SummerCart64/fw/rtl/sd/sd_dat.sv

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[SC64][FW][HW][SW] New version based on LCMXO2 FPGA (#19) * isv support + usb/dd improvements * make room for saves * update offset * fixed debug address * idk * exception * ironed out all broken stuff * cleanup * return epc fix * better * more cleanup * even more cleanup * mooore cleanup * fixed printf * no assert * improved docker build, pyft232 instead of pyserial * fixed displaying long message strings description test * just straight cleanup * smallest cleanup * PAL * cpu buffer * n64 bootloader done * super slow usb storage reading implemented * reduced buffer size * usb gets fast * little cleanup * double buffered reads * removed separate event id * ISV in hardware finally * small exception changes * mac testing * py spacing * fsd write, rtc, isv and reset fixes * fixxx * good stopping point * usb fixed? * pretend we have 128 MB sdram * backup * chmod * test * test done * more tests * user rm * help * final fix * updated component values * nice asset names * cic 64dd support * ddipl enable separation * pre DMA rewrite, created dedicated buffer memory space, simplified code * dma rewrite, needs testing * moved xml * dd basics * timing * 64dd working yet again, isv brought back, dma fixes, usb path rewrite, pc code rewrite * added usb read functionality, general cleanup * changed mem addressing * added fpga flash update access * added mcu update * chmod * little cleanup * update format and stuff * fixes * uninitialized fix * small fixes * update fixes * update stuff done * fpga update tested * build time fix * boot fix * test timing * readme test * test 2 * reports * testseet * final * build test * forgot * button and naming * General cleanup And multiline commit message test * Exception screen UI touch ups * display separation and tests beginning * pc software update * pc software done * timing test * delete launch.json * sw fixes * fixed button hole diameter in shell * small cleanup, rpi testing * shell fillet fix, pc rtc printing * added cfg lock mechanism * moved lock to cfg address space * extended ROM and ISV fixes * preliminary sd card support * little sd card cleanup * sd menu fixes * 5 second limit * reduced shell thickness * basic led act blinking * faster sd menu loading * inst cache invalidate * sd card writing is working * SD card CSD and CID registers * wait for previous command * led error codes * fixed cfg_translate_address use * 64dd from sd card working * 64dd speedup and button handling * delayed address latching cycle - might break other builds, needs testing * bootloader improvements * small fixes * return previous cfg when setting new * cache stuff * unfloader debug protocol support * UNFLoader style debug command line support * requirements.txt * shell groove fillet * reset state inside controller * fixed fast PI read, added PI R/W fifo debug info * PI access prioritize * SD clock stop when RX FIFO is more than half full * flash erase method change * CFG error handling, TLOZ MM debug ISV support * CIC5167 support * general fixes * USB unplugged cable handling * turn off led when changing between error/act modes * rtc 2 bit clock stop support * line endings * Revert "line endings" This reverts commit d0ddfe5ec716d2db7c72561703f51a94bf34e6bb. * PI address debug * readme test * diagram update * diagram background * diagram background * diagram background * updated readme
