SummerCart64/fw/rtl/n64/n64_si.sv

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interface if_si ();
logic rx_reset;
logic rx_ready;
logic [6:0] rx_length;
logic [80:0] rx_data;
logic tx_reset;
logic tx_start;
logic tx_busy;
logic [2:0] tx_wmask;
logic [6:0] tx_length;
logic [31:0] tx_data;
modport si (
input rx_reset,
output rx_ready,
output rx_length,
output rx_data,
input tx_reset,
input tx_start,
output tx_busy,
input tx_wmask,
input tx_length,
input tx_data
);
modport cpu (
output rx_reset,
input rx_ready,
input rx_length,
input rx_data,
output tx_reset,
output tx_start,
input tx_busy,
output tx_wmask,
output tx_length,
output tx_data
);
endinterface
module n64_si (
if_system.sys sys,
if_si.si si,
input n64_si_clk,
inout n64_si_dq
);
// Control signals and input synchronization
logic [1:0] n64_si_clk_ff;
always_ff @(posedge sys.clk) begin
n64_si_clk_ff <= {n64_si_clk_ff[0], n64_si_clk};
end
logic si_reset;
logic si_clk;
logic si_dq;
always_comb begin
si_reset = sys.n64_hard_reset;
si_clk = n64_si_clk_ff[1];
si_dq = n64_si_dq;
end
logic last_si_clk;
always_ff @(posedge sys.clk) begin
last_si_clk <= si_clk;
end
logic si_clk_rising_edge;
logic si_clk_falling_edge;
always_comb begin
si_clk_rising_edge = !si_reset && !last_si_clk && si_clk;
si_clk_falling_edge = !si_reset && last_si_clk && !si_clk;
end
logic si_dq_output_enable;
logic si_dq_output_enable_data;
always_ff @(posedge sys.clk) begin
si_dq_output_enable <= si_dq_output_enable_data;
end
always_comb begin
n64_si_dq = si_dq_output_enable ? 1'b0 : 1'bZ;
end
// Data register and shifter
logic [80:0] trx_data;
logic rx_shift;
logic tx_shift;
always_comb begin
si.rx_data = trx_data;
end
always_ff @(posedge sys.clk) begin
if (si.tx_wmask[0]) trx_data[80:49] <= si.tx_data;
if (si.tx_wmask[1]) trx_data[48:17] <= si.tx_data;
if (si.tx_wmask[2]) trx_data[16:0] <= si.tx_data[16:0];
if (rx_shift || tx_shift) begin
trx_data <= {trx_data[79:0], rx_sub_bit_counter < 2'd2};
end
end
// RX path
typedef enum bit [0:0] {
S_RX_IDLE,
S_RX_WAITING
} e_rx_state;
e_rx_state rx_state;
logic [1:0] rx_sub_bit_counter;
logic [3:0] rx_timeout_counter;
always_ff @(posedge sys.clk) begin
rx_shift <= 1'b0;
if (si_clk_rising_edge) begin
if (rx_timeout_counter < 4'd8) begin
rx_timeout_counter <= rx_timeout_counter + 1'd1;
end else if (si.rx_length > 7'd0) begin
si.rx_ready <= 1'b1;
end
end
if (sys.reset || si.rx_reset) begin
rx_state <= S_RX_IDLE;
si.rx_ready <= 1'b0;
si.rx_length <= 7'd0;
end else if (!si.tx_busy) begin
case (rx_state)
S_RX_IDLE: begin
if (si_clk_rising_edge && !si_dq) begin
rx_state <= S_RX_WAITING;
rx_sub_bit_counter <= 2'd0;
rx_timeout_counter <= 3'd0;
end
end
S_RX_WAITING: begin
if (si_clk_rising_edge) begin
if (si_dq) begin
rx_state <= S_RX_IDLE;
rx_shift <= 1'b1;
si.rx_length <= si.rx_length + 1'd1;
end else if (rx_sub_bit_counter < 2'd3) begin
rx_sub_bit_counter <= rx_sub_bit_counter + 1'd1;
end
end
end
endcase
end
end
// TX path
typedef enum bit [0:0] {
S_TX_IDLE,
S_TX_SENDING
} e_tx_state;
e_tx_state tx_state;
logic [2:0] tx_sub_bit_counter;
logic [6:0] tx_bit_counter;
always_ff @(posedge sys.clk) begin
tx_shift <= 1'b0;
if (sys.reset || si.tx_reset) begin
tx_state <= S_TX_IDLE;
si_dq_output_enable_data <= 1'b0;
si.tx_busy <= 1'b0;
end else begin
case (tx_state)
S_TX_IDLE: begin
if (si.tx_start) begin
tx_state <= S_TX_SENDING;
tx_sub_bit_counter <= 3'd0;
tx_bit_counter <= si.tx_length;
si.tx_busy <= 1'b1;
end
end
S_TX_SENDING: begin
if (si_clk_falling_edge) begin
tx_sub_bit_counter <= tx_sub_bit_counter + 1'd1;
if (tx_sub_bit_counter == 3'd7) begin
tx_shift <= 1'b1;
if (tx_bit_counter >= 7'd1) begin
tx_bit_counter <= tx_bit_counter - 1'd1;
end else begin
tx_state <= S_TX_IDLE;
si.tx_busy <= 1'b0;
end
end
if (tx_bit_counter == 7'd0) begin
si_dq_output_enable_data <= tx_sub_bit_counter < 3'd4;
end else if (trx_data[80]) begin
si_dq_output_enable_data <= tx_sub_bit_counter < 3'd2;
end else begin
si_dq_output_enable_data <= tx_sub_bit_counter < 3'd6;
end
end
end
endcase
end
end
endmodule