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SummerCart64/fw/rtl/memory/memory_dma.sv

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module memory_dma (
input clk,
input reset,
dma_scb.dma dma_scb,
fifo_bus.controller fifo_bus,
mem_bus.controller mem_bus
);
// Start/stop logic
logic dma_start;
logic dma_stop;
always_ff @(posedge clk) begin
dma_start <= 1'b0;
if (dma_scb.stop) begin
dma_stop <= 1'b1;
end else if (dma_scb.start) begin
dma_start <= 1'b1;
dma_stop <= 1'b0;
end
end
// Memory bus controller
typedef enum bit [1:0] {
MEM_BUS_STATE_IDLE,
MEM_BUS_STATE_WAIT,
MEM_BUS_STATE_TRANSFER
} e_mem_bus_state;
e_mem_bus_state mem_bus_state;
e_mem_bus_state next_mem_bus_state;
logic mem_bus_wdata_ready;
logic mem_bus_wdata_empty;
logic mem_bus_wdata_end;
logic [1:0] mem_bus_wdata_valid;
logic [15:0] mem_bus_wdata_buffer;
logic mem_bus_rdata_ready;
logic mem_bus_rdata_ack;
logic mem_bus_rdata_end;
logic [1:0] mem_bus_rdata_valid;
logic [15:0] mem_bus_rdata_buffer;
logic [26:0] mem_bus_remaining_bytes;
logic mem_bus_last_transfer;
logic mem_bus_almost_last_transfer;
logic mem_bus_unaligned_start;
logic mem_bus_unaligned_end;
always_ff @(posedge clk) begin
if (reset) begin
mem_bus_state <= MEM_BUS_STATE_IDLE;
end else begin
mem_bus_state <= next_mem_bus_state;
end
end
always_comb begin
next_mem_bus_state = mem_bus_state;
mem_bus_last_transfer = (mem_bus_remaining_bytes == 27'd0);
mem_bus_almost_last_transfer = (mem_bus_remaining_bytes <= 27'd2);
mem_bus_wdata_end = mem_bus_last_transfer;
mem_bus_wdata_valid = (mem_bus_unaligned_end && mem_bus_almost_last_transfer) ? 2'b10 :
mem_bus_unaligned_start ? 2'b01 :
2'b11;
case (mem_bus_state)
MEM_BUS_STATE_IDLE: begin
if (dma_start) begin
next_mem_bus_state = MEM_BUS_STATE_WAIT;
end
end
MEM_BUS_STATE_WAIT: begin
if (dma_stop || mem_bus_last_transfer) begin
next_mem_bus_state = MEM_BUS_STATE_IDLE;
end else if (mem_bus_wdata_ready || !mem_bus_wdata_empty || mem_bus_rdata_ready) begin
next_mem_bus_state = MEM_BUS_STATE_TRANSFER;
end
end
MEM_BUS_STATE_TRANSFER: begin
if (mem_bus.ack) begin
if (dma_stop || mem_bus_last_transfer) begin
next_mem_bus_state = MEM_BUS_STATE_IDLE;
end else if (!(mem_bus_wdata_ready || !mem_bus_wdata_empty || mem_bus_rdata_ready)) begin
next_mem_bus_state = MEM_BUS_STATE_WAIT;
end
end
end
default: begin
next_mem_bus_state = MEM_BUS_STATE_IDLE;
end
endcase
end
always_ff @(posedge clk) begin
mem_bus_rdata_ack <= 1'b0;
if (mem_bus.ack) begin
mem_bus.request <= 1'b0;
mem_bus.address <= (mem_bus.address + 26'd2);
mem_bus_rdata_ack <= 1'b1;
mem_bus_rdata_end <= mem_bus_last_transfer;
mem_bus_rdata_valid <= mem_bus.wmask;
mem_bus_rdata_buffer <= mem_bus.rdata;
end
if (mem_bus_wdata_ready) begin
mem_bus_wdata_empty <= 1'b0;
end
case (mem_bus_state)
MEM_BUS_STATE_IDLE: begin
mem_bus.request <= 1'b0;
mem_bus_rdata_end <= 1'b1;
if (dma_start) begin
mem_bus.write <= dma_scb.direction;
mem_bus.address <= {dma_scb.starting_address[26:1], 1'b0};
mem_bus_remaining_bytes <= dma_scb.transfer_length;
mem_bus_unaligned_start <= dma_scb.starting_address[0];
mem_bus_unaligned_end <= (dma_scb.starting_address[0] ^ dma_scb.transfer_length[0]);
