SummerCart64/fw/rtl/memory/memory_dma.sv

interface dma_scb ();

    logic start;
    logic stop;
    logic busy;
    logic direction;
    logic [26:0] starting_address;
    logic [26:0] transfer_length;

    modport controller (
        output start,
        output stop,
        input busy,
        output direction,
        output starting_address,
        output transfer_length
    );

    modport dma (
        input start,
        input stop,
        output busy,
        input direction,
        input starting_address,
        input transfer_length
    );

endinterface


module memory_dma (
    input clk,
    input reset,

    dma_scb.dma dma_scb,

    fifo_bus.controller fifo_bus,
    mem_bus.controller mem_bus
);

    // DMA start/stop control

    logic dma_start;
    logic dma_stop;

    always_comb begin
        dma_start = dma_scb.start && !dma_scb.stop && !dma_scb.busy;
        dma_stop = dma_scb.stop;
    end


    // Remaining counter and FIFO enable

    logic [26:0] remaining;
    logic trx_enabled;

    always_comb begin
        trx_enabled = remaining > 27'd0;
    end


    // RX FIFO controller

    logic rx_rdata_pop;
    logic rx_rdata_shift;
    logic rx_rdata_valid;
    logic [15:0] rx_buffer;
    logic rx_buffer_valid;
    logic [1:0] rx_buffer_counter;
    logic [1:0] rx_buffer_valid_counter;

    always_comb begin
        rx_buffer_valid = rx_buffer_valid_counter == 2'd2;
    end

    always_ff @(posedge clk) begin
        rx_rdata_pop <= (
            !rx_rdata_pop &&
            !fifo_bus.rx_read &&
            trx_enabled &&
            rx_buffer_counter < 2'd2 &&
            !fifo_bus.rx_empty &&
            mem_bus.write
        );
        rx_rdata_shift <= 1'b0;
        fifo_bus.rx_read <= rx_rdata_pop;
        rx_rdata_valid <= fifo_bus.rx_read;

        if (dma_start) begin
            if (dma_scb.starting_address[0]) begin
                mem_bus.wmask <= 2'b01;
                rx_buffer_counter <= 2'd1;
                rx_buffer_valid_counter <= 2'd1;
            end else begin
                mem_bus.wmask <= 2'b11;
                rx_buffer_counter <= 2'd0;
                rx_buffer_valid_counter <= 2'd0;
            end
        end

        if (rx_rdata_pop) begin
            rx_buffer_counter <= rx_buffer_counter + 1'd1;
        end

        if (rx_rdata_shift || rx_rdata_valid) begin
            rx_buffer <= {rx_buffer[7:0], fifo_bus.rx_rdata};
            rx_buffer_valid_counter <= rx_buffer_valid_counter + 1'd1;
            if (remaining == 27'd0 && rx_buffer_counter == 2'd1) begin
                mem_bus.wmask <= 2'b10;
                rx_rdata_shift <= 1'b1;
                rx_buffer_counter <= rx_buffer_counter + 1'd1;
            end
        end

        if (rx_buffer_valid && !mem_bus.request) begin
            rx_buffer_counter <= 2'd0;
            rx_buffer_valid_counter <= 2'd0;
        end
    end


    // TX FIFO controller

    logic tx_wdata_push;
    logic tx_wdata_first_push;
    logic [7:0] tx_buffer;
    logic tx_buffer_counter;
    logic tx_buffer_ready;
    logic tx_buffer_valid;

    always_comb begin
        fifo_bus.tx_write = tx_wdata_push;
    end

    always_ff @(posedge clk) begin
        tx_wdata_push <= (
            !tx_wdata_push &&
            trx_enabled &&
            tx_buffer_valid &&
            !fifo_bus.tx_full &&
            !mem_bus.write
        );

        if (reset || dma_stop) begin
            tx_buffer_ready <= 1'b0;
            tx_buffer_valid <= 1'b0;
        end

        if (dma_start) begin
            tx_wdata_first_push <= 1'b1;
            tx_buffer_ready <= 1'b1;
            tx_buffer_valid <= 1'b0;
        end

