mirror of
https://github.com/Proxmark/proxmark3.git
synced 2024-11-15 05:05:02 +08:00
6a5d4e17f4
* rework iso14443b device functions * hf_read_rx_xcorr.v: transfer i/q pair in one 16bit frame * hi_read_tx.v: invert ssp_dout. When nothing is transferred (ssp_dout=0), this results in no modulation (carrier on) * adjust arm sources accordingly * iso14443b.c: switch off carrier after hf 14b sri512read and hf 14b srix4kread * iso14443b.c: fix DMA circular buffer handling
469 lines
13 KiB
C
469 lines
13 KiB
C
//-----------------------------------------------------------------------------
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// (c) 2009 Henryk Plötz <henryk@ploetzli.ch>
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// 2016 Iceman
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// 2018 AntiCat
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//
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// This code is licensed to you under the terms of the GNU GPL, version 2 or,
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// at your option, any later version. See the LICENSE.txt file for the text of
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// the license.
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//-----------------------------------------------------------------------------
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// LEGIC RF simulation code
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//-----------------------------------------------------------------------------
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#include "proxmark3.h"
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#include "apps.h"
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#include "util.h"
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#include "string.h"
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#include "legicrfsim.h"
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#include "legic_prng.h"
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#include "legic.h"
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#include "crc.h"
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#include "usb_cdc.h" // for usb_poll_validate_length
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static uint8_t* legic_mem; /* card memory, used for sim */
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static legic_card_select_t card;/* metadata of currently selected card */
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static crc_t legic_crc;
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//-----------------------------------------------------------------------------
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// Frame timing and pseudorandom number generator
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//
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// The Prng is forwarded every 99.1us (TAG_BIT_PERIOD), except when the reader is
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// transmitting. In that case the prng has to be forwarded every bit transmitted:
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// - 31.3us for a 0 (RWD_TIME_0)
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// - 99.1us for a 1 (RWD_TIME_1)
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//
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// The data dependent timing makes writing comprehensible code significantly
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// harder. The current aproach forwards the prng data based if there is data on
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// air and time based, using GetCountSspClk(), during computational and wait
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// periodes. SSP Clock is clocked by the FPGA at 212 kHz (subcarrier frequency).
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//
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// To not have the necessity to calculate/guess exection time dependend timeouts
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// tx_frame and rx_frame use a shared timestamp to coordinate tx and rx timeslots.
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//-----------------------------------------------------------------------------
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static uint32_t last_frame_end; /* ts of last bit of previews rx or tx frame */
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#define TAG_FRAME_WAIT 70 /* 330us from READER frame end to TAG frame start */
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#define TAG_ACK_WAIT 758 /* 3.57ms from READER frame end to TAG write ACK */
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#define TAG_BIT_PERIOD 21 /* 99.1us */
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#define RWD_TIME_PAUSE 4 /* 18.9us */
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#define RWD_TIME_1 21 /* RWD_TIME_PAUSE 18.9us off + 80.2us on = 99.1us */
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#define RWD_TIME_0 13 /* RWD_TIME_PAUSE 18.9us off + 42.4us on = 61.3us */
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#define RWD_CMD_TIMEOUT 40 /* 40 * 99.1us (arbitrary value) */
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#define RWD_MIN_FRAME_LEN 6 /* Shortest frame is 6 bits */
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#define RWD_MAX_FRAME_LEN 23 /* Longest frame is 23 bits */
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#define RWD_PULSE 1 /* Pulse is signaled with GPIO_SSC_DIN high */
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#define RWD_PAUSE 0 /* Pause is signaled with GPIO_SSC_DIN low */
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//-----------------------------------------------------------------------------
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// Demodulation
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//-----------------------------------------------------------------------------
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// Returns true if a pulse/pause is received within timeout
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static inline bool wait_for(bool value, const uint32_t timeout) {
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while((bool)(AT91C_BASE_PIOA->PIO_PDSR & GPIO_SSC_DIN) != value) {
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if(GetCountSspClk() > timeout) {
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return false;
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}
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}
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return true;
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}
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// Returns a demedulated bit or -1 on code violation
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//
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// rx_bit decodes bits using a thresholds. rx_bit has to be called by as soon as
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// a frame starts (first pause is received). rx_bit checks for a pause up to
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// 18.9us followed by a pulse of 80.2us or 42.4us:
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// - A bit length <18.9us is a code violation
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// - A bit length >80.2us is a 1
