryk Plötz <henryk@ploetzli.ch> | |
3 | // 2016 Iceman | |
4 | // 2018 AntiCat | |
5 | // | |
6 | // This code is licensed to you under the terms of the GNU GPL, version 2 or, | |
7 | // at your option, any later version. See the LICENSE.txt file for the text of | |
8 | // the license. | |
9 | //----------------------------------------------------------------------------- | |
10 | // LEGIC RF simulation code | |
11 | //----------------------------------------------------------------------------- | |
12 | ||
13 | #include "proxmark3.h" | |
14 | #include "apps.h" | |
15 | #include "util.h" | |
16 | #include "string.h" | |
17 | ||
18 | #include "legicrf.h" | |
19 | #include "legic_prng.h" | |
20 | #include "legic.h" | |
21 | #include "crc.h" | |
22 | ||
23 | static legic_card_select_t card;/* metadata of currently selected card */ | |
24 | static crc_t legic_crc; | |
25 | ||
26 | //----------------------------------------------------------------------------- | |
27 | // Frame timing and pseudorandom number generator | |
28 | // | |
29 | // The Prng is forwarded every 100us (TAG_BIT_PERIOD), except when the reader is | |
30 | // transmitting. In that case the prng has to be forwarded every bit transmitted: | |
31 | // - 60us for a 0 (RWD_TIME_0) | |
32 | // - 100us for a 1 (RWD_TIME_1) | |
33 | // | |
34 | // The data dependent timing makes writing comprehensible code significantly | |
35 | // harder. The current aproach forwards the prng data based if there is data on | |
36 | // air and time based, using GET_TICKS, during computational and wait periodes. | |
37 | // | |
38 | // To not have the necessity to calculate/guess exection time dependend timeouts | |
39 | // tx_frame and rx_frame use a shared timestamp to coordinate tx and rx timeslots. | |
40 | //----------------------------------------------------------------------------- | |
41 | ||
42 | static uint32_t last_frame_end; /* ts of last bit of previews rx or tx frame */ | |
43 | ||
44 | #define RWD_TIME_PAUSE 30 /* 20us */ | |
45 | #define RWD_TIME_1 150 /* READER_TIME_PAUSE 20us off + 80us on = 100us */ | |
46 | #define RWD_TIME_0 90 /* READER_TIME_PAUSE 20us off + 40us on = 60us */ | |
47 | #define RWD_FRAME_WAIT 330 /* 220us from TAG frame end to READER frame start */ | |
48 | #define TAG_FRAME_WAIT 495 /* 330us from READER frame end to TAG frame start */ | |
49 | #define TAG_BIT_PERIOD 150 /* 100us */ | |
50 | #define TAG_WRITE_TIMEOUT 60 /* 40 * 100us (write should take at most 3.6ms) */ | |
51 | ||
52 | #define LEGIC_READ 0x01 /* Read Command */ | |
53 | #define LEGIC_WRITE 0x00 /* Write Command */ | |
54 | ||
55 | #define SESSION_IV 0x55 /* An arbitrary chose session IV, all shoud work */ | |
56 | #define OFFSET_LOG 1024 /* The largest Legic Prime card is 1k */ | |
57 | #define WRITE_LOWERLIMIT 4 /* UID and MCC are not writable */ | |
58 | ||
59 | #define INPUT_THRESHOLD 8 /* heuristically determined, lower values */ | |
60 | /* lead to detecting false ack during write */ | |
61 | ||
62 | //----------------------------------------------------------------------------- | |
63 | // I/O interface abstraction (FPGA -> ARM) | |
64 | //----------------------------------------------------------------------------- | |
65 | ||
66 | static inline uint16_t rx_frame_from_fpga() { | |
67 | for(;;) { | |
68 | WDT_HIT(); | |
69 | ||
70 | // wait for frame be become available in rx holding register | |
71 | if(AT91C_BASE_SSC->SSC_SR & (AT91C_SSC_RXRDY)) { | |
72 | return AT91C_BASE_SSC->SSC_RHR; | |
