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Make the bootrom correctly nack in case of flash write error (e.g. due to lock bits)
[proxmark3-svn] / armsrc / legicrf.c
1 /*
2 * LEGIC RF simulation code
3 *
4 * (c) 2009 Henryk Plötz <henryk@ploetzli.ch>
5 */
6
7 #include <proxmark3.h>
8
9 #include "apps.h"
10 #include "legicrf.h"
11 #include "unistd.h"
12 #include "stdint.h"
13
14 static struct legic_frame {
15 int bits;
16 uint16_t data;
17 } current_frame;
18 AT91PS_TC timer;
19
20 static void setup_timer(void)
21 {
22 /* Set up Timer 1 to use for measuring time between pulses. Since we're bit-banging
23 * this it won't be terribly accurate but should be good enough.
24 */
25 AT91C_BASE_PMC->PMC_PCER = (1 << AT91C_ID_TC1);
26 timer = AT91C_BASE_TC1;
27 timer->TC_CCR = AT91C_TC_CLKDIS;
28 timer->TC_CMR = TC_CMR_TCCLKS_TIMER_CLOCK3;
29 timer->TC_CCR = AT91C_TC_CLKEN | AT91C_TC_SWTRG;
30
31 /* At TIMER_CLOCK3 (MCK/32) */
32 #define RWD_TIME_1 150 /* RWD_TIME_PAUSE off, 80us on = 100us */
33 #define RWD_TIME_0 90 /* RWD_TIME_PAUSE off, 40us on = 60us */
34 #define RWD_TIME_PAUSE 30 /* 20us */
35 #define RWD_TIME_FUZZ 20 /* rather generous 13us, since the peak detector + hysteresis fuzz quite a bit */
36 #define TAG_TIME_BIT 150 /* 100us for every bit */
37 #define TAG_TIME_WAIT 490 /* time from RWD frame end to tag frame start, experimentally determined */
38
39 }
40
41 #define FUZZ_EQUAL(value, target, fuzz) ((value) > ((target)-(fuzz)) && (value) < ((target)+(fuzz)))
42
43 /* Send a frame in reader mode, the FPGA must have been set up by
44 * LegicRfReader
45 */
46 static void frame_send_rwd(uint16_t data, int bits)
47 {
48 /* Start clock */
49 timer->TC_CCR = AT91C_TC_CLKEN | AT91C_TC_SWTRG;
50 while(timer->TC_CV > 1) ; /* Wait till the clock has reset */
51
52 int i;
53 for(i=0; i<bits; i++) {
54 int starttime = timer->TC_CV;
55 int pause_end = starttime + RWD_TIME_PAUSE, bit_end;
56 int bit = data & 1;
57 data = data >> 1;
58
59 if(bit) {
60 bit_end = starttime + RWD_TIME_1;
61 } else {
62 bit_end = starttime + RWD_TIME_0;
63 }
64
65 /* RWD_TIME_PAUSE time off, then some time on, so that the complete bit time is
66 * RWD_TIME_x, where x is the bit to be transmitted */
67 AT91C_BASE_PIOA->PIO_CODR = GPIO_SSC_DOUT;
68 while(timer->TC_CV < pause_end) ;
69 AT91C_BASE_PIOA->PIO_SODR = GPIO_SSC_DOUT;
70 while(timer->TC_CV < bit_end) ;
71 }
72
73 {
74 /* One final pause to mark the end of the frame */
75 int pause_end = timer->TC_CV + RWD_TIME_PAUSE;
76 AT91C_BASE_PIOA->PIO_CODR = GPIO_SSC_DOUT;
77 while(timer->TC_CV < pause_end) ;
78 AT91C_BASE_PIOA->PIO_SODR = GPIO_SSC_DOUT;
79 }
80
81 /* Reset the timer, to measure time until the start of the tag frame */
82 timer->TC_CCR = AT91C_TC_SWTRG;
83 while(timer->TC_CV > 1) ; /* Wait till the clock has reset */
84 }
85
86 /* Receive a frame from the card in reader emulation mode, the FPGA and
87 * timer must have been set up by LegicRfReader and frame_send_rwd.
88 *
89 * The LEGIC RF protocol from card to reader does not include explicit
90 * frame start/stop information or length information. The reader must
91 * know beforehand how many bits it wants to receive. (Notably: a card
92 * sending a stream of 0-bits is indistinguishable from no card present.)
93 *
94 * Receive methodology: There is a fancy correlator in hi_read_rx_xcorr, but
95 * I'm not smart enough to use it. Instead I have patched hi_read_tx to output
96 * the ADC signal with hysteresis on SSP_DIN. Bit-bang that signal and look
97 * for edges. Count the edges in each bit interval. If they are approximately
98 * 0 this was a 0-bit, if they are approximately equal to the number of edges
99 * expected for a 212kHz subcarrier, this was a 1-bit. For timing we use the
100 * timer that's still running from frame_send_rwd in order to get a synchronization
101 * with the frame that we just sent.
102 *
103 * FIXME: Because we're relying on the hysteresis to just do the right thing
104 * the range is severely reduced (and you'll probably also need a good antenna).