2022-11-10 11:46:54 +01:00
module sd_dat (
input clk,
input reset,
sd_scb.dat sd_scb,
fifo_bus.fifo fifo_bus,
input sd_clk_rising,
input sd_clk_falling,
inout [3:0] sd_dat
);
// Input and output data sampling
logic sd_dat_oe;
logic [3:0] sd_dat_out;
logic [3:0] sd_dat_in;
logic sd_dat_oe_data;
logic [3:0] sd_dat_data;
assign sd_dat = sd_dat_oe ? sd_dat_out : 4'hZ;
always_ff @(posedge clk) begin
sd_dat_oe <= sd_dat_oe_data;
sd_dat_out <= sd_dat_data;
sd_dat_in <= sd_dat;
end
always_ff @(posedge clk) begin
sd_scb.card_busy <= !sd_dat_in[0];
end
// FIFO
logic rx_full;
logic rx_write;
logic [7:0] rx_wdata;
logic tx_empty;
logic tx_read;
logic [7:0] tx_rdata;
fifo_8kb fifo_8kb_rx_inst (
.clk(clk),
.reset(reset || sd_scb.dat_fifo_flush),
.empty(fifo_bus.rx_empty),
.read(fifo_bus.rx_read),
.rdata(fifo_bus.rx_rdata),
.full(rx_full),
.write(rx_write),
.wdata(rx_wdata),
.count(sd_scb.rx_count)
);
fifo_8kb fifo_8kb_tx_inst (
.clk(clk),
.reset(reset || sd_scb.dat_fifo_flush),
.empty(tx_empty),
.read(tx_read),
.rdata(tx_rdata),
.full(fifo_bus.tx_full),
.write(fifo_bus.tx_write),
.wdata(fifo_bus.tx_wdata),
.count(sd_scb.tx_count)
);
// DAT state
typedef enum bit [2:0] {
STATE_IDLE,
STATE_RX_WAIT,
STATE_RX,
STATE_TX_WAIT,
STATE_TX,
STATE_TX_STATUS_WAIT,
STATE_TX_STATUS
} e_state;
e_state state;
e_state next_state;
always_ff @(posedge clk) begin
if (reset || sd_scb.dat_stop) begin
state <= STATE_IDLE;
end else begin
state <= next_state;
end
end
assign sd_scb.dat_busy = (state != STATE_IDLE);
logic [10:0] counter;
logic [7:0] blocks_remaining;
always_comb begin
next_state = state;
case (state)
STATE_IDLE: begin
if (sd_scb.dat_start_read) begin
next_state = STATE_RX_WAIT;
end
if (sd_scb.dat_start_write) begin
next_state = STATE_TX_WAIT;
end
end
STATE_RX_WAIT: begin
if (sd_clk_rising) begin
if (!sd_dat_in[0]) begin
next_state = STATE_RX;
end
end
end
STATE_RX: begin
if (sd_clk_rising) begin
if (counter == 11'd1041) begin
if (blocks_remaining == 8'd0) begin
next_state = STATE_IDLE;
end else begin
next_state = STATE_RX_WAIT;
end
end
end
end
STATE_TX_WAIT: begin
if (sd_clk_falling) begin
if (sd_scb.tx_count >= 11'd512) begin
next_state = STATE_TX;
end
end
end
STATE_TX: begin
if (sd_clk_falling) begin
if (counter == 11'd1042) begin
next_state = STATE_TX_STATUS_WAIT;
end
end
end
STATE_TX_STATUS_WAIT: begin
if (sd_clk_rising) begin
if (counter == 11'd8) begin
next_state = STATE_IDLE;
end else if (!sd_dat_in[0]) begin
next_state = STATE_TX_STATUS;
end
end
end
STATE_TX_STATUS: begin
if (sd_clk_rising) begin
if (counter == 11'd5) begin
if (sd_dat_in[0]) begin
if (blocks_remaining == 8'd0) begin
next_state = STATE_IDLE;
end else begin
next_state = STATE_TX_WAIT;
end
end
end
end
end
endcase
end
// CRC16 units
logic crc_reset;
logic crc_enable;
logic crc_shift;
logic [3:0] crc_data;
logic [15:0] crc_result [0:3];
sd_crc_16 sd_crc_16_inst_0 (
.clk(clk),
.reset(crc_reset),
.enable(crc_enable),
.shift(crc_shift),
.data(crc_data[0]),
.result(crc_result[0])
);
sd_crc_16 sd_crc_16_inst_1 (
.clk(clk),
.reset(crc_reset),
.enable(crc_enable),
.shift(crc_shift),