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// - A bit length <80.2us is a 0
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// - A bit length >148.6us is a code violation
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static inline int8_t rx_bit() {
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// backup ts for threshold calculation
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uint32_t bit_start = last_frame_end;
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// wait for pause to end
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if(!wait_for(RWD_PULSE, bit_start + RWD_TIME_1*3/2)) {
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return -1;
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}
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// wait for next pause
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if(!wait_for(RWD_PAUSE, bit_start + RWD_TIME_1*3/2)) {
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return -1;
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}
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// update bit and frame end
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last_frame_end = GetCountSspClk();
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// check for code violation (bit to short)
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if(last_frame_end - bit_start < RWD_TIME_PAUSE) {
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return -1;
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}
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// apply threshold (average of RWD_TIME_0 and )
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return (last_frame_end - bit_start > (RWD_TIME_0 + RWD_TIME_1) / 2);
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}
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//-----------------------------------------------------------------------------
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// Modulation
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//
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// LEGIC RF uses a very basic load modulation from card to reader:
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// - Subcarrier on for a 1
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// - Subcarrier off for for a 0
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//
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// The 212kHz subcarrier is generated by the FPGA as well as a mathcing ssp clk.
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// Each bit is transfered in a 99.1us slot and the first timeslot starts 330us
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// after the final 20us pause generated by the reader.
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//-----------------------------------------------------------------------------
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// Transmits a bit
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//
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// Note: The Subcarrier is not disabled during bits to prevent glitches. This is
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// not mandatory but results in a cleaner signal. tx_frame will disable
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// the subcarrier when the frame is done.
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static inline void tx_bit(bool bit) {
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LED_C_ON();
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if(bit) {
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// modulate subcarrier
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HIGH(GPIO_SSC_DOUT);
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} else {
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// do not modulate subcarrier
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LOW(GPIO_SSC_DOUT);
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}
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// wait for tx timeslot to end
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last_frame_end += TAG_BIT_PERIOD;
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while(GetCountSspClk() < last_frame_end) { };
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LED_C_OFF();
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}
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//-----------------------------------------------------------------------------
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// Frame Handling
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//
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// The LEGIC RF protocol from reader to card does not include explicit frame
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// start/stop information or length information. The tag detects end of frame
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// trough an extended pulse (>99.1us) without a pause.
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// In reverse direction (card to reader) the number of bites is well known
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// and depends only the command received (IV, ACK, READ or WRITE).
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//-----------------------------------------------------------------------------
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static void tx_frame(uint32_t frame, uint8_t len) {
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// wait for next tx timeslot
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last_frame_end += TAG_FRAME_WAIT;
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legic_prng_forward(TAG_FRAME_WAIT/TAG_BIT_PERIOD - 1);
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while(GetCountSspClk() < last_frame_end) { };
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// transmit frame, MSB first
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for(uint8_t i = 0; i < len; ++i) {
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bool bit = (frame >> i) & 0x01;
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tx_bit(bit ^ legic_prng_get_bit());
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legic_prng_forward(1);
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};
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// disable subcarrier
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LOW(GPIO_SSC_DOUT);
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}
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static void tx_ack() {
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// wait for ack timeslot
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last_frame_end += TAG_ACK_WAIT;
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legic_prng_forward(TAG_ACK_WAIT/TAG_BIT_PERIOD - 1);
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while(GetCountSspClk() < last_frame_end) { };
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// transmit ack (ack is not encrypted)
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tx_bit(true);
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legic_prng_forward(1);
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// disable subcarrier
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LOW(GPIO_SSC_DOUT);
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}
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// Returns a demedulated frame or -1 on code violation
