X-Git-Url: https://git.zerfleddert.de/cgi-bin/gitweb.cgi/proxmark3-svn/blobdiff_plain/37735250ca32d0567299cea2078106998e8e61b9..1adb2023ce4635bb2a67e1eb141cd2d1805dc11e:/fpga/hi_iso14443a.v diff --git a/fpga/hi_iso14443a.v b/fpga/hi_iso14443a.v index 46adda12..ccb51d8f 100644 --- a/fpga/hi_iso14443a.v +++ b/fpga/hi_iso14443a.v @@ -112,34 +112,26 @@ end // for noise reduction and edge detection. // store 4 previous samples: reg [7:0] input_prev_4, input_prev_3, input_prev_2, input_prev_1; -// convert to signed signals (and multiply by two for samples at t-4 and t) -wire signed [10:0] input_prev_4_times_2 = {0, 0, input_prev_4, 0}; -wire signed [10:0] input_prev_3_times_1 = {0, 0, 0, input_prev_3}; -wire signed [10:0] input_prev_1_times_1 = {0, 0, 0, input_prev_1}; -wire signed [10:0] adc_d_times_2 = {0, 0, adc_d, 0}; - -wire signed [10:0] tmp_1, tmp_2; -wire signed [10:0] adc_d_filtered; -integer i; - -assign tmp_1 = input_prev_4_times_2 + input_prev_3_times_1; -assign tmp_2 = input_prev_1_times_1 + adc_d_times_2; - + always @(negedge adc_clk) begin - // for (i = 3; i > 0; i = i - 1) - // begin - // input_shift[i] <= input_shift[i-1]; - // end - // input_shift[0] <= adc_d; input_prev_4 <= input_prev_3; input_prev_3 <= input_prev_2; input_prev_2 <= input_prev_1; input_prev_1 <= adc_d; end -// assign adc_d_filtered = (input_shift[3] << 1) + input_shift[2] - input_shift[0] - (adc_d << 1); -assign adc_d_filtered = tmp_1 - tmp_2; +// adc_d_filtered = 2*input_prev4 + 1*input_prev3 + 0*input_prev2 - 1*input_prev1 - 2*input +// = (2*input_prev4 + input_prev3) - (2*input + input_prev1) +wire [8:0] input_prev_4_times_2 = input_prev_4 << 1; +wire [8:0] adc_d_times_2 = adc_d << 1; + +wire [9:0] tmp1 = input_prev_4_times_2 + input_prev_3; +wire [9:0] tmp2 = adc_d_times_2 + input_prev_1; + +// convert intermediate signals to signed and calculate the filter output +wire signed [10:0] adc_d_filtered = {1'b0, tmp1} - {1'b0, tmp2}; + //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -194,11 +186,13 @@ reg [3:0] mod_detect_reset_time; always @(negedge adc_clk) begin if (mod_type == `READER_LISTEN) - // (our) reader signal changes at t=1, tag response expected n*16+4 ticks later, further delayed by - // 3 ticks ADC conversion. - // 1 + 4 + 3 = 8 + // (our) reader signal changes at negedge_cnt[3:0]=9, tag response expected to start n*16+4 ticks later, further delayed by + // 3 ticks ADC conversion. The maximum filter output (edge detected) will be detected after subcarrier zero crossing (+7 ticks). + // To allow some timing variances, we want to have the maximum filter outputs well within the detection window, i.e. + // at mod_detect_reset_time+4 and mod_detect_reset_time+12 (-4 ticks). + // 9 + 4 + 3 + 7 - 4 = 19. 19 mod 16 = 3 begin - mod_detect_reset_time <= 4'd8; + mod_detect_reset_time <= 4'd4; end else if (mod_type == `SNIFFER) @@ -207,10 +201,10 @@ begin if (~pre_after_hysteresis && after_hysteresis && deep_modulation) // reader signal rising edge detected at negedge_cnt[3:0]. This signal had been delayed // 9 ticks by the RF part + 3 ticks by the A/D converter + 1 tick to assign to after_hysteresis. - // The tag will respond n*16 + 4 ticks later + 3 ticks A/D converter delay. - // - 9 - 3 - 1 + 4 + 3 = -6 + // Then the same as above. + // - 9 - 3 - 1 + 4 + 3 + 7 - 4 = -3 begin - mod_detect_reset_time <= negedge_cnt[3:0] - 4'd4; + mod_detect_reset_time <= negedge_cnt[3:0] - 4'd3; end end end @@ -224,12 +218,14 @@ reg signed [10:0] rx_mod_falling_edge_max; reg signed [10:0] rx_mod_rising_edge_max; reg curbit; +`define EDGE_DETECT_THRESHOLD 5 + always @(negedge adc_clk) begin if(negedge_cnt[3:0] == mod_detect_reset_time) begin // detect modulation signal: if modulating, there must have been a falling AND a rising edge - if (rx_mod_falling_edge_max > 5 && rx_mod_rising_edge_max > 5) + if ((rx_mod_falling_edge_max > `EDGE_DETECT_THRESHOLD) && (rx_mod_rising_edge_max < -`EDGE_DETECT_THRESHOLD)) curbit <= 1'b1; // modulation else curbit <= 1'b0; // no modulation @@ -246,8 +242,8 @@ begin end else begin - if (-adc_d_filtered > rx_mod_rising_edge_max) - rx_mod_rising_edge_max <= -adc_d_filtered; + if (adc_d_filtered < rx_mod_rising_edge_max) + rx_mod_rising_edge_max <= adc_d_filtered; end end @@ -273,7 +269,7 @@ end //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -// PM3 -> Tag: +// PM3 -> Reader: // a delay line to ensure that we send the (emulated) tag's answer at the correct time according to ISO14443-3 reg [31:0] mod_sig_buf; reg [4:0] mod_sig_ptr; @@ -297,7 +293,7 @@ end //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -// PM3 -> Tag, internal timing: +// PM3 -> Reader, internal timing: // a timer for the 1172 cycles fdt (Frame Delay Time). Start the timer with a rising edge of the reader's signal. // set fdt_elapsed when we no longer need to delay data. Set fdt_indicator when we can start sending data. // Note: the FPGA only takes care for the 1172 delay. To achieve an additional 1236-1172=64 ticks delay, the ARM must send @@ -477,11 +473,10 @@ end //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -// FPGA -> ARM communication: +// FPGA <-> ARM communication: // generate a ssp clock and ssp frame signal for the synchronous transfer from/to the ARM reg ssp_clk; reg ssp_frame; -reg [2:0] ssp_frame_counter; always @(negedge adc_clk) begin