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959baa89 | 1 | //----------------------------------------------------------------------------- |
2 | // The main application code. This is the first thing called after start.c | |
3 | // executes. | |
4 | // Jonathan Westhues, Mar 2006 | |
5 | // Edits by Gerhard de Koning Gans, Sep 2007 (##) | |
6 | //----------------------------------------------------------------------------- | |
7 | ||
959baa89 | 8 | #include <proxmark3.h> |
7f348042 | 9 | #include <stdlib.h> |
959baa89 | 10 | #include "apps.h" |
11 | #ifdef WITH_LCD | |
12 | #include "fonts.h" | |
13 | #include "LCD.h" | |
14 | #endif | |
15 | ||
959baa89 | 16 | //============================================================================= |
17 | // A buffer where we can queue things up to be sent through the FPGA, for | |
18 | // any purpose (fake tag, as reader, whatever). We go MSB first, since that | |
19 | // is the order in which they go out on the wire. | |
20 | //============================================================================= | |
21 | ||
22 | BYTE ToSend[256]; | |
23 | int ToSendMax; | |
24 | static int ToSendBit; | |
8fcbf652 | 25 | struct common_area common_area __attribute__((section(".commonarea"))); |
959baa89 | 26 | |
f23e056d | 27 | void BufferClear(void) |
28 | { | |
29 | memset(BigBuf,0,sizeof(BigBuf)); | |
30 | DbpString("Buffer cleared"); | |
31 | } | |
32 | ||
959baa89 | 33 | void ToSendReset(void) |
34 | { | |
35 | ToSendMax = -1; | |
36 | ToSendBit = 8; | |
37 | } | |
38 | ||
39 | void ToSendStuffBit(int b) | |
40 | { | |
41 | if(ToSendBit >= 8) { | |
42 | ToSendMax++; | |
43 | ToSend[ToSendMax] = 0; | |
44 | ToSendBit = 0; | |
45 | } | |
46 | ||
47 | if(b) { | |
48 | ToSend[ToSendMax] |= (1 << (7 - ToSendBit)); | |
49 | } | |
50 | ||
51 | ToSendBit++; | |
52 | ||
53 | if(ToSendBit >= sizeof(ToSend)) { | |
54 | ToSendBit = 0; | |
55 | DbpString("ToSendStuffBit overflowed!"); | |
56 | } | |
57 | } | |
58 | ||
59 | //============================================================================= | |
60 | // Debug print functions, to go out over USB, to the usual PC-side client. | |
61 | //============================================================================= | |
62 | ||
63 | void DbpString(char *str) | |
64 | { | |
955fc5e2 | 65 | /* this holds up stuff unless we're connected to usb */ |
50722269 | 66 | if (!UsbConnected()) |
67 | return; | |
c701d2c2 | 68 | |
959baa89 | 69 | UsbCommand c; |
70 | c.cmd = CMD_DEBUG_PRINT_STRING; | |
71 | c.ext1 = strlen(str); | |
72 | memcpy(c.d.asBytes, str, c.ext1); | |
73 | ||
74 | UsbSendPacket((BYTE *)&c, sizeof(c)); | |
75 | // TODO fix USB so stupid things like this aren't req'd | |
76 | SpinDelay(50); | |
77 | } | |
78 | ||
79 | void DbpIntegers(int x1, int x2, int x3) | |
80 | { | |
955fc5e2 | 81 | /* this holds up stuff unless we're connected to usb */ |
50722269 | 82 | if (!UsbConnected()) |
83 | return; | |
955fc5e2 | 84 | |
959baa89 | 85 | UsbCommand c; |
86 | c.cmd = CMD_DEBUG_PRINT_INTEGERS; | |
87 | c.ext1 = x1; | |
88 | c.ext2 = x2; | |
89 | c.ext3 = x3; | |
90 | ||
91 | UsbSendPacket((BYTE *)&c, sizeof(c)); | |
92 | // XXX | |
93 | SpinDelay(50); | |
94 | } | |
95 | ||
959baa89 | 96 | //----------------------------------------------------------------------------- |
97 | // Read an ADC channel and block till it completes, then return the result | |
