SummerCart64/fw/rtl/cpu/cpu_uart.sv

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module cpu_uart (
if_system.sys sys,
if_cpu_bus bus,
input uart_rxd,
output uart_txd
);
localparam BAUD_GEN_VALUE = int'(sc64::CLOCK_FREQUENCY / sc64::UART_BAUD_RATE) - 1'd1;
typedef enum bit [1:0] {
S_TRX_IDLE,
S_TRX_DATA,
S_TRX_SAMPLING_OFFSET
} e_trx_state;
// CPU bus controller
e_trx_state tx_state;
e_trx_state rx_state;
logic [7:0] rx_data;
logic rx_available;
logic rx_overrun;
always_ff @(posedge sys.clk) begin
bus.ack <= 1'b0;
if (bus.request) begin
bus.ack <= 1'b1;
end
end
always_comb begin
bus.rdata = 32'd0;
if (bus.ack) begin
case (bus.address[2:2])
0: bus.rdata = {29'd0, rx_overrun, tx_state == S_TRX_IDLE, rx_available};
1: bus.rdata = {24'd0, rx_data};
default: bus.rdata = 32'd0;
endcase
end
end
// TX path
logic [6:0] tx_baud_counter;
logic [3:0] tx_bit_counter;
logic [9:0] tx_shifter;
always_ff @(posedge sys.clk) begin
tx_baud_counter <= tx_baud_counter + 1'd1;
uart_txd <= tx_shifter[0];
if (sys.reset) begin
tx_state <= S_TRX_IDLE;
tx_shifter <= 10'h3FF;
end else begin
case (tx_state)
S_TRX_IDLE: begin
if (bus.request && bus.wmask[0] && bus.address[2]) begin
tx_state <= S_TRX_DATA;
tx_baud_counter <= 7'd0;
tx_bit_counter <= 4'd0;
tx_shifter <= {1'b1, bus.wdata[7:0], 1'b0};
end
end
S_TRX_DATA: begin
if (tx_baud_counter == BAUD_GEN_VALUE) begin
tx_baud_counter <= 7'd0;
tx_bit_counter <= tx_bit_counter + 1'd1;
tx_shifter <= {1'b1, tx_shifter[9:1]};
if (tx_bit_counter == 4'd9) begin
tx_state <= S_TRX_IDLE;
end
end
end
default: begin
tx_state <= S_TRX_IDLE;
tx_shifter <= 10'h3FF;
end
endcase
end
end
// RX path
logic [6:0] rx_baud_counter;
logic [3:0] rx_bit_counter;
logic [7:0] rx_shifter;
logic [1:0] rxd_ff;
always_ff @(posedge sys.clk) begin
rx_baud_counter <= rx_baud_counter + 1'd1;
rxd_ff <= {rxd_ff[0], uart_rxd};
if (bus.request && bus.wmask[0] && !bus.address[2]) begin
rx_overrun <= bus.wdata[2];
end
if (bus.request && !bus.wmask[0] && bus.address[2]) begin
rx_available <= 1'b0;
end
if (sys.reset) begin
rx_state <= S_TRX_IDLE;
rx_available <= 1'b0;
rx_overrun <= 1'b0;
end else begin
case (rx_state)
S_TRX_IDLE: begin
if (!rxd_ff[1]) begin
rx_state <= S_TRX_SAMPLING_OFFSET;
rx_baud_counter <= 7'd0;
rx_bit_counter <= 4'd0;
end
end
S_TRX_SAMPLING_OFFSET: begin
if (rx_baud_counter == (BAUD_GEN_VALUE / 2)) begin
rx_state <= S_TRX_DATA;
rx_baud_counter <= 7'd0;
end
end
S_TRX_DATA: begin
if (rx_baud_counter == BAUD_GEN_VALUE) begin
rx_baud_counter <= 7'd0;
rx_bit_counter <= rx_bit_counter + 1'd1;
rx_shifter <= {rxd_ff[1], rx_shifter[7:1]};
if (rx_bit_counter == 4'd8) begin
rx_state <= S_TRX_IDLE;
if (rxd_ff[1]) begin
rx_data <= rx_shifter[7:0];
rx_available <= 1'b1;
rx_overrun <= rx_available;
end
end
end
end
default: begin
rx_state <= S_TRX_IDLE;
rx_available <= 1'b0;
rx_overrun <= 1'b0;
end
endcase
end
end
endmodule