output wire vs, hs,
output reg [2:0] red,
output reg [2:0] green,
- output reg [1:0] blue
- );
+ output reg [1:0] blue,
+ input serrx,
+ output sertx,
+ input ps2c, ps2d);
wire clk25;
SyncGen sync(clk25, vs, hs, x, y, border);
+ wire [7:0] cschar;
+ wire [2:0] csrow;
+ wire [7:0] csdata;
+
+ wire [10:0] vraddr;
+ wire [7:0] vrdata;
+
+ wire [10:0] vwaddr;
+ wire [7:0] vwdata;
+ wire [7:0] serdata;
+ wire vwr, serwr;
+ wire [10:0] vscroll;
+
+ wire odata;
+
+ wire [7:0] sertxdata;
+ wire sertxwr;
+
+ wire [6:0] vcursx;
+ wire [4:0] vcursy;
+
+ CharSet cs(cschar, csrow, csdata);
+ VideoRAM vram(clk25, vraddr + vscroll, vrdata, vwaddr, vwdata, vwr);
+ VDisplay dpy(clk25, x, y, vraddr, vrdata, cschar, csrow, csdata, vcursx, vcursy, odata);
+ SerRX rx(clk25, serwr, serdata, serrx);
+ SerTX tx(clk25, sertxwr, sertxdata, sertx);
+ RXState rxsm(clk25, vwr, vwaddr, vwdata, vscroll, vcursx, vcursy, serwr, serdata);
+ PS2 ps2(clk25, ps2c, ps2d, sertxwr, sertxdata);
+
always @(posedge clk25) begin
- red <= border ? 0 : 3'b100;
- green <= border ? 0 : 0;
- blue <= border ? 0 : 0;
+ red <= border ? 0 : {3{odata}};
+ green <= border ? 0 : {3{odata}};
+ blue <= border ? 0 : {2{odata}};
end
endmodule
border <= (x > XRES) || (y > YRES);
end
endmodule
+
+module CharSet(
+ input [7:0] char,
+ input [2:0] row,
+ output wire [7:0] data);
+
+ reg [7:0] rom [(256 * 8 - 1):0];
+
+ initial
+ $readmemb("ibmpc1.mem", rom);
+
+ assign data = rom[{char, row}];
+endmodule
+
+module VideoRAM(
+ input pixclk,
+ input [10:0] raddr,
+ output reg [7:0] rdata,
+ input [10:0] waddr,
+ input [7:0] wdata,
+ input wr);
+
+ reg [7:0] ram [2047 : 0];
+
+ always @(posedge pixclk)
+ rdata <= ram[raddr];
+
+ always @(posedge pixclk)
+ if (wr)
+ ram[waddr] <= wdata;
+endmodule
+
+module VDisplay(
+ input pixclk,
+ input [11:0] x,
+ input [11:0] y,
+ output wire [10:0] raddr,
+ input [7:0] rchar,
+ output wire [7:0] cschar,
+ output wire [2:0] csrow,
+ input [7:0] csdata,
+ input [6:0] cursx,
+ input [4:0] cursy,
+ output reg data);
+
+ wire [7:0] col = x[11:3];
+ wire [5:0] row = y[9:3];
+ reg [7:0] ch;
+ reg [11:0] xdly;
+
+ assign raddr = ({row,4'b0} + {row,6'b0} + {4'h0,col});
+ assign cschar = rchar;
+ assign csrow = y[2:0];
+
+ reg [23:0] blinktime = 0;
+
+ always @(posedge pixclk) blinktime <= blinktime + 1;
+
+ wire curssel = (cursx == col) && (cursy == row) && blinktime[23];
+
+ always @(posedge pixclk)
+ xdly <= x;
+
+ always @(posedge pixclk)
+ data = ((xdly < 80 * 8) && (y < 25 * 8)) ? (csdata[7 - xdly[2:0]] ^ curssel) : 0;
+endmodule
+
+`define IN_CLK 25000000
+`define OUT_CLK 57600
+`define CLK_DIV (`IN_CLK / `OUT_CLK)
+
+module SerRX(
+ input pixclk,
+ output reg wr = 0,
+ output reg [7:0] wchar = 0,
+ input serialrx);
+
+ reg [15:0] rx_clkdiv = 0;
+ reg [3:0] rx_state = 4'b0000;
+ reg [7:0] rx_data_tmp;
+
+
+ always @(posedge pixclk)
+ begin