98 | // in ADC units (0 to 1023). Also a routine to average 32 samples and | |
99 | // return that. | |
100 | //----------------------------------------------------------------------------- | |
101 | static int ReadAdc(int ch) | |
102 | { | |
103 | DWORD d; | |
104 | ||
105 | ADC_CONTROL = ADC_CONTROL_RESET; | |
106 | ADC_MODE = ADC_MODE_PRESCALE(32) | ADC_MODE_STARTUP_TIME(16) | | |
107 | ADC_MODE_SAMPLE_HOLD_TIME(8); | |
108 | ADC_CHANNEL_ENABLE = ADC_CHANNEL(ch); | |
109 | ||
110 | ADC_CONTROL = ADC_CONTROL_START; | |
111 | while(!(ADC_STATUS & ADC_END_OF_CONVERSION(ch))) | |
112 | ; | |
113 | d = ADC_CHANNEL_DATA(ch); | |
114 | ||
115 | return d; | |
116 | } | |
117 | ||
118 | static int AvgAdc(int ch) | |
119 | { | |
120 | int i; | |
121 | int a = 0; | |
122 | ||
123 | for(i = 0; i < 32; i++) { | |
124 | a += ReadAdc(ch); | |
125 | } | |
126 | ||
127 | return (a + 15) >> 5; | |
128 | } | |
30f2a7d3 | 129 | |
e7aee94e | 130 | void MeasureAntennaTuning(void) |
959baa89 | 131 | { |
132 | BYTE *dest = (BYTE *)BigBuf; | |
e7aee94e | 133 | int i, ptr = 0, adcval = 0, peak = 0, peakv = 0, peakf = 0;; |
134 | int vLf125 = 0, vLf134 = 0, vHf = 0; // in mV | |
135 | ||
136 | UsbCommand c; | |
959baa89 | 137 | |
e7aee94e | 138 | DbpString("Measuring antenna characteristics, please wait."); |
959baa89 | 139 | memset(BigBuf,0,sizeof(BigBuf)); |
140 | ||
e7aee94e | 141 | /* |
142 | * Sweeps the useful LF range of the proxmark from | |
143 | * 46.8kHz (divisor=255) to 600kHz (divisor=19) and | |
144 | * read the voltage in the antenna, the result left | |
145 | * in the buffer is a graph which should clearly show | |
146 | * the resonating frequency of your LF antenna | |
147 | * ( hopefully around 95 if it is tuned to 125kHz!) | |
148 | */ | |
959baa89 | 149 | FpgaWriteConfWord(FPGA_MAJOR_MODE_LF_READER); |
150 | for (i=255; i>19; i--) { | |
151 | FpgaSendCommand(FPGA_CMD_SET_DIVISOR, i); | |
152 | SpinDelay(20); | |
e7aee94e | 153 | // Vref = 3.3V, and a 10000:240 voltage divider on the input |
154 | // can measure voltages up to 137500 mV | |
155 | adcval = ((137500 * AvgAdc(ADC_CHAN_LF)) >> 10); | |
156 | if (i==95) vLf125 = adcval; // voltage at 125Khz | |
157 | if (i==89) vLf134 = adcval; // voltage at 134Khz | |
158 | ||
159 | dest[i] = adcval>>8; // scale int to fit in byte for graphing purposes | |
38b65694 | 160 | if(dest[i] > peak) { |
e7aee94e | 161 | peakv = adcval; |
162 | peak = dest[i]; | |
163 | peakf = i; | |
164 | ptr = i; | |
38b65694 | 165 | } |
e7aee94e | 166 | } |
959baa89 | 167 | |
168 | // Let the FPGA drive the high-frequency antenna around 13.56 MHz. | |
169 | FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR); | |
170 | SpinDelay(20); | |
959baa89 | 171 | // Vref = 3300mV, and an 10:1 voltage divider on the input |
172 | // can measure voltages up to 33000 mV | |
e7aee94e | 173 | vHf = (33000 * AvgAdc(ADC_CHAN_HF)) >> 10; |
959baa89 | 174 | |
175 | c.cmd = CMD_MEASURED_ANTENNA_TUNING; | |
176 | c.ext1 = (vLf125 << 0) | (vLf134 << 16); | |
177 | c.ext2 = vHf; | |
c701d2c2 | 178 | c.ext3 = peakf | (peakv << 16); |
959baa89 | 179 | UsbSendPacket((BYTE *)&c, sizeof(c)); |
180 | } | |
181 | ||
9bea179a | 182 | void SimulateTagHfListen(void) |
959baa89 | 183 | { |
9bea179a | 184 | BYTE *dest = (BYTE *)BigBuf; |
185 | int n = sizeof(BigBuf); | |
186 | BYTE v = 0; | |