mem_bus_rdata_end <= 1'b0;
mem_bus_wdata_empty <= 1'b1;
end
end
MEM_BUS_STATE_WAIT: begin
if (!dma_stop && !mem_bus_last_transfer) begin
if (mem_bus_wdata_ready || !mem_bus_wdata_empty || mem_bus_rdata_ready) begin
mem_bus.request <= 1'b1;
mem_bus_unaligned_start <= 1'b0;
mem_bus.wdata <= (dma_scb.byte_swap ? {mem_bus_wdata_buffer[7:0], mem_bus_wdata_buffer[15:8]} : mem_bus_wdata_buffer);
mem_bus.wmask <= 2'b11;
mem_bus_remaining_bytes <= (mem_bus_remaining_bytes - 27'd2);
if (mem_bus_unaligned_end && mem_bus_almost_last_transfer) begin
mem_bus.wmask <= 2'b10;
mem_bus_remaining_bytes <= (mem_bus_remaining_bytes - 27'd1);
end
if (mem_bus_unaligned_start) begin
mem_bus.wmask <= 2'b01;
mem_bus_remaining_bytes <= (mem_bus_remaining_bytes - 27'd1);
end
mem_bus_wdata_empty <= 1'b1;
end
end
end
MEM_BUS_STATE_TRANSFER: begin
if (!dma_stop && !mem_bus_last_transfer) begin
if (mem_bus.ack && (mem_bus_wdata_ready || !mem_bus_wdata_empty || mem_bus_rdata_ready)) begin
mem_bus.request <= 1'b1;
mem_bus.wdata <= (dma_scb.byte_swap ? {mem_bus_wdata_buffer[7:0], mem_bus_wdata_buffer[15:8]} : mem_bus_wdata_buffer);
mem_bus.wmask <= 2'b11;
mem_bus_remaining_bytes <= (mem_bus_remaining_bytes - 27'd2);
if (mem_bus_unaligned_end && mem_bus_almost_last_transfer) begin
mem_bus.wmask <= 2'b10;
mem_bus_remaining_bytes <= (mem_bus_remaining_bytes - 27'd1);
end
mem_bus_wdata_empty <= 1'b1;
end
end
end
default: begin end
endcase
end
// RX FIFO controller
typedef enum bit [1:0] {
RX_FIFO_BUS_STATE_IDLE,
RX_FIFO_BUS_STATE_TRANSFER_1,
RX_FIFO_BUS_STATE_TRANSFER_2,
RX_FIFO_BUS_STATE_ACK
} e_rx_fifo_bus_state;
e_rx_fifo_bus_state rx_fifo_bus_state;
e_rx_fifo_bus_state next_rx_fifo_bus_state;
logic rx_fifo_shift;
logic rx_fifo_shift_delayed;
always_ff @(posedge clk) begin
if (reset || dma_stop) begin
rx_fifo_bus_state <= RX_FIFO_BUS_STATE_IDLE;
end else begin
rx_fifo_bus_state <= next_rx_fifo_bus_state;
end
end
always_comb begin
next_rx_fifo_bus_state = rx_fifo_bus_state;
rx_fifo_shift = 1'b0;
fifo_bus.rx_read = 1'b0;
case (rx_fifo_bus_state)
RX_FIFO_BUS_STATE_IDLE: begin
if (dma_start && dma_scb.direction) begin
next_rx_fifo_bus_state = RX_FIFO_BUS_STATE_TRANSFER_1;
end
end
RX_FIFO_BUS_STATE_TRANSFER_1: begin
fifo_bus.rx_read = (!fifo_bus.rx_empty && mem_bus_wdata_empty && mem_bus_wdata_valid[1] && !mem_bus_wdata_end);
if ((!fifo_bus.rx_empty && mem_bus_wdata_empty) || !mem_bus_wdata_valid[1]) begin
next_rx_fifo_bus_state = RX_FIFO_BUS_STATE_TRANSFER_2;
rx_fifo_shift = 1'b1;
end
if (mem_bus_wdata_end) begin
next_rx_fifo_bus_state = RX_FIFO_BUS_STATE_IDLE;
end
end
RX_FIFO_BUS_STATE_TRANSFER_2: begin
fifo_bus.rx_read = (!fifo_bus.rx_empty && mem_bus_wdata_valid[0]);
if (!fifo_bus.rx_empty || !mem_bus_wdata_valid[0]) begin
next_rx_fifo_bus_state = RX_FIFO_BUS_STATE_ACK;
rx_fifo_shift = 1'b1;
end
end
RX_FIFO_BUS_STATE_ACK: begin
if (mem_bus_wdata_ready) begin
next_rx_fifo_bus_state = RX_FIFO_BUS_STATE_TRANSFER_1;
end
end
default: begin
next_rx_fifo_bus_state = RX_FIFO_BUS_STATE_IDLE;
end
endcase
end
always_ff @(posedge clk) begin
mem_bus_wdata_ready <= 1'b0;
rx_fifo_shift_delayed <= rx_fifo_shift;