+ if ((rx_state == 0) && (serialrx == 0) /*&& (rx_hasdata == 0)*/) /* Kick off. */
+ rx_state <= 4'b0001;
+ else if ((rx_state != 4'b0000) && (rx_clkdiv == 0)) begin
+ if (rx_state != 4'b1010)
+ rx_state <= rx_state + 1;
+ else
+ rx_state <= 0;
+ case (rx_state)
+ 4'b0001: begin end /* Twiddle thumbs -- this is the end of the half bit. */
+ 4'b0010: rx_data_tmp[0] <= serialrx;
+ 4'b0011: rx_data_tmp[1] <= serialrx;
+ 4'b0100: rx_data_tmp[2] <= serialrx;
+ 4'b0101: rx_data_tmp[3] <= serialrx;
+ 4'b0110: rx_data_tmp[4] <= serialrx;
+ 4'b0111: rx_data_tmp[5] <= serialrx;
+ 4'b1000: rx_data_tmp[6] <= serialrx;
+ 4'b1001: rx_data_tmp[7] <= serialrx;
+ 4'b1010: if (serialrx == 1) begin
+ wr <= 1;
+ wchar <= rx_data_tmp;
+ end
+ endcase
+ end
+
+ if (wr)
+ wr <= 0;
+
+ if ((rx_state == 0) && (serialrx == 0) /*&& (rx_hasdata == 0)*/) /* Wait half a period before advancing. */
+ rx_clkdiv <= `CLK_DIV / 2 + `CLK_DIV / 4;
+ else if (rx_clkdiv == `CLK_DIV)
+ rx_clkdiv <= 0;
+ else
+ rx_clkdiv <= rx_clkdiv + 1;
+ end
+endmodule
+
+module SerTX(
+ input pixclk,
+ input wr,
+ input [7:0] char,
+ output reg serial = 1);
+
+ reg [7:0] tx_data = 0;
+ reg [15:0] tx_clkdiv = 0;
+ reg [3:0] tx_state = 4'b0000;
+ reg tx_busy = 0;
+ wire tx_newdata = wr && !tx_busy;
+
+ always @(posedge pixclk)
+ begin
+ if(tx_newdata) begin
+ tx_data <= char;
+ tx_state <= 4'b0000;
+ tx_busy <= 1;
+ end else if (tx_clkdiv == 0) begin
+ tx_state <= tx_state + 1;
+ if (tx_busy)
+ case (tx_state)
+ 4'b0000: serial <= 0;
+ 4'b0001: serial <= tx_data[0];
+ 4'b0010: serial <= tx_data[1];
+ 4'b0011: serial <= tx_data[2];
+ 4'b0100: serial <= tx_data[3];
+ 4'b0101: serial <= tx_data[4];
+ 4'b0110: serial <= tx_data[5];
+ 4'b0111: serial <= tx_data[6];
+ 4'b1000: serial <= tx_data[7];
+ 4'b1001: serial <= 1;
+ 4'b1010: tx_busy <= 0;
+ default: $stop;
+ endcase
+ end
+
+ if(tx_newdata || (tx_clkdiv == `CLK_DIV))
+ tx_clkdiv <= 0;
+ else
+ tx_clkdiv <= tx_clkdiv + 1;
+ end
+endmodule
+
+module RXState(
+ input clk25,
+ output reg vwr = 0,
+ output reg [10:0] vwaddr = 0,
+ output reg [7:0] vwdata = 0,
+ output reg [10:0] vscroll = 0,
+ output wire [6:0] vcursx,
+ output wire [4:0] vcursy,
+ input serwr,
+ input [7:0] serdata);
+
+ parameter STATE_IDLE = 4'b0000;
+ parameter STATE_NEWLINE = 4'b0001;
+ parameter STATE_CLEAR = 4'b0010;
+
+ reg [3:0] state = STATE_CLEAR;
+
+ reg [6:0] x = 0;
+ reg [4:0] y = 0;
+
+ assign vcursx = x;
+ assign vcursy = y;
+
+ reg [10:0] clearstart = 0;
+ reg [10:0] clearend = 11'b11111111111;
+
+ always @(posedge clk25)
+ case (state)
+ STATE_IDLE: if (serwr) begin
+ if (serdata == 8'h0A) begin
+ state <= STATE_NEWLINE;
+ x <= 0;
+ vwr <= 0;
+ end else if (serdata == 8'h0D) begin
+ x <= 0;
+ vwr <= 0;
+ end else if (serdata == 8'h0C) begin
+ clearstart <= 0;
+ clearend <= 11'b11111111111;
+ x <= 0;
+ y <= 0;
+ vscroll <= 0;
+ state <= STATE_CLEAR;
+ end else if (serdata == 8'h08) begin