959baa89 | 187 | int i; |
9bea179a | 188 | int p = 0; |
959baa89 | 189 | |
9bea179a | 190 | // We're using this mode just so that I can test it out; the simulated |
191 | // tag mode would work just as well and be simpler. | |
192 | FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | FPGA_HF_READER_RX_XCORR_848_KHZ | FPGA_HF_READER_RX_XCORR_SNOOP); | |
959baa89 | 193 | |
9bea179a | 194 | // We need to listen to the high-frequency, peak-detected path. |
195 | SetAdcMuxFor(GPIO_MUXSEL_HIPKD); | |
959baa89 | 196 | |
9bea179a | 197 | FpgaSetupSsc(); |
959baa89 | 198 | |
199 | i = 0; | |
200 | for(;;) { | |
9bea179a | 201 | if(SSC_STATUS & (SSC_STATUS_TX_READY)) { |
202 | SSC_TRANSMIT_HOLDING = 0xff; | |
959baa89 | 203 | } |
9bea179a | 204 | if(SSC_STATUS & (SSC_STATUS_RX_READY)) { |
205 | BYTE r = (BYTE)SSC_RECEIVE_HOLDING; | |
959baa89 | 206 | |
9bea179a | 207 | v <<= 1; |
208 | if(r & 1) { | |
209 | v |= 1; | |
210 | } | |
211 | p++; | |
c701d2c2 | 212 | |
9bea179a | 213 | if(p >= 8) { |
214 | dest[i] = v; | |
215 | v = 0; | |
216 | p = 0; | |
217 | i++; | |
959baa89 | 218 | |
9bea179a | 219 | if(i >= n) { |
220 | break; | |
221 | } | |
959baa89 | 222 | } |
959baa89 | 223 | } |
959baa89 | 224 | } |
9bea179a | 225 | DbpString("simulate tag (now type bitsamples)"); |
959baa89 | 226 | } |
227 | ||
9bea179a | 228 | void ReadMem(int addr) |
229 | { | |
230 | const DWORD *data = ((DWORD *)addr); | |
231 | int i; | |
959baa89 | 232 | |
9bea179a | 233 | DbpString("Reading memory at address"); |
234 | DbpIntegers(0, 0, addr); | |
235 | for (i = 0; i < 8; i+= 2) | |
236 | DbpIntegers(0, data[i], data[i+1]); | |
959baa89 | 237 | } |
238 | ||
8a6aec16 | 239 | /* osimage version information is linked in */ |
240 | extern struct version_information version_information; | |
4271e82d | 241 | /* bootrom version information is pointed to from _bootphase1_version_pointer */ |
715d74c5 | 242 | extern char *_bootphase1_version_pointer, _flash_start, _flash_end; |
ba8a80b3 | 243 | void SendVersion(void) |
244 | { | |
245 | char temp[48]; /* Limited data payload in USB packets */ | |
246 | DbpString("Prox/RFID mark3 RFID instrument"); | |
8a6aec16 | 247 | |
4271e82d | 248 | /* Try to find the bootrom version information. Expect to find a pointer at |
249 | * symbol _bootphase1_version_pointer, perform slight sanity checks on the | |
250 | * pointer, then use it. | |
8a6aec16 | 251 | */ |
45dcfac2 | 252 | char *bootrom_version = *(char**)&_bootphase1_version_pointer; |
253 | if( bootrom_version < &_flash_start || bootrom_version >= &_flash_end ) { | |
8a6aec16 | 254 | DbpString("bootrom version information appears invalid"); |
255 | } else { | |
256 | FormatVersionInformation(temp, sizeof(temp), "bootrom: ", bootrom_version); | |
257 | DbpString(temp); | |
258 | } | |
259 | ||
260 | FormatVersionInformation(temp, sizeof(temp), "os: ", &version_information); | |
261 | DbpString(temp); | |
262 | ||
ba8a80b3 | 263 | FpgaGatherVersion(temp, sizeof(temp)); |
264 | DbpString(temp); | |
265 | } | |
266 | ||
9bea179a | 267 | // samy's sniff and repeat routine |
268 | void SamyRun() | |
959baa89 | 269 | { |
9bea179a | 270 | DbpString("Stand-alone mode! No PC necessary."); |
959baa89 | 271 | |
9bea179a | 272 | // 3 possible options? no just 2 for now |
273 | #define OPTS 2 | |
959baa89 | 274 | |
9bea179a | 275 | int high[OPTS], low[OPTS]; |
c701d2c2 | 276 | |