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//
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// Since TX to RX delay is arbitrary rx_frame has to:
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// - detect start of frame (first pause)
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// - forward prng based on ts/TAG_BIT_PERIOD
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// - receive the frame
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// - detect end of frame (last pause)
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static int32_t rx_frame(uint8_t *len) {
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int32_t frame = 0;
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// add 2 SSP clock cycles (1 for tx and 1 for rx pipeline delay)
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// those will be substracted at the end of the rx phase
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last_frame_end -= 2;
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// wait for first pause (start of frame)
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for(uint8_t i = 0; true; ++i) {
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// increment prng every TAG_BIT_PERIOD
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last_frame_end += TAG_BIT_PERIOD;
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legic_prng_forward(1);
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// if start of frame was received exit delay loop
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if(wait_for(RWD_PAUSE, last_frame_end)) {
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last_frame_end = GetCountSspClk();
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break;
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}
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// check for code violation
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if(i > RWD_CMD_TIMEOUT) {
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return -1;
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}
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}
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// receive frame
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for(*len = 0; true; ++(*len)) {
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// receive next bit
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LED_D_ON();
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int8_t bit = rx_bit();
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LED_D_OFF();
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// check for code violation and to short / long frame
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if((bit < 0) && ((*len < RWD_MIN_FRAME_LEN) || (*len > RWD_MAX_FRAME_LEN))) {
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return -1;
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}
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// check for code violation caused by end of frame
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if(bit < 0) {
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break;
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}
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// append bit
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frame |= (bit ^ legic_prng_get_bit()) << (*len);
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legic_prng_forward(1);
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}
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// rx_bit sets coordination timestamp to start of pause, append pause duration
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// and substract 2 SSP clock cycles (1 for rx and 1 for tx pipeline delay) to
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// obtain exact end of frame.
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last_frame_end += RWD_TIME_PAUSE - 2;
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return frame;
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}
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//-----------------------------------------------------------------------------
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// Legic Simulator
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//-----------------------------------------------------------------------------
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static int32_t init_card(uint8_t cardtype, legic_card_select_t *p_card) {
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p_card->tagtype = cardtype;
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switch(p_card->tagtype) {
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case 0:
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p_card->cmdsize = 6;
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p_card->addrsize = 5;
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p_card->cardsize = 22;
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break;
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case 1:
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p_card->cmdsize = 9;
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p_card->addrsize = 8;
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p_card->cardsize = 256;
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break;
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case 2:
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p_card->cmdsize = 11;
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p_card->addrsize = 10;
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p_card->cardsize = 1024;
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break;
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default:
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p_card->cmdsize = 0;
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p_card->addrsize = 0;
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p_card->cardsize = 0;
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return 2;
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}
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return 0;
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}
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static void init_tag() {
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// configure FPGA
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FpgaDownloadAndGo(FPGA_BITSTREAM_HF);
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FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_SIMULATOR
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| FPGA_HF_SIMULATOR_MODULATE_212K);
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SetAdcMuxFor(GPIO_MUXSEL_HIPKD);
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// configure SSC with defaults
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FpgaSetupSsc(FPGA_MAJOR_MODE_HF_SIMULATOR);
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// first pull output to low to prevent glitches then re-claim GPIO_SSC_DOUT
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LOW(GPIO_SSC_DOUT);
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AT91C_BASE_PIOA->PIO_OER = GPIO_SSC_DOUT;
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AT91C_BASE_PIOA->PIO_PER = GPIO_SSC_DOUT;
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// reserve a cardmem, meaning we can use the tracelog function in bigbuff easier.