73 | } | |
74 | } | |
75 | } | |
76 | ||
77 | //----------------------------------------------------------------------------- | |
78 | // Demodulation (Reader) | |
79 | //----------------------------------------------------------------------------- | |
80 | ||
81 | // Returns a demedulated bit | |
82 | // | |
83 | // The FPGA running xcorrelation samples the subcarrier at ~13.56 MHz. The mode | |
84 | // was initialy designed to receive BSPK/2-PSK. Hance, it reports an I/Q pair | |
85 | // every 4.7us (8 bits i and 8 bits q). | |
86 | // | |
87 | // The subcarrier amplitude can be calculated using Pythagoras sqrt(i^2 + q^2). | |
88 | // To reduce CPU time the amplitude is approximated by using linear functions: | |
89 | // am = MAX(ABS(i),ABS(q)) + 1/2*MIN(ABS(i),ABSq)) | |
90 | // | |
91 | // The bit time is 99.1us (21 I/Q pairs). The receiver skips the first 5 samples | |
92 | // and averages the next (most stable) 8 samples. The final 8 samples are dropped | |
93 | // also. | |
94 | // | |
95 | // The demodulated should be alligned to the bit period by the caller. This is | |
96 | // done in rx_bit and rx_ack. | |
97 | static inline bool rx_bit() { | |
98 | int32_t sum_cq = 0; | |
99 | int32_t sum_ci = 0; | |
100 | ||
101 | // skip first 5 I/Q pairs | |
102 | for(size_t i = 0; i<5; ++i) { | |
103 | (void)rx_frame_from_fpga(); | |
104 | } | |
105 | ||
106 | // sample next 8 I/Q pairs | |
107 | for(size_t i = 0; i<8; ++i) { | |
108 | uint16_t iq = rx_frame_from_fpga(); | |
109 | int8_t ci = (int8_t)(iq >> 8); | |
110 | int8_t cq = (int8_t)(iq & 0xff); | |
111 | sum_ci += ci; | |
112 | sum_cq += cq; | |
113 | } | |
114 | ||
115 | // calculate power | |
116 | int32_t power = (MAX(ABS(sum_ci), ABS(sum_cq)) + MIN(ABS(sum_ci), ABS(sum_cq))/2); | |
117 | ||
118 | // compare average (power / 8) to threshold | |
119 | return ((power >> 3) > INPUT_THRESHOLD); | |
120 | } | |
121 | ||
122 | //----------------------------------------------------------------------------- | |
123 | // Modulation (Reader) | |
124 | // | |
125 | // I've tried to modulate the Legic specific pause-puls using ssc and the default | |
126 | // ssc clock of 105.4 kHz (bit periode of 9.4us) - previous commit. However, | |
127 | // the timing was not precise enough. By increasing the ssc clock this could | |
128 | // be circumvented, but the adventage over bitbang would be little. | |
129 | //----------------------------------------------------------------------------- | |
130 | ||
131 | static inline void tx_bit(bool bit) { | |
132 | // insert pause | |
133 | HIGH(GPIO_SSC_DOUT); | |
134 | last_frame_end += RWD_TIME_PAUSE; | |
135 | while(GET_TICKS < last_frame_end) { }; | |
136 | ||
137 | // return to carrier on, wait for bit periode to end | |
138 | LOW(GPIO_SSC_DOUT); | |
139 | last_frame_end += (bit ? RWD_TIME_1 : RWD_TIME_0) - RWD_TIME_PAUSE; | |
140 | while(GET_TICKS < last_frame_end) { }; | |
141 | } | |
142 | ||
143 | //----------------------------------------------------------------------------- | |
144 | // Frame Handling (Reader) | |
145 | // | |
146 | // The LEGIC RF protocol from card to reader does not include explicit frame | |
147 | // start/stop information or length information. The reader must know beforehand | |
148 | // how many bits it wants to receive. | |
149 | // Notably: a card sending a stream of 0-bits is indistinguishable from no card | |
150 | // present. | |
151 | //----------------------------------------------------------------------------- | |