        if (tx_buffer_ready && mem_bus.request) begin
            tx_buffer_ready <= 1'b0;
        end

        if (mem_bus.ack) begin
            tx_wdata_first_push <= 1'b0;
            tx_buffer_counter <= 1'd1;
            tx_buffer_valid <= 1'b1;
            {fifo_bus.tx_wdata, tx_buffer} <= mem_bus.rdata;
            if (tx_wdata_first_push && dma_scb.starting_address[0]) begin
                fifo_bus.tx_wdata <= mem_bus.rdata[7:0];
                tx_buffer_counter <= 1'd0;
            end
        end

        if (tx_wdata_push) begin
            tx_buffer_counter <= tx_buffer_counter - 1'd1;
            fifo_bus.tx_wdata <= tx_buffer;
            if (tx_buffer_counter == 1'd0) begin
                tx_buffer_ready <= 1'b1;
                tx_buffer_valid <= 1'b0;
            end
        end
    end


    // Remaining counter controller

    always_ff @(posedge clk) begin
        if (reset || dma_stop) begin
            remaining <= 27'd0;
        end else begin
            if (dma_start) begin
                remaining <= dma_scb.transfer_length;
            end

            if ((mem_bus.write && rx_rdata_pop) || (!mem_bus.write && tx_wdata_push)) begin
                remaining <= remaining - 1'd1;
            end
        end
    end


    // Mem bus controller

    always_ff @(posedge clk) begin
        dma_scb.busy <= mem_bus.request || trx_enabled;
    end

    always_ff @(posedge clk) begin
        if (reset) begin
            mem_bus.request <= 1'b0;
        end else begin
            if (!mem_bus.request) begin
                if (mem_bus.write) begin
                    if (rx_buffer_valid) begin
                        mem_bus.request <= 1'b1;
                        mem_bus.wdata <= rx_buffer;
                    end
                end else begin
                    if (tx_buffer_ready) begin
                        mem_bus.request <= 1'b1;
                    end
                end
            end
        end

        if (mem_bus.ack) begin
            mem_bus.request <= 1'b0;
        end
    end

    always_ff @(posedge clk) begin
        if (dma_start) begin
            mem_bus.write <= dma_scb.direction;
        end
    end

    always_ff @(posedge clk) begin
        if (dma_start) begin
            mem_bus.address <= {dma_scb.starting_address[26:1], 1'b0};
        end

        if (mem_bus.ack) begin
            mem_bus.address <= mem_bus.address + 2'd2;
        end
    end

