SummerCart64/fw/rtl/unused/glue/device_arbiter.v
Polprzewodnikowy e61d06275d whatever
2021-08-05 19:50:29 +02:00

92 lines
3.2 KiB
Verilog

module device_arbiter #(
parameter NUM_CONTROLLERS = 2,
parameter ADDRESS_WIDTH = 26,
parameter [3:0] DEVICE_BANK = 4'd0,
parameter ACK_FIFO_LENGTH = 4
) (
input i_clk,
input i_reset,
input [(NUM_CONTROLLERS - 1):0] i_request,
input [(NUM_CONTROLLERS - 1):0] i_write,
output reg [(NUM_CONTROLLERS - 1):0] o_busy,
output reg [(NUM_CONTROLLERS - 1):0] o_ack,
input [((NUM_CONTROLLERS * 4) - 1):0] i_bank,
input [((NUM_CONTROLLERS * ADDRESS_WIDTH) - 1):0] i_address,
output reg [((NUM_CONTROLLERS * 32) - 1):0] o_data,
input [((NUM_CONTROLLERS * 32) - 1):0] i_data,
output reg o_device_request,
output reg o_device_write,
input i_device_busy,
input i_device_ack,
output reg [(ADDRESS_WIDTH - 1):0] o_device_address,
input [31:0] i_device_data,
output reg [31:0] o_device_data
);
localparam FIFO_ADDRESS_WIDTH = $clog2(ACK_FIFO_LENGTH);
reg [(NUM_CONTROLLERS - 1):0] r_request;
reg [(NUM_CONTROLLERS - 1):0] r_request_successful;
reg [(NUM_CONTROLLERS - 1):0] r_ack_fifo_mem [0:(ACK_FIFO_LENGTH - 1)];
reg [FIFO_ADDRESS_WIDTH:0] r_ack_fifo_wrptr;
reg [FIFO_ADDRESS_WIDTH:0] r_ack_fifo_rdptr;
wire w_ack_fifo_wrreq = |(r_request_successful & ~i_write);
wire w_ack_fifo_rdreq = i_device_ack;
wire w_empty = r_ack_fifo_wrptr[FIFO_ADDRESS_WIDTH] == r_ack_fifo_rdptr[FIFO_ADDRESS_WIDTH];
wire w_full_or_empty = r_ack_fifo_wrptr[(FIFO_ADDRESS_WIDTH - 1):0] == r_ack_fifo_rdptr[(FIFO_ADDRESS_WIDTH - 1):0];
wire w_ack_fifo_full = !w_empty && w_full_or_empty;
always @(posedge i_clk) begin
if (i_reset) begin
r_ack_fifo_wrptr <= {(FIFO_ADDRESS_WIDTH + 1){1'b0}};
r_ack_fifo_rdptr <= {(FIFO_ADDRESS_WIDTH + 1){1'b0}};
end else begin
if (w_ack_fifo_wrreq) begin
r_ack_fifo_mem[r_ack_fifo_wrptr[(FIFO_ADDRESS_WIDTH - 1):0]] <= r_request_successful & ~i_write;
r_ack_fifo_wrptr <= r_ack_fifo_wrptr + 1'd1;
end
if (w_ack_fifo_rdreq) begin
r_ack_fifo_rdptr <= r_ack_fifo_rdptr + 1'd1;
end
end
end
always @(*) begin
for (integer i = 0; i < NUM_CONTROLLERS; i = i + 1) begin
r_request[i] = i_request[i] && i_bank[(i * 4) +: 4] == DEVICE_BANK;
o_busy[i] = r_request[i] && (
i_device_busy ||
|(r_request & (({{(NUM_CONTROLLERS - 1){1'b0}}, 1'b1} << i) - 1)) ||
(!i_write[i] && w_ack_fifo_full)
);
end
r_request_successful = r_request & ~o_busy;
o_ack = {NUM_CONTROLLERS{i_device_ack}} & r_ack_fifo_mem[r_ack_fifo_rdptr[(FIFO_ADDRESS_WIDTH - 1):0]];
o_data = {NUM_CONTROLLERS{i_device_data}};
end
always @(*) begin
o_device_request = |r_request;
o_device_write = 1'b0;
o_device_address = {ADDRESS_WIDTH{1'b0}};
o_device_data = 32'h0000_0000;
for (integer i = (NUM_CONTROLLERS - 1); i >= 0 ; i = i - 1) begin
if (r_request[i]) begin
o_device_write = i_write[i];
o_device_address = i_address[(i * ADDRESS_WIDTH) +: ADDRESS_WIDTH];
o_device_data = i_data[(i * 32) +: 32];
end
end
end
endmodule