152 | ||
153 | static void tx_frame(uint32_t frame, uint8_t len) { | |
154 | FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_TX); | |
155 | ||
156 | // wait for next tx timeslot | |
157 | last_frame_end += RWD_FRAME_WAIT; | |
158 | while(GET_TICKS < last_frame_end) { }; | |
159 | ||
160 | // transmit frame, MSB first | |
161 | for(uint8_t i = 0; i < len; ++i) { | |
162 | bool bit = (frame >> i) & 0x01; | |
163 | tx_bit(bit ^ legic_prng_get_bit()); | |
164 | legic_prng_forward(1); | |
165 | }; | |
166 | ||
167 | // add pause to mark end of the frame | |
168 | HIGH(GPIO_SSC_DOUT); | |
169 | last_frame_end += RWD_TIME_PAUSE; | |
170 | while(GET_TICKS < last_frame_end) { }; | |
171 | LOW(GPIO_SSC_DOUT); | |
172 | } | |
173 | ||
174 | static uint32_t rx_frame(uint8_t len) { | |
175 | FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | |
176 | | FPGA_HF_READER_RX_XCORR_848_KHZ | |
177 | | FPGA_HF_READER_RX_XCORR_QUARTER_FREQ); | |
178 | ||
179 | // hold sampling until card is expected to respond | |
180 | last_frame_end += TAG_FRAME_WAIT; | |
181 | while(GET_TICKS < last_frame_end) { }; | |
182 | ||
183 | uint32_t frame = 0; | |
184 | for(uint8_t i = 0; i < len; ++i) { | |
185 | frame |= (rx_bit() ^ legic_prng_get_bit()) << i; | |
186 | legic_prng_forward(1); | |
187 | ||
188 | // rx_bit runs only 95us, resync to TAG_BIT_PERIOD | |
189 | last_frame_end += TAG_BIT_PERIOD; | |
190 | while(GET_TICKS < last_frame_end) { }; | |
191 | } | |
192 | ||
193 | return frame; | |
194 | } | |
195 | ||
196 | static bool rx_ack() { | |
197 | // change fpga into rx mode | |
198 | FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | |
199 | | FPGA_HF_READER_RX_XCORR_848_KHZ | |
200 | | FPGA_HF_READER_RX_XCORR_QUARTER_FREQ); | |
201 | ||
202 | // hold sampling until card is expected to respond | |
203 | last_frame_end += TAG_FRAME_WAIT; | |
204 | while(GET_TICKS < last_frame_end) { }; | |
205 | ||
206 | uint32_t ack = 0; | |
207 | for(uint8_t i = 0; i < TAG_WRITE_TIMEOUT; ++i) { | |
208 | // sample bit | |
209 | ack = rx_bit(); | |
210 | legic_prng_forward(1); | |
211 | ||
212 | // rx_bit runs only 95us, resync to TAG_BIT_PERIOD | |
213 | last_frame_end += TAG_BIT_PERIOD; | |
214 | while(GET_TICKS < last_frame_end) { }; | |
215 | ||
216 | // check if it was an ACK | |
217 | if(ack) { | |
218 | break; | |
219 | } | |
220 | } | |
221 | ||
222 | return ack; | |
223 | } | |
224 | ||
225 | //----------------------------------------------------------------------------- | |
226 | // Legic Reader | |
227 | //----------------------------------------------------------------------------- | |
228 | ||
229 | static int init_card(uint8_t cardtype, legic_card_select_t *p_card) { | |
230 | p_card->tagtype = cardtype; | |
231 | ||
232 | switch(p_card->tagtype) { | |
233 | case 0x0d: | |
234 | p_card->cmdsize = 6; | |
235 | p_card->addrsize = 5; | |
236 | p_card->cardsize = 22; | |
237 | break; | |
238 | case 0x1d: | |
239 | p_card->cmdsize = 9; | |
240 | p_card->addrsize = 8; | |
241 | p_card->cardsize = 256; | |
242 | break; | |
243 | case 0x3d: | |
244 | p_card->cmdsize = 11; | |
245 | p_card->addrsize = 10; | |
246 | p_card->cardsize = 1024; | |
247 | break; | |
248 | default: | |
249 | p_card->cmdsize = 0; | |
250 | p_card->addrsize = 0; | |
251 | p_card->cardsize = 0; | |
252 | return 2; | |
253 | } | |
254 | return 0; | |
255 | } | |
256 | ||
257 | static void init_reader(bool clear_mem) { | |
258 | // configure FPGA | |