if (rx_fifo_shift_delayed) begin
if (rx_fifo_bus_state == RX_FIFO_BUS_STATE_ACK) begin
mem_bus_wdata_ready <= 1'b1;
end
mem_bus_wdata_buffer <= {mem_bus_wdata_buffer[7:0], fifo_bus.rx_rdata};
end
end
// TX FIFO controller
typedef enum bit [1:0] {
TX_FIFO_BUS_STATE_IDLE,
TX_FIFO_BUS_STATE_WAIT,
TX_FIFO_BUS_STATE_TRANSFER_1,
TX_FIFO_BUS_STATE_TRANSFER_2
} e_tx_fifo_bus_state;
e_tx_fifo_bus_state tx_fifo_bus_state;
e_tx_fifo_bus_state next_tx_fifo_bus_state;
logic tx_fifo_shift;
logic tx_fifo_waiting;
logic [1:0] tx_fifo_valid;
logic [15:0] tx_fifo_buffer;
always_ff @(posedge clk) begin
if (reset || dma_stop) begin
tx_fifo_bus_state <= TX_FIFO_BUS_STATE_IDLE;
end else begin
tx_fifo_bus_state <= next_tx_fifo_bus_state;
end
end
always_comb begin
next_tx_fifo_bus_state = tx_fifo_bus_state;
tx_fifo_shift = 1'b0;
fifo_bus.tx_write = 1'b0;
fifo_bus.tx_wdata = tx_fifo_buffer[15:8];
case (tx_fifo_bus_state)
TX_FIFO_BUS_STATE_IDLE: begin
if (dma_start && !dma_scb.direction) begin
next_tx_fifo_bus_state = TX_FIFO_BUS_STATE_WAIT;
end
end
TX_FIFO_BUS_STATE_WAIT: begin
if (mem_bus_rdata_ack || tx_fifo_waiting) begin
next_tx_fifo_bus_state = TX_FIFO_BUS_STATE_TRANSFER_1;
end else if (mem_bus_rdata_end) begin
next_tx_fifo_bus_state = TX_FIFO_BUS_STATE_IDLE;
end
end
TX_FIFO_BUS_STATE_TRANSFER_1: begin
fifo_bus.tx_write = (!fifo_bus.tx_full && tx_fifo_valid[1]);
if (!fifo_bus.tx_full || !tx_fifo_valid[1]) begin
next_tx_fifo_bus_state = TX_FIFO_BUS_STATE_TRANSFER_2;
tx_fifo_shift = 1'b1;
end
end
TX_FIFO_BUS_STATE_TRANSFER_2: begin
fifo_bus.tx_write = (!fifo_bus.tx_full && tx_fifo_valid[1]);
if (!fifo_bus.tx_full || !tx_fifo_valid[1]) begin
next_tx_fifo_bus_state = TX_FIFO_BUS_STATE_WAIT;
tx_fifo_shift = 1'b1;
if (!mem_bus_rdata_ack && !tx_fifo_waiting && mem_bus_rdata_end) begin
next_tx_fifo_bus_state = TX_FIFO_BUS_STATE_IDLE;
end
end
end
default: begin
next_tx_fifo_bus_state = TX_FIFO_BUS_STATE_IDLE;
end
endcase
end
always_ff @(posedge clk) begin
if (tx_fifo_shift) begin
tx_fifo_valid <= {tx_fifo_valid[0], 1'bX};
tx_fifo_buffer <= {tx_fifo_buffer[7:0], 8'hXX};
end
case (tx_fifo_bus_state)
TX_FIFO_BUS_STATE_IDLE: begin
mem_bus_rdata_ready <= 1'b0;
tx_fifo_waiting <= 1'b0;
if (dma_start) begin
mem_bus_rdata_ready <= !dma_scb.direction;
end
end
TX_FIFO_BUS_STATE_WAIT: begin
if (mem_bus_rdata_ack || tx_fifo_waiting) begin
mem_bus_rdata_ready <= 1'b0;
tx_fifo_waiting <= 1'b0;
tx_fifo_valid <= mem_bus_rdata_valid;
tx_fifo_buffer <= mem_bus_rdata_buffer;
end
end
TX_FIFO_BUS_STATE_TRANSFER_1: begin
if (mem_bus_rdata_ack) begin
tx_fifo_waiting <= 1'b1;
end
end
TX_FIFO_BUS_STATE_TRANSFER_2: begin
if (mem_bus_rdata_ack) begin
tx_fifo_waiting <= 1'b1;
end
if (fifo_bus.tx_write || !tx_fifo_valid[1]) begin
mem_bus_rdata_ready <= !mem_bus_rdata_end;
end
end
default: begin end
endcase
end
// DMA busy indicator
always_ff @(posedge clk) begin
dma_scb.busy <= (
(dma_scb.start && !dma_scb.stop) ||
dma_start ||
(mem_bus_state != MEM_BUS_STATE_IDLE) ||
(rx_fifo_bus_state != RX_FIFO_BUS_STATE_IDLE) ||
(tx_fifo_bus_state != TX_FIFO_BUS_STATE_IDLE)
);
end
endmodule
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