105 * So this should be fixed some time in the future for a proper receiver.
106 */
107 static void frame_receive_rwd(struct legic_frame * const f, int bits)
108 {
109 uint16_t the_bit = 1; /* Use a bitmask to save on shifts */
110 uint16_t data=0;
111 int i, old_level=0, edges=0;
112 int next_bit_at = TAG_TIME_WAIT;
113
114
115 if(bits > 16)
116 bits = 16;
117
118 AT91C_BASE_PIOA->PIO_ODR = GPIO_SSC_DIN;
119 AT91C_BASE_PIOA->PIO_PER = GPIO_SSC_DIN;
120
121 while(timer->TC_CV < next_bit_at) ;
122 next_bit_at += TAG_TIME_BIT;
123
124 for(i=0; i<bits; i++) {
125 edges = 0;
126 while(timer->TC_CV < next_bit_at) {
127 int level = (AT91C_BASE_PIOA->PIO_PDSR & GPIO_SSC_DIN);
128 if(level != old_level)
129 edges++;
130 old_level = level;
131 }
132 next_bit_at += TAG_TIME_BIT;
133
134 if(edges > 20 && edges < 60) { /* expected are 42 edges */
135 data |= the_bit;
136 }
137
138
139 the_bit <<= 1;
140 }
141
142 f->data = data;
143 f->bits = bits;
144
145 /* Reset the timer, to synchronize the next frame */
146 timer->TC_CCR = AT91C_TC_SWTRG;
147 while(timer->TC_CV > 1) ; /* Wait till the clock has reset */
148 }
149
150 static void frame_clean(struct legic_frame * const f)
151 {
152 f->data = 0;
153 f->bits = 0;
154 }
155
156 static uint16_t perform_setup_phase_rwd(void)
157 {
158
159 /* Switch on carrier and let the tag charge for 1ms */
160 AT91C_BASE_PIOA->PIO_SODR = GPIO_SSC_DOUT;
161 SpinDelay(1);
162
163 frame_send_rwd(0x55, 7);
164 frame_clean(&current_frame);
165 frame_receive_rwd(&current_frame, 6);
166 while(timer->TC_CV < 387) ; /* ~ 258us */
167 frame_send_rwd(0x019, 6);
168
169 return current_frame.data ^ 0x26;
170 }
171
172 static void switch_off_tag_rwd(void)
173 {
174 /* Switch off carrier, make sure tag is reset */
175 AT91C_BASE_PIOA->PIO_CODR = GPIO_SSC_DOUT;
176 SpinDelay(10);
177
178 WDT_HIT();
179 }
180
181 void LegicRfReader(void)
182 {
183 SetAdcMuxFor(GPIO_MUXSEL_HIPKD);
184 FpgaSetupSsc();
185 FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_TX);
186
187 /* Bitbang the transmitter */
188 AT91C_BASE_PIOA->PIO_CODR = GPIO_SSC_DOUT;
189 AT91C_BASE_PIOA->PIO_OER = GPIO_SSC_DOUT;
190 AT91C_BASE_PIOA->PIO_PER = GPIO_SSC_DOUT;
191
192 setup_timer();
193
194 memset(BigBuf, 0, 1024);
195
196 int byte_index = 0, card_size = 0, command_size = 0;
197 uint16_t command_obfuscation = 0x57, response_obfuscation = 0;
198 uint16_t tag_type = perform_setup_phase_rwd();
199 switch_off_tag_rwd();
200
201 int error = 0;
202 switch(tag_type) {
203 case 0x1d:
204 DbpString("MIM 256 card found, reading card ...");
205 command_size = 9;
206 card_size = 256;
207 response_obfuscation = 0x52;
208 break;
209 case 0x3d:
210 DbpString("MIM 1024 card found, reading card ...");
211 command_size = 11;
212 card_size = 1024;
213 response_obfuscation = 0xd4;
214 break;
215 default:
216 DbpString("No or unknown card found, aborting");
217 error = 1;
218 break;
219 }
220
221 LED_B_ON();
222 while(!BUTTON_PRESS() && (byte_index<card_size)) {
223 if(perform_setup_phase_rwd() != tag_type) {
224 DbpString("Card removed, aborting");
225 switch_off_tag_rwd();
226 error=1;
227 break;
228 }
229
230 while(timer->TC_CV < 387) ; /* ~ 258us */
231 frame_send_rwd(command_obfuscation ^ (byte_index<<1), command_size);
232 frame_clean(&current_frame);
233 frame_receive_rwd(&current_frame, 8);
234 ((uint8_t*)BigBuf)[byte_index] = (current_frame.data ^ response_obfuscation) & 0xff;
235
236 switch_off_tag_rwd();
237
238 WDT_HIT();
239 byte_index++;
240 if(byte_index & 0x04) LED_C_ON(); else LED_C_OFF();
241 }
242 LED_B_OFF();
243 LED_C_OFF();
244
245 if(!error) {
246 if(card_size == 256) {
247 DbpString("Card read, use hexsamples 256 to view results");
248 } else if(card_size == 1024) {
249 DbpString("Card read, use hexsamples 1024 to view results");
250 }
251 }
252 }
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