259 | FpgaDownloadAndGo(FPGA_BITSTREAM_HF); | |
260 | FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | |
261 | | FPGA_HF_READER_RX_XCORR_848_KHZ | |
262 | | FPGA_HF_READER_RX_XCORR_QUARTER_FREQ); | |
263 | SetAdcMuxFor(GPIO_MUXSEL_HIPKD); | |
264 | LED_D_ON(); | |
265 | ||
266 | // configure SSC with defaults | |
267 | FpgaSetupSsc(FPGA_MAJOR_MODE_HF_READER_RX_XCORR); | |
268 | ||
269 | // re-claim GPIO_SSC_DOUT as GPIO and enable output | |
270 | AT91C_BASE_PIOA->PIO_OER = GPIO_SSC_DOUT; | |
271 | AT91C_BASE_PIOA->PIO_PER = GPIO_SSC_DOUT; | |
272 | LOW(GPIO_SSC_DOUT); | |
273 | ||
274 | // init crc calculator | |
275 | crc_init(&legic_crc, 4, 0x19 >> 1, 0x05, 0); | |
276 | ||
277 | // start us timer | |
278 | StartTicks(); | |
279 | } | |
280 | ||
281 | // Setup reader to card connection | |
282 | // | |
283 | // The setup consists of a three way handshake: | |
284 | // - Transmit initialisation vector 7 bits | |
285 | // - Receive card type 6 bits | |
286 | // - Transmit Acknowledge 6 bits | |
287 | static uint32_t setup_phase(uint8_t iv) { | |
288 | // init coordination timestamp | |
289 | last_frame_end = GET_TICKS; | |
290 | ||
291 | // Switch on carrier and let the card charge for 5ms. | |
292 | last_frame_end += 7500; | |
293 | while(GET_TICKS < last_frame_end) { }; | |
294 | ||
295 | legic_prng_init(0); | |
296 | tx_frame(iv, 7); | |
297 | ||
298 | // configure prng | |
299 | legic_prng_init(iv); | |
300 | legic_prng_forward(2); | |
301 | ||
302 | // receive card type | |
303 | int32_t card_type = rx_frame(6); | |
304 | legic_prng_forward(3); | |
305 | ||
306 | // send obsfuscated acknowledgment frame | |
307 | switch (card_type) { | |
308 | case 0x0D: | |
309 | tx_frame(0x19, 6); // MIM22 | READCMD = 0x18 | 0x01 | |
310 | break; | |
311 | case 0x1D: | |
312 | case 0x3D: | |
313 | tx_frame(0x39, 6); // MIM256 | READCMD = 0x38 | 0x01 | |
314 | break; | |
315 | } | |
316 | ||
317 | return card_type; | |
318 | } | |
319 | ||
320 | static uint8_t calc_crc4(uint16_t cmd, uint8_t cmd_sz, uint8_t value) { | |
321 | crc_clear(&legic_crc); | |
322 | crc_update(&legic_crc, (value << cmd_sz) | cmd, 8 + cmd_sz); | |
323 | return crc_finish(&legic_crc); | |
324 | } | |
325 | ||
326 | static int16_t read_byte(uint16_t index, uint8_t cmd_sz) { | |
327 | uint16_t cmd = (index << 1) | LEGIC_READ; | |
328 | ||
329 | // read one byte | |
330 | LED_B_ON(); | |
331 | legic_prng_forward(2); | |
332 | tx_frame(cmd, cmd_sz); | |
333 | legic_prng_forward(2); | |
334 | uint32_t frame = rx_frame(12); | |
335 | LED_B_OFF(); | |
336 | ||
337 | // split frame into data and crc | |
338 | uint8_t byte = BYTEx(frame, 0); | |
339 | uint8_t crc = BYTEx(frame, 1); | |
340 | ||
341 | // check received against calculated crc | |
342 | uint8_t calc_crc = calc_crc4(cmd, cmd_sz, byte); | |
343 | if(calc_crc != crc) { | |
344 | Dbprintf("!!! crc mismatch: %x != %x !!!", calc_crc, crc); | |
345 | return -1; | |
346 | } | |
347 | ||
348 | legic_prng_forward(1); | |
349 | ||
350 | return byte; | |
351 | } | |
352 | ||
353 | // Transmit write command, wait until (3.6ms) the tag sends back an unencrypted | |
354 | // ACK ('1' bit) and forward the prng time based. | |
355 | bool write_byte(uint16_t index, uint8_t byte, uint8_t addr_sz) { | |
356 | uint32_t cmd = index << 1 | LEGIC_WRITE; // prepare command | |
357 | uint8_t crc = calc_crc4(cmd, addr_sz + 1, byte); // calculate crc | |
358 | cmd |= byte << (addr_sz + 1); // append value | |