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legic_mem = BigBuf_get_addr();
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// init crc calculator
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crc_init(&legic_crc, 4, 0x19 >> 1, 0x05, 0);
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// start 212kHz timer (running from SSP Clock)
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StartCountSspClk();
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}
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// Setup reader to card connection
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//
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// The setup consists of a three way handshake:
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// - Receive initialisation vector 7 bits
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// - Transmit card type 6 bits
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// - Receive Acknowledge 6 bits
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static int32_t setup_phase(legic_card_select_t *p_card) {
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uint8_t len = 0;
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// init coordination timestamp
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last_frame_end = GetCountSspClk();
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// reset prng
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legic_prng_init(0);
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// wait for iv
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int32_t iv = rx_frame(&len);
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if((len != 7) || (iv < 0)) {
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return -1;
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}
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// configure prng
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legic_prng_init(iv);
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// reply with card type
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switch(p_card->tagtype) {
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case 0:
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tx_frame(0x0D, 6);
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break;
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case 1:
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tx_frame(0x1D, 6);
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break;
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case 2:
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tx_frame(0x3D, 6);
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break;
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}
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// wait for ack
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int32_t ack = rx_frame(&len);
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if((len != 6) || (ack < 0)) {
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return -1;
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}
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// validate data
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switch(p_card->tagtype) {
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case 0:
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if(ack != 0x19) return -1;
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break;
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case 1:
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if(ack != 0x39) return -1;
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break;
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case 2:
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if(ack != 0x39) return -1;
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break;
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}
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// During rx the prng is clocked using the variable reader period.
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// Since rx_frame detects end of frame by detecting a code violation,
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// the prng is off by one bit period after each rx phase. Hence, tx
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// code advances the prng by (TAG_FRAME_WAIT/TAG_BIT_PERIOD - 1).
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// This is not possible for back to back rx, so this quirk reduces
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// the gap by one period.
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last_frame_end += TAG_BIT_PERIOD;
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return 0;
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}
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static uint8_t calc_crc4(uint16_t cmd, uint8_t cmd_sz, uint8_t value) {
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crc_clear(&legic_crc);
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crc_update(&legic_crc, (value << cmd_sz) | cmd, 8 + cmd_sz);
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return crc_finish(&legic_crc);
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}
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static int32_t connected_phase(legic_card_select_t *p_card) {
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uint8_t len = 0;
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// wait for command
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int32_t cmd = rx_frame(&len);
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if(cmd < 0) {
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return -1;
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}
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// check if command is LEGIC_READ
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if(len == p_card->cmdsize) {
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// prepare data
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uint8_t byte = legic_mem[cmd >> 1];
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uint8_t crc = calc_crc4(cmd, p_card->cmdsize, byte);
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// transmit data
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tx_frame((crc << 8) | byte, 12);
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return 0;
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}
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// check if command is LEGIC_WRITE
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if(len == p_card->cmdsize + 8 + 4) {
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// decode data
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uint16_t mask = (1 << p_card->addrsize) - 1;
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uint16_t addr = (cmd >> 1) & mask;
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uint8_t byte = (cmd >> p_card->cmdsize) & 0xff;
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uint8_t crc = (cmd >> (p_card->cmdsize + 8)) & 0xf;
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// check received against calculated crc
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uint8_t calc_crc = calc_crc4(addr << 1, p_card->cmdsize, byte);
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if(calc_crc != crc) {
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Dbprintf("!!! crc mismatch: %x != %x !!!", calc_crc, crc);
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return -1;
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}
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// store data
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legic_mem[addr] = byte;
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// transmit ack
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tx_ack();
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return 0;
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}
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return -1;
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}
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//-----------------------------------------------------------------------------
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// Command Line Interface
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//
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// Only this function is public / called from appmain.c
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//-----------------------------------------------------------------------------
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void LegicRfSimulate(uint8_t cardtype) {
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// configure ARM and FPGA
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init_tag();
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// verify command line input
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if(init_card(cardtype, &card) != 0) {
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DbpString("Unknown tagtype.");
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goto OUT;
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}
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LED_A_ON();
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DbpString("Starting Legic emulator, press button to end");
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while(!BUTTON_PRESS() && !usb_poll_validate_length()) {
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WDT_HIT();
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// wait for carrier, restart after timeout
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if(!wait_for(RWD_PULSE, GetCountSspClk() + TAG_BIT_PERIOD)) {
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continue;
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}
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// wait for connection, restart on error
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if(setup_phase(&card)) {
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continue;
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}
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// conection is established, process commands until one fails
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while(!connected_phase(&card)) {
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WDT_HIT();
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}
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}
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OUT:
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DbpString("Stopped");
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FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
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LED_A_OFF();
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LED_C_OFF();
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LED_D_OFF();
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StopTicks();
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}
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