endmodule
[SC64][FW][HW][SW] New version based on LCMXO2 FPGA (#19) * isv support + usb/dd improvements * make room for saves * update offset * fixed debug address * idk * exception * ironed out all broken stuff * cleanup * return epc fix * better * more cleanup * even more cleanup * mooore cleanup * fixed printf * no assert * improved docker build, pyft232 instead of pyserial * fixed displaying long message strings description test * just straight cleanup * smallest cleanup * PAL * cpu buffer * n64 bootloader done * super slow usb storage reading implemented * reduced buffer size * usb gets fast * little cleanup * double buffered reads * removed separate event id * ISV in hardware finally * small exception changes * mac testing * py spacing * fsd write, rtc, isv and reset fixes * fixxx * good stopping point * usb fixed? * pretend we have 128 MB sdram * backup * chmod * test * test done * more tests * user rm * help * final fix * updated component values * nice asset names * cic 64dd support * ddipl enable separation * pre DMA rewrite, created dedicated buffer memory space, simplified code * dma rewrite, needs testing * moved xml * dd basics * timing * 64dd working yet again, isv brought back, dma fixes, usb path rewrite, pc code rewrite * added usb read functionality, general cleanup * changed mem addressing * added fpga flash update access * added mcu update * chmod * little cleanup * update format and stuff * fixes * uninitialized fix * small fixes * update fixes * update stuff done * fpga update tested * build time fix * boot fix * test timing * readme test * test 2 * reports * testseet * final * build test * forgot * button and naming * General cleanup And multiline commit message test * Exception screen UI touch ups * display separation and tests beginning * pc software update * pc software done * timing test * delete launch.json * sw fixes * fixed button hole diameter in shell * small cleanup, rpi testing * shell fillet fix, pc rtc printing * added cfg lock mechanism * moved lock to cfg address space * extended ROM and ISV fixes * preliminary sd card support * little sd card cleanup * sd menu fixes * 5 second limit * reduced shell thickness * basic led act blinking * faster sd menu loading * inst cache invalidate * sd card writing is working * SD card CSD and CID registers * wait for previous command * led error codes * fixed cfg_translate_address use * 64dd from sd card working * 64dd speedup and button handling * delayed address latching cycle - might break other builds, needs testing * bootloader improvements * small fixes * return previous cfg when setting new * cache stuff * unfloader debug protocol support * UNFLoader style debug command line support * requirements.txt * shell groove fillet * reset state inside controller * fixed fast PI read, added PI R/W fifo debug info * PI access prioritize * SD clock stop when RX FIFO is more than half full * flash erase method change * CFG error handling, TLOZ MM debug ISV support * CIC5167 support * general fixes * USB unplugged cable handling * turn off led when changing between error/act modes * rtc 2 bit clock stop support * line endings * Revert "line endings" This reverts commit d0ddfe5ec716d2db7c72561703f51a94bf34e6bb. * PI address debug * readme test * diagram update * diagram background * diagram background * diagram background * updated readme 2022-11-10 11:46:54 +01:00			`interface dma_scb ();`

			`logic start;`
			`logic stop;`
			`logic busy;`
			`logic direction;`
			`logic [26:0] starting_address;`
			`logic [26:0] transfer_length;`

			`modport controller (`
			`output start,`
			`output stop,`
			`input busy,`
			`output direction,`
			`output starting_address,`
			`output transfer_length`
			`);`

			`modport dma (`
			`input start,`
			`input stop,`
			`output busy,`
			`input direction,`
			`input starting_address,`
			`input transfer_length`
			`);`

			`endinterface`


			`module memory_dma (`
			`input clk,`
			`input reset,`

			`dma_scb.dma dma_scb,`

			`fifo_bus.controller fifo_bus,`
			`mem_bus.controller mem_bus`
			`);`

			`// DMA start/stop control`

			`logic dma_start;`
			`logic dma_stop;`

			`always_comb begin`
			`dma_start = dma_scb.start && !dma_scb.stop && !dma_scb.busy;`
			`dma_stop = dma_scb.stop;`
			`end`


			`// Remaining counter and FIFO enable`

			`logic [26:0] remaining;`
			`logic trx_enabled;`

			`always_comb begin`
			`trx_enabled = remaining > 27'd0;`
			`end`


			`// RX FIFO controller`

			`logic rx_rdata_pop;`
			`logic rx_rdata_shift;`
			`logic rx_rdata_valid;`
			`logic [15:0] rx_buffer;`
			`logic rx_buffer_valid;`
			`logic [1:0] rx_buffer_counter;`
			`logic [1:0] rx_buffer_valid_counter;`

			`always_comb begin`
			`rx_buffer_valid = rx_buffer_valid_counter == 2'd2;`
			`end`

			`always_ff @(posedge clk) begin`
			`rx_rdata_pop <= (`
			`!rx_rdata_pop &&`
			`!fifo_bus.rx_read &&`
			`trx_enabled &&`
			`rx_buffer_counter < 2'd2 &&`
			`!fifo_bus.rx_empty &&`
			`mem_bus.write`
			`);`
			`rx_rdata_shift <= 1'b0;`
			`fifo_bus.rx_read <= rx_rdata_pop;`
			`rx_rdata_valid <= fifo_bus.rx_read;`

			`if (dma_start) begin`
			`if (dma_scb.starting_address[0]) begin`
			`mem_bus.wmask <= 2'b01;`
			`rx_buffer_counter <= 2'd1;`
			`rx_buffer_valid_counter <= 2'd1;`
			`end else begin`
			`mem_bus.wmask <= 2'b11;`
			`rx_buffer_counter <= 2'd0;`
			`rx_buffer_valid_counter <= 2'd0;`
			`end`
			`end`