359 | cmd |= (crc & 0xF) << (addr_sz + 1 + 8); // and crc | |
360 | ||
361 | // send write command | |
362 | LED_C_ON(); | |
363 | legic_prng_forward(2); | |
364 | tx_frame(cmd, addr_sz + 1 + 8 + 4); // sz = addr_sz + cmd + data + crc | |
365 | legic_prng_forward(3); | |
366 | LED_C_OFF(); | |
367 | ||
368 | // wait for ack | |
369 | return rx_ack(); | |
370 | } | |
371 | ||
372 | //----------------------------------------------------------------------------- | |
373 | // Command Line Interface | |
374 | // | |
375 | // Only this functions are public / called from appmain.c | |
376 | //----------------------------------------------------------------------------- | |
377 | void LegicRfReader(int offset, int bytes) { | |
378 | uint8_t *BigBuf = BigBuf_get_addr(); | |
379 | memset(BigBuf, 0, 1024); | |
380 | ||
381 | // configure ARM and FPGA | |
382 | init_reader(false); | |
383 | ||
384 | // establish shared secret and detect card type | |
385 | DbpString("Reading card ..."); | |
386 | uint8_t card_type = setup_phase(SESSION_IV); | |
387 | if(init_card(card_type, &card) != 0) { | |
388 | Dbprintf("No or unknown card found, aborting"); | |
389 | goto OUT; | |
390 | } | |
391 | ||
392 | // if no argument is specified create full dump | |
393 | if(bytes == -1) { | |
394 | bytes = card.cardsize; | |
395 | } | |
396 | ||
397 | // do not read beyond card memory | |
398 | if(bytes + offset > card.cardsize) { | |
399 | bytes = card.cardsize - offset; | |
400 | } | |
401 | ||
402 | for(uint16_t i = 0; i < bytes; ++i) { | |
403 | int16_t byte = read_byte(offset + i, card.cmdsize); | |
404 | if(byte == -1) { | |
405 | Dbprintf("operation failed @ 0x%03.3x", bytes); | |
406 | goto OUT; | |
407 | } | |
408 | BigBuf[i] = byte; | |
409 | } | |
410 | ||
411 | // OK | |
412 | Dbprintf("Card (MIM %i) read, use 'hf legic decode' or", card.cardsize); | |
413 | Dbprintf("'data hexsamples %d' to view results", (bytes+7) & ~7); | |
414 | ||
415 | OUT: | |
416 | FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF); | |
417 | LED_B_OFF(); | |
418 | LED_C_OFF(); | |
419 | LED_D_OFF(); | |
420 | StopTicks(); | |
421 | } | |
422 | ||
423 | void LegicRfWriter(int bytes, int offset) { | |
424 | uint8_t *BigBuf = BigBuf_get_addr(); | |
425 | ||
426 | // configure ARM and FPGA | |
427 | init_reader(false); | |
428 | ||
429 | // uid is not writeable | |
430 | if(offset <= WRITE_LOWERLIMIT) { | |
431 | goto OUT; | |
432 | } | |
433 | ||
434 | // establish shared secret and detect card type | |
435 | Dbprintf("Writing 0x%02.2x - 0x%02.2x ...", offset, offset+bytes); | |
436 | uint8_t card_type = setup_phase(SESSION_IV); | |
437 | if(init_card(card_type, &card) != 0) { | |
438 | Dbprintf("No or unknown card found, aborting"); | |
439 | goto OUT; | |
440 | } | |
441 | ||
442 | // do not write beyond card memory | |
443 | if(bytes + offset > card.cardsize) { | |
444 | bytes = card.cardsize - offset; | |
445 | } | |
446 | ||
447 | // write in reverse order, only then is DCF (decremental field) writable | |
448 | while(bytes-- > 0 && !BUTTON_PRESS()) { | |
449 | if(!write_byte(bytes + offset, BigBuf[bytes + offset], card.addrsize)) { | |
450 | Dbprintf("operation failed @ 0x%03.3x", bytes); | |
451 | goto OUT; | |
452 | } | |
453 | } | |
454 | ||
455 | // OK | |
456 | DbpString("Write successful"); | |
457 | ||
458 | OUT: | |
459 | FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF); | |
460 | LED_B_OFF(); | |
461 | LED_C_OFF(); | |
462 | LED_D_OFF(); | |
463 | StopTicks(); | |
464 | } |