9bea179a | 277 | // Oooh pretty -- notify user we're in elite samy mode now |
278 | LED(LED_RED, 200); | |
279 | LED(LED_ORANGE, 200); | |
280 | LED(LED_GREEN, 200); | |
281 | LED(LED_ORANGE, 200); | |
282 | LED(LED_RED, 200); | |
283 | LED(LED_ORANGE, 200); | |
284 | LED(LED_GREEN, 200); | |
285 | LED(LED_ORANGE, 200); | |
286 | LED(LED_RED, 200); | |
959baa89 | 287 | |
9bea179a | 288 | int selected = 0; |
289 | int playing = 0; | |
959baa89 | 290 | |
9bea179a | 291 | // Turn on selected LED |
292 | LED(selected + 1, 0); | |
959baa89 | 293 | |
9bea179a | 294 | for (;;) |
295 | { | |
50722269 | 296 | UsbPoll(FALSE); |
9bea179a | 297 | WDT_HIT(); |
959baa89 | 298 | |
9bea179a | 299 | // Was our button held down or pressed? |
300 | int button_pressed = BUTTON_HELD(1000); | |
301 | SpinDelay(300); | |
959baa89 | 302 | |
9bea179a | 303 | // Button was held for a second, begin recording |
304 | if (button_pressed > 0) | |
305 | { | |
306 | LEDsoff(); | |
307 | LED(selected + 1, 0); | |
308 | LED(LED_RED2, 0); | |
959baa89 | 309 | |
9bea179a | 310 | // record |
311 | DbpString("Starting recording"); | |
959baa89 | 312 | |
9bea179a | 313 | // wait for button to be released |
314 | while(BUTTON_PRESS()) | |
315 | WDT_HIT(); | |
959baa89 | 316 | |
9bea179a | 317 | /* need this delay to prevent catching some weird data */ |
318 | SpinDelay(500); | |
959baa89 | 319 | |
9bea179a | 320 | CmdHIDdemodFSK(1, &high[selected], &low[selected], 0); |
321 | DbpString("Recorded"); | |
322 | DbpIntegers(selected, high[selected], low[selected]); | |
959baa89 | 323 | |
9bea179a | 324 | LEDsoff(); |
325 | LED(selected + 1, 0); | |
326 | // Finished recording | |
959baa89 | 327 | |
9bea179a | 328 | // If we were previously playing, set playing off |
329 | // so next button push begins playing what we recorded | |
330 | playing = 0; | |
959baa89 | 331 | } |
959baa89 | 332 | |
9bea179a | 333 | // Change where to record (or begin playing) |
334 | else if (button_pressed) | |
335 | { | |
336 | // Next option if we were previously playing | |
337 | if (playing) | |
338 | selected = (selected + 1) % OPTS; | |
339 | playing = !playing; | |
959baa89 | 340 | |
9bea179a | 341 | LEDsoff(); |
342 | LED(selected + 1, 0); | |
343 | ||
344 | // Begin transmitting | |
345 | if (playing) | |
959baa89 | 346 | { |
9bea179a | 347 | LED(LED_GREEN, 0); |
348 | DbpString("Playing"); | |
349 | // wait for button to be released | |
350 | while(BUTTON_PRESS()) | |
351 | WDT_HIT(); | |
352 | DbpIntegers(selected, high[selected], low[selected]); | |
353 | CmdHIDsimTAG(high[selected], low[selected], 0); | |
354 | DbpString("Done playing"); | |
355 | if (BUTTON_HELD(1000) > 0) | |
955fc5e2 | 356 | { |
9bea179a | 357 | DbpString("Exiting"); |
358 | LEDsoff(); | |
359 | return; | |
955fc5e2 | 360 | } |
9bea179a | 361 | |
362 | /* We pressed a button so ignore it here with a delay */ | |
363 | SpinDelay(300); | |
364 | ||
365 | // when done, we're done playing, move to next option | |
366 | selected = (selected + 1) % OPTS; | |
367 | playing = !playing; | |
368 | LEDsoff(); | |
369 | LED(selected + 1, 0); | |
959baa89 | 370 | } |
9bea179a | 371 | else |
372 | while(BUTTON_PRESS()) | |
373 | WDT_HIT(); | |
959baa89 | 374 | } |
959baa89 | 375 | } |
376 | } | |
377 | ||
9bea179a | 378 | |
379 | /* | |
380 | OBJECTIVE | |
381 | Listen and detect an external reader. Determine the best location | |