.data(crc_data[1]),
.result(crc_result[1])
);
sd_crc_16 sd_crc_16_inst_2 (
.clk(clk),
.reset(crc_reset),
.enable(crc_enable),
.shift(crc_shift),
.data(crc_data[2]),
.result(crc_result[2])
);
sd_crc_16 sd_crc_16_inst_3 (
.clk(clk),
.reset(crc_reset),
.enable(crc_enable),
.shift(crc_shift),
.data(crc_data[3]),
.result(crc_result[3])
);
// Data shifting
logic [7:0] data_shift;
logic tx_rdata_valid;
assign crc_data = (state == STATE_RX) ? rx_wdata[3:0] : sd_dat_data;
always_comb begin
tx_read = (state == STATE_TX) && sd_clk_falling && (counter < 11'd1024) && (!counter[0]);
end
always_ff @(posedge clk) begin
rx_write <= 1'b0;
tx_rdata_valid <= tx_read;
crc_reset <= 1'b0;
crc_enable <= 1'b0;
crc_shift <= 1'b0;
if (reset || sd_scb.dat_stop) begin
sd_scb.clock_stop <= 1'b0;
sd_dat_oe_data <= 1'b0;
sd_dat_data <= 4'hF;
end else begin
case (state)
STATE_IDLE: begin
if (sd_scb.dat_start_read || sd_scb.dat_start_write) begin
sd_scb.dat_error <= 1'b0;
blocks_remaining <= sd_scb.dat_blocks;
end
end
STATE_RX_WAIT: begin
if (sd_scb.rx_count <= 11'd512) begin
sd_scb.clock_stop <= 1'b0;
end
if (sd_clk_rising) begin
if (!sd_dat_in[0]) begin
counter <= 11'd1;
crc_reset <= 1'b1;
end
end
end
STATE_RX: begin
if (sd_clk_rising) begin
counter <= counter + 1'd1;
rx_wdata <= {rx_wdata[3:0], sd_dat_in};
if (counter <= 11'd1024) begin
crc_enable <= 1'b1;
if (!counter[0]) begin
if (rx_full) begin
sd_scb.dat_error <= 1'b1;
end else begin
rx_write <= 1'b1;
end
end
end else begin
crc_shift <= 1'b1;
if ({crc_result[3][15], crc_result[2][15], crc_result[1][15], crc_result[0][15]} != sd_dat_in) begin
sd_scb.dat_error <= 1'b1;
end
end
if (counter == 11'd1041) begin
if ((blocks_remaining > 8'd0) && (sd_scb.rx_count > 11'd512)) begin
sd_scb.clock_stop <= 1'b1;
end
blocks_remaining <= blocks_remaining - 1'd1;
end
end
end
STATE_TX_WAIT: begin
if (sd_clk_falling) begin
if (sd_scb.tx_count >= 11'd512) begin
counter <= 11'd0;
end
end
end
STATE_TX: begin
if (sd_clk_falling) begin
counter <= counter + 1'd1;
if (counter == 11'd0) begin
crc_reset <= 1'b1;
sd_dat_oe_data <= 1'b1;
sd_dat_data <= 4'h0;
end else if (counter <= 11'd1024) begin
crc_enable <= 1'b1;
{sd_dat_data, data_shift} <= {data_shift, 4'h0};
end else begin
crc_shift <= 1'b1;
sd_dat_data <= {crc_result[3][15], crc_result[2][15], crc_result[1][15], crc_result[0][15]};
end
if (counter == 11'd1042) begin
sd_dat_oe_data <= 1'b0;
counter <= 11'd0;
end
end
end
STATE_TX_STATUS_WAIT: begin
if (sd_clk_rising) begin
counter <= counter + 1'd1;
if (counter == 11'd8) begin
sd_scb.dat_error <= 1'b1;
end else if (!sd_dat_in[0]) begin
counter <= 11'd1;
end
end
end
STATE_TX_STATUS: begin
if (sd_clk_rising) begin
if (counter < 11'd5) begin
counter <= counter + 1'd1;
end
if ((counter == 11'd1) && (sd_dat_in[0] != 1'b0)) begin
sd_scb.dat_error <= 1'b1;
end
if ((counter == 11'd2) && (sd_dat_in[0] != 1'b1)) begin
sd_scb.dat_error <= 1'b1;
end
if ((counter == 11'd3) && (sd_dat_in[0] != 1'b0)) begin
sd_scb.dat_error <= 1'b1;
end
if ((counter == 11'd4) && (sd_dat_in[0] != 1'b1)) begin
sd_scb.dat_error <= 1'b1;
end
if ((counter == 11'd5) && (sd_dat_in[0] == 1'b1)) begin
blocks_remaining <= blocks_remaining - 1'd1;
end
end
end
endcase
end
if (tx_rdata_valid) begin
data_shift <= tx_rdata;
end
end
endmodule