+ if (x != 0)
+ x <= x - 1;
+ vwr <= 0;
+ end else begin
+ vwr <= 1;
+ vwaddr <= ({y,4'b0} + {y,6'b0} + {4'h0,x}) + vscroll;
+ vwdata <= serdata;
+ if (x == 79) begin
+ x <= 0;
+ state <= STATE_NEWLINE;
+ end else
+ x <= x + 1;
+ end
+ end
+ STATE_NEWLINE:
+ begin
+ vwr <= 0;
+ if (y == 24) begin
+ vscroll <= vscroll + 80;
+ clearstart <= (25 * 80) + vscroll;
+ clearend <= (26*80) + vscroll;
+ state <= STATE_CLEAR;
+ end else begin
+ y <= y + 1;
+ state <= STATE_IDLE;
+ end
+ end
+ STATE_CLEAR:
+ begin
+ vwr <= 1;
+ vwaddr <= clearstart;
+ vwdata <= 8'h20;
+ clearstart <= clearstart + 1;
+ if (clearstart == clearend)
+ state <= STATE_IDLE;
+ end
+ endcase
+endmodule
+
+module PS2(
+ input pixclk,
+ input inclk,
+ input indata,
+ output reg wr,
+ output reg [7:0] data
+ );
+
+ reg [3:0] bitcount = 0;
+ reg [7:0] key = 0;
+ reg keyarrow = 0, keyup = 0, parity = 0;
+
+
+ /* Clock debouncing */
+ reg lastinclk = 0;
+ reg [6:0] debounce = 0;
+ reg fixedclk = 0;
+ reg [11:0] resetcountdown = 0;
+
+ reg [6:0] unshiftedrom [127:0]; initial $readmemh("scancodes.unshifted.hex", unshiftedrom);
+ reg [6:0] shiftedrom [127:0]; initial $readmemh("scancodes.shifted.hex", shiftedrom);
+
+ reg mod_lshift = 0;
+ reg mod_rshift = 0;
+ reg mod_capslock = 0;
+ wire mod_shifted = (mod_lshift | mod_rshift) ^ mod_capslock;
+
+ reg nd = 0;
+ reg lastnd = 0;
+
+ always @(posedge pixclk) begin
+ if (inclk != lastinclk) begin
+ lastinclk <= inclk;
+ debounce <= 1;
+ resetcountdown <= 12'b111111111111;
+ end else if (debounce == 0) begin
+ fixedclk <= inclk;
+ resetcountdown <= resetcountdown - 1;
+ end else
+ debounce <= debounce + 1;
+
+ if (nd ^ lastnd) begin
+ lastnd <= nd;
+ wr <= 1;
+ end else
+ wr <= 0;
+ end
+
+ always @(negedge fixedclk) begin
+ if (resetcountdown == 0)
+ bitcount <= 0;
+ else if (bitcount == 10) begin
+ bitcount <= 0;
+ if(parity != (^ key)) begin
+ if(keyarrow) begin
+ casex(key)
+ 8'hF0: keyup <= 1;
+ 8'hxx: keyarrow <= 0;
+ endcase
+ end
+ else begin
+ if(keyup) begin
+ keyup <= 0;
+ keyarrow <= 0;
+ casex (key)
+ 8'h12: mod_lshift <= 0;
+ 8'h59: mod_rshift <= 0;
+ endcase
+ // handle this? I don't fucking know
+ end
+ else begin
+ casex(key)
+ 8'hE0: keyarrow <= 1; // handle these? I don't fucking know
+ 8'hF0: keyup <= 1;
+ 8'h12: mod_lshift <= 1;
+ 8'h59: mod_rshift <= 1;
+ 8'h14: mod_capslock <= ~mod_capslock;
+ 8'b0xxxxxxx: begin nd <= ~nd; data <= mod_shifted ? shiftedrom[key] : unshiftedrom[key]; end
+ 8'b1xxxxxxx: begin /* AAAAAAASSSSSSSS */ end
+ endcase
+ end
+ end
+ end
+ else begin
+ keyarrow <= 0;
+ keyup <= 0;
+ end
+ end else
+ bitcount <= bitcount + 1;
+
+ case(bitcount)
+ 1: key[0] <= indata;
+ 2: key[1] <= indata;
+ 3: key[2] <= indata;
+ 4: key[3] <= indata;
+ 5: key[4] <= indata;
+ 6: key[5] <= indata;
+ 7: key[6] <= indata;
+ 8: key[7] <= indata;
+ 9: parity <= indata;
+ endcase
+ end
+
+endmodule