382 | for the antenna. | |
383 | ||
384 | INSTRUCTIONS: | |
385 | Inside the ListenReaderField() function, there is two mode. | |
386 | By default, when you call the function, you will enter mode 1. | |
387 | If you press the PM3 button one time, you will enter mode 2. | |
388 | If you press the PM3 button a second time, you will exit the function. | |
389 | ||
390 | DESCRIPTION OF MODE 1: | |
391 | This mode just listens for an external reader field and lights up green | |
392 | for HF and/or red for LF. This is the original mode of the detectreader | |
393 | function. | |
394 | ||
395 | DESCRIPTION OF MODE 2: | |
396 | This mode will visually represent, using the LEDs, the actual strength of the | |
397 | current compared to the maximum current detected. Basically, once you know | |
398 | what kind of external reader is present, it will help you spot the best location to place | |
399 | your antenna. You will probably not get some good results if there is a LF and a HF reader | |
400 | at the same place! :-) | |
401 | ||
402 | LIGHT SCHEME USED: | |
9bea179a | 403 | */ |
bea2a866 | 404 | static const char LIGHT_SCHEME[] = { |
405 | 0x0, /* ---- | No field detected */ | |
406 | 0x1, /* X--- | 14% of maximum current detected */ | |
407 | 0x2, /* -X-- | 29% of maximum current detected */ | |
408 | 0x4, /* --X- | 43% of maximum current detected */ | |
409 | 0x8, /* ---X | 57% of maximum current detected */ | |
410 | 0xC, /* --XX | 71% of maximum current detected */ | |
411 | 0xE, /* -XXX | 86% of maximum current detected */ | |
412 | 0xF, /* XXXX | 100% of maximum current detected */ | |
413 | }; | |
414 | static const int LIGHT_LEN = sizeof(LIGHT_SCHEME)/sizeof(LIGHT_SCHEME[0]); | |
415 | ||
9bea179a | 416 | void ListenReaderField(int limit) |
959baa89 | 417 | { |
bea2a866 | 418 | int lf_av, lf_av_new, lf_baseline= 0, lf_count= 0, lf_max; |
9bea179a | 419 | int hf_av, hf_av_new, hf_baseline= 0, hf_count= 0, hf_max; |
bea2a866 | 420 | int mode=1, display_val, display_max, i; |
959baa89 | 421 | |
9bea179a | 422 | #define LF_ONLY 1 |
423 | #define HF_ONLY 2 | |
959baa89 | 424 | |
bea2a866 | 425 | LEDsoff(); |
959baa89 | 426 | |
bea2a866 | 427 | lf_av=lf_max=ReadAdc(ADC_CHAN_LF); |
959baa89 | 428 | |
bea2a866 | 429 | if(limit != HF_ONLY) { |
9bea179a | 430 | DbpString("LF 125/134 Baseline:"); |
431 | DbpIntegers(lf_av,0,0); | |
432 | lf_baseline= lf_av; | |
bea2a866 | 433 | } |
959baa89 | 434 | |
9bea179a | 435 | hf_av=hf_max=ReadAdc(ADC_CHAN_HF); |
959baa89 | 436 | |
bea2a866 | 437 | if (limit != LF_ONLY) { |
9bea179a | 438 | DbpString("HF 13.56 Baseline:"); |
439 | DbpIntegers(hf_av,0,0); | |
440 | hf_baseline= hf_av; | |
bea2a866 | 441 | } |
959baa89 | 442 | |
bea2a866 | 443 | for(;;) { |
9bea179a | 444 | if (BUTTON_PRESS()) { |
445 | SpinDelay(500); | |
446 | switch (mode) { | |
447 | case 1: | |
448 | mode=2; | |
449 | DbpString("Signal Strength Mode"); | |
959baa89 | 450 | break; |
9bea179a | 451 | case 2: |
452 | default: | |
453 | DbpString("Stopped"); | |
bea2a866 | 454 | LEDsoff(); |
9bea179a | 455 | return; |
456 | break; | |
457 | } | |
458 | } | |
459 | WDT_HIT(); | |
460 | ||
bea2a866 | 461 | if (limit != HF_ONLY) { |
462 | if(mode==1) { | |
463 | if (abs(lf_av - lf_baseline) > 10) LED_D_ON(); | |
464 | else LED_D_OFF(); | |
465 | } | |
466 | ||
9bea179a | 467 | ++lf_count; |
468 | lf_av_new= ReadAdc(ADC_CHAN_LF); | |
469 | // see if there's a significant change | |
bea2a866 | 470 | if(abs(lf_av - lf_av_new) > 10) { |
9bea179a | 471 | DbpString("LF 125/134 Field Change:"); |
472 | DbpIntegers(lf_av,lf_av_new,lf_count); | |
473 | lf_av= lf_av_new; | |
bea2a866 | 474 | if (lf_av > lf_max) |
475 | lf_max = lf_av; | |
9bea179a | 476 | lf_count= 0; |
9bea179a | 477 | } |
bea2a866 | 478 | } |
9bea179a | 479 | |
bea2a866 | 480 | if (limit != LF_ONLY) { |
481 | if (mode == 1){ | |
482 | if (abs(hf_av - hf_baseline) > 10) LED_B_ON(); | |
483 | else LED_B_OFF(); | |
9bea179a | 484 | } |
bea2a866 | 485 | |
9bea179a | 486 | ++hf_count; |
487 | hf_av_new= ReadAdc(ADC_CHAN_HF); | |
488 | // see if there's a significant change | |
bea2a866 | 489 | if(abs(hf_av - hf_av_new) > 10) { |
9bea179a | 490 | DbpString("HF 13.56 Field Change:"); |
491 | DbpIntegers(hf_av,hf_av_new,hf_count); | |
492 | hf_av= hf_av_new; | |
493 | if (hf_av > hf_max) | |
494 | hf_max = hf_av; | |
495 | hf_count= 0; | |
bea2a866 | 496 | } |
497 | } | |
498 | ||
499 | if(mode == 2) { | |
500 | if (limit == LF_ONLY) { | |
501 | display_val = lf_av; | |
502 | display_max = lf_max; | |
503 | } else if (limit == HF_ONLY) { | |
504 | display_val = hf_av; | |
505 | display_max = hf_max; | |
506 | } else { /* Pick one at random */ | |
507 | if( (hf_max - hf_baseline) > (lf_max - lf_baseline) ) { | |
508 | display_val = hf_av; | |
509 | display_max = hf_max; | |
510 | } else { | |
511 | display_val = lf_av; | |
512 | display_max = lf_max; | |
513 | } | |
514 | } | |
515 | for (i=0; i<LIGHT_LEN; i++) { | |
516 | if (display_val >= ((display_max/LIGHT_LEN)*i) && display_val <= ((display_max/LIGHT_LEN)*(i+1))) { | |
517 | if (LIGHT_SCHEME[i] & 0x1) LED_C_ON(); else LED_C_OFF(); | |
518 | if (LIGHT_SCHEME[i] & 0x2) LED_A_ON(); else LED_A_OFF(); | |
519 | if (LIGHT_SCHEME[i] & 0x4) LED_B_ON(); else LED_B_OFF(); | |
520 | if (LIGHT_SCHEME[i] & 0x8) LED_D_ON(); else LED_D_OFF(); | |
521 | break; | |
959baa89 | 522 | } |
523 | } | |
524 | } | |
bea2a866 | 525 | } |
959baa89 | 526 | } |
527 | ||
528 | void UsbPacketReceived(BYTE *packet, int len) | |
529 | { | |
530 | UsbCommand *c = (UsbCommand *)packet; | |
531 | ||
532 | switch(c->cmd) { | |
533 | case CMD_ACQUIRE_RAW_ADC_SAMPLES_125K: | |
534 | AcquireRawAdcSamples125k(c->ext1); | |
535 | break; | |
536 | ||
537 | case CMD_MOD_THEN_ACQUIRE_RAW_ADC_SAMPLES_125K: | |
538 | ModThenAcquireRawAdcSamples125k(c->ext1,c->ext2,c->ext3,c->d.asBytes); | |
539 | break; | |
540 | ||
541 | case CMD_ACQUIRE_RAW_ADC_SAMPLES_ISO_15693: | |
542 | AcquireRawAdcSamplesIso15693(); | |
543 | break; | |
f23e056d | 544 | |
545 | case CMD_BUFF_CLEAR: | |
546 | BufferClear(); | |
547 | break; | |
959baa89 | 548 | |
549 | case CMD_READER_ISO_15693: | |
550 | ReaderIso15693(c->ext1); | |
551 | break; | |
552 | ||
553 | case CMD_SIMTAG_ISO_15693: | |
554 | SimTagIso15693(c->ext1); | |
555 | break; | |
556 | ||
557 | case CMD_ACQUIRE_RAW_ADC_SAMPLES_ISO_14443: | |
558 | AcquireRawAdcSamplesIso14443(c->ext1); | |
559 | break; | |
fb25b483 | 560 | |
561 | case CMD_READ_SRI512_TAG: | |
562 | ReadSRI512Iso14443(c->ext1); | |
563 | break; | |
959baa89 | 564 | |
565 | case CMD_READER_ISO_14443a: | |
566 | ReaderIso14443a(c->ext1); | |
567 | break; | |
568 | ||
569 | case CMD_SNOOP_ISO_14443: | |
570 | SnoopIso14443(); | |
571 | break; | |
572 | ||
573 | case CMD_SNOOP_ISO_14443a: | |
574 | SnoopIso14443a(); | |
575 | break; | |
576 | ||
577 | case CMD_SIMULATE_TAG_HF_LISTEN: | |
578 | SimulateTagHfListen(); | |
579 | break; | |
580 | ||
581 | case CMD_SIMULATE_TAG_ISO_14443: | |
582 | SimulateIso14443Tag(); | |
583 | break; | |
584 | ||
585 | case CMD_SIMULATE_TAG_ISO_14443a: | |
586 | SimulateIso14443aTag(c->ext1, c->ext2); // ## Simulate iso14443a tag - pass tag type & UID | |
587 | break; | |
588 | ||
589 | case CMD_MEASURE_ANTENNA_TUNING: | |
590 | MeasureAntennaTuning(); | |
591 | break; | |
592 | ||
7f348042 | 593 | case CMD_LISTEN_READER_FIELD: |
594 | ListenReaderField(c->ext1); | |
595 | break; | |
596 | ||
959baa89 | 597 | case CMD_HID_DEMOD_FSK: |
955fc5e2 | 598 | CmdHIDdemodFSK(0, 0, 0, 1); // Demodulate HID tag |
959baa89 | 599 | break; |
600 | ||
601 | case CMD_HID_SIM_TAG: | |
955fc5e2 | 602 | CmdHIDsimTAG(c->ext1, c->ext2, 1); // Simulate HID tag by ID |
959baa89 | 603 | break; |
604 | ||
605 | case CMD_FPGA_MAJOR_MODE_OFF: // ## FPGA Control | |
606 | FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF); | |
607 | SpinDelay(200); | |
608 | LED_D_OFF(); // LED D indicates field ON or OFF | |
609 | break; | |
610 | ||
9bea179a | 611 | case CMD_READ_TI_TYPE: |
612 | ReadTItag(); | |
613 | break; | |
614 | ||
615 | case CMD_WRITE_TI_TYPE: | |
616 | WriteTItag(c->ext1,c->ext2,c->ext3); | |
617 | break; | |
618 | ||
7381e8f2 | 619 | case CMD_DOWNLOAD_RAW_ADC_SAMPLES_125K: { |
959baa89 | 620 | UsbCommand n; |
621 | if(c->cmd == CMD_DOWNLOAD_RAW_ADC_SAMPLES_125K) { | |
622 | n.cmd = CMD_DOWNLOADED_RAW_ADC_SAMPLES_125K; | |
623 | } else { | |
624 | n.cmd = CMD_DOWNLOADED_RAW_BITS_TI_TYPE; | |
625 | } | |
626 | n.ext1 = c->ext1; | |
627 | memcpy(n.d.asDwords, BigBuf+c->ext1, 12*sizeof(DWORD)); | |
628 | UsbSendPacket((BYTE *)&n, sizeof(n)); | |
629 | break; | |
630 | } | |
631 | case CMD_DOWNLOADED_SIM_SAMPLES_125K: { | |
632 | BYTE *b = (BYTE *)BigBuf; | |
633 | memcpy(b+c->ext1, c->d.asBytes, 48); | |
634 | break; | |
635 | } | |
636 | case CMD_SIMULATE_TAG_125K: | |
637 | LED_A_ON(); | |
955fc5e2 | 638 | SimulateTagLowFrequency(c->ext1, 1); |
959baa89 | 639 | LED_A_OFF(); |
640 | break; | |
1dff8c42 | 641 | case CMD_READ_MEM: |
642 | ReadMem(c->ext1); | |
643 | break; | |
959baa89 | 644 | case CMD_SET_LF_DIVISOR: |
645 | FpgaSendCommand(FPGA_CMD_SET_DIVISOR, c->ext1); | |
646 | break; | |
ba8a80b3 | 647 | case CMD_VERSION: |
648 | SendVersion(); | |
649 | break; | |
0fa9ca5b | 650 | case CMD_LF_SIMULATE_BIDIR: |
651 | SimulateTagLowFrequencyBidir(c->ext1, c->ext2); | |
652 | break; | |
959baa89 | 653 | #ifdef WITH_LCD |
7381e8f2 | 654 | case CMD_LCD_RESET: |
655 | LCDReset(); | |
656 | break; | |
959baa89 | 657 | case CMD_LCD: |
658 | LCDSend(c->ext1); | |
659 | break; | |
660 | #endif | |
9bea179a | 661 | case CMD_SETUP_WRITE: |
959baa89 | 662 | case CMD_FINISH_WRITE: |
663 | case CMD_HARDWARE_RESET: | |
664 | USB_D_PLUS_PULLUP_OFF(); | |
665 | SpinDelay(1000); | |
666 | SpinDelay(1000); | |
667 | RSTC_CONTROL = RST_CONTROL_KEY | RST_CONTROL_PROCESSOR_RESET; | |
668 | for(;;) { | |
669 | // We're going to reset, and the bootrom will take control. | |
670 | } | |
671 | break; | |
8fcbf652 | 672 | case CMD_START_FLASH: |
673 | if(common_area.flags.bootrom_present) { | |
674 | common_area.command = COMMON_AREA_COMMAND_ENTER_FLASH_MODE; | |
675 | } | |
676 | USB_D_PLUS_PULLUP_OFF(); | |
677 | RSTC_CONTROL = RST_CONTROL_KEY | RST_CONTROL_PROCESSOR_RESET; | |
678 | for(;;); | |
679 | break; | |
680 | ||
681 | case CMD_DEVICE_INFO: { | |
682 | UsbCommand c; | |
683 | c.cmd = CMD_DEVICE_INFO; | |
684 | c.ext1 = DEVICE_INFO_FLAG_OSIMAGE_PRESENT | DEVICE_INFO_FLAG_CURRENT_MODE_OS; | |
685 | if(common_area.flags.bootrom_present) c.ext1 |= DEVICE_INFO_FLAG_BOOTROM_PRESENT; | |
686 | UsbSendPacket((BYTE*)&c, sizeof(c)); | |
687 | } | |
688 | break; | |
959baa89 | 689 | default: |
690 | DbpString("unknown command"); | |
691 | break; | |
692 | } | |
693 | } | |
694 | ||
1b2c8936 | 695 | void __attribute__((noreturn)) AppMain(void) |
959baa89 | 696 | { |
959baa89 | 697 | SpinDelay(100); |
8fcbf652 | 698 | |
699 | if(common_area.magic != COMMON_AREA_MAGIC || common_area.version != 1) { | |
700 | /* Initialize common area */ | |
701 | memset(&common_area, 0, sizeof(common_area)); | |
702 | common_area.magic = COMMON_AREA_MAGIC; | |
703 | common_area.version = 1; | |
704 | } | |
705 | common_area.flags.osimage_present = 1; | |
959baa89 | 706 | |
693f7cf7 | 707 | LED_D_OFF(); |
708 | LED_C_OFF(); | |
709 | LED_B_OFF(); | |
710 | LED_A_OFF(); | |
959baa89 | 711 | |
712 | UsbStart(); | |
713 | ||
714 | // The FPGA gets its clock from us from PCK0 output, so set that up. | |
715 | PIO_PERIPHERAL_B_SEL = (1 << GPIO_PCK0); | |
716 | PIO_DISABLE = (1 << GPIO_PCK0); | |
717 | PMC_SYS_CLK_ENABLE = PMC_SYS_CLK_PROGRAMMABLE_CLK_0; | |
718 | // PCK0 is PLL clock / 4 = 96Mhz / 4 = 24Mhz | |
719 | PMC_PROGRAMMABLE_CLK_0 = PMC_CLK_SELECTION_PLL_CLOCK | | |
720 | PMC_CLK_PRESCALE_DIV_4; | |
721 | PIO_OUTPUT_ENABLE = (1 << GPIO_PCK0); | |
722 | ||
723 | // Reset SPI | |
724 | SPI_CONTROL = SPI_CONTROL_RESET; | |
725 | // Reset SSC | |
726 | SSC_CONTROL = SSC_CONTROL_RESET; | |
727 | ||
728 | // Load the FPGA image, which we have stored in our flash. | |
729 | FpgaDownloadAndGo(); | |
730 | ||
731 | #ifdef WITH_LCD | |
732 | ||
733 | LCDInit(); | |
734 | ||
735 | // test text on different colored backgrounds | |
715d74c5 | 736 | LCDString(" The quick brown fox ", (char *)&FONT6x8,1,1+8*0,WHITE ,BLACK ); |
737 | LCDString(" jumped over the ", (char *)&FONT6x8,1,1+8*1,BLACK ,WHITE ); | |
738 | LCDString(" lazy dog. ", (char *)&FONT6x8,1,1+8*2,YELLOW ,RED ); | |
739 | LCDString(" AaBbCcDdEeFfGgHhIiJj ", (char *)&FONT6x8,1,1+8*3,RED ,GREEN ); | |
740 | LCDString(" KkLlMmNnOoPpQqRrSsTt ", (char *)&FONT6x8,1,1+8*4,MAGENTA,BLUE ); | |
741 | LCDString("UuVvWwXxYyZz0123456789", (char *)&FONT6x8,1,1+8*5,BLUE ,YELLOW); | |
742 | LCDString("`-=[]_;',./~!@#$%^&*()", (char *)&FONT6x8,1,1+8*6,BLACK ,CYAN ); | |
743 | LCDString(" _+{}|:\\\"<>? ",(char *)&FONT6x8,1,1+8*7,BLUE ,MAGENTA); | |
959baa89 | 744 | |
745 | // color bands | |
746 | LCDFill(0, 1+8* 8, 132, 8, BLACK); | |
747 | LCDFill(0, 1+8* 9, 132, 8, WHITE); | |
748 | LCDFill(0, 1+8*10, 132, 8, RED); | |
749 | LCDFill(0, 1+8*11, 132, 8, GREEN); | |
750 | LCDFill(0, 1+8*12, 132, 8, BLUE); | |
751 | LCDFill(0, 1+8*13, 132, 8, YELLOW); | |
752 | LCDFill(0, 1+8*14, 132, 8, CYAN); | |
753 | LCDFill(0, 1+8*15, 132, 8, MAGENTA); | |
754 | ||
755 | #endif | |
756 | ||
757 | for(;;) { | |
50722269 | 758 | UsbPoll(FALSE); |
959baa89 | 759 | WDT_HIT(); |
959baa89 | 760 | |
955fc5e2 | 761 | if (BUTTON_HELD(1000) > 0) |
762 | SamyRun(); | |
959baa89 | 763 | } |
764 | } |