			`if (rx_rdata_pop) begin`
			`rx_buffer_counter <= rx_buffer_counter + 1'd1;`
			`end`

			`if (rx_rdata_shift \|\| rx_rdata_valid) begin`
			`rx_buffer <= {rx_buffer[7:0], fifo_bus.rx_rdata};`
			`rx_buffer_valid_counter <= rx_buffer_valid_counter + 1'd1;`
			`if (remaining == 27'd0 && rx_buffer_counter == 2'd1) begin`
			`mem_bus.wmask <= 2'b10;`
			`rx_rdata_shift <= 1'b1;`
			`rx_buffer_counter <= rx_buffer_counter + 1'd1;`
			`end`
			`end`

			`if (rx_buffer_valid && !mem_bus.request) begin`
			`rx_buffer_counter <= 2'd0;`
			`rx_buffer_valid_counter <= 2'd0;`
			`end`
			`end`


			`// TX FIFO controller`

			`logic tx_wdata_push;`
			`logic tx_wdata_first_push;`
			`logic [7:0] tx_buffer;`
			`logic tx_buffer_counter;`
			`logic tx_buffer_ready;`
			`logic tx_buffer_valid;`

			`always_comb begin`
			`fifo_bus.tx_write = tx_wdata_push;`
			`end`

			`always_ff @(posedge clk) begin`
			`tx_wdata_push <= (`
			`!tx_wdata_push &&`
			`trx_enabled &&`
			`tx_buffer_valid &&`
			`!fifo_bus.tx_full &&`
			`!mem_bus.write`
			`);`

			`if (reset \|\| dma_stop) begin`
			`tx_buffer_ready <= 1'b0;`
			`tx_buffer_valid <= 1'b0;`
			`end`

			`if (dma_start) begin`
			`tx_wdata_first_push <= 1'b1;`
			`tx_buffer_ready <= 1'b1;`
			`tx_buffer_valid <= 1'b0;`
			`end`

			`if (tx_buffer_ready && mem_bus.request) begin`
			`tx_buffer_ready <= 1'b0;`
			`end`

			`if (mem_bus.ack) begin`
			`tx_wdata_first_push <= 1'b0;`
			`tx_buffer_counter <= 1'd1;`
			`tx_buffer_valid <= 1'b1;`
			`{fifo_bus.tx_wdata, tx_buffer} <= mem_bus.rdata;`
			`if (tx_wdata_first_push && dma_scb.starting_address[0]) begin`
			`fifo_bus.tx_wdata <= mem_bus.rdata[7:0];`
			`tx_buffer_counter <= 1'd0;`
			`end`
			`end`

			`if (tx_wdata_push) begin`
			`tx_buffer_counter <= tx_buffer_counter - 1'd1;`
			`fifo_bus.tx_wdata <= tx_buffer;`
			`if (tx_buffer_counter == 1'd0) begin`
			`tx_buffer_ready <= 1'b1;`
			`tx_buffer_valid <= 1'b0;`
			`end`
			`end`
			`end`


			`// Remaining counter controller`

			`always_ff @(posedge clk) begin`
			`if (reset \|\| dma_stop) begin`
			`remaining <= 27'd0;`
			`end else begin`
			`if (dma_start) begin`
			`remaining <= dma_scb.transfer_length;`
			`end`

			`if ((mem_bus.write && rx_rdata_pop) \|\| (!mem_bus.write && tx_wdata_push)) begin`
			`remaining <= remaining - 1'd1;`
			`end`
			`end`
			`end`


			`// Mem bus controller`

			`always_ff @(posedge clk) begin`
			`dma_scb.busy <= mem_bus.request \|\| trx_enabled;`
			`end`

			`always_ff @(posedge clk) begin`
			`if (reset) begin`
			`mem_bus.request <= 1'b0;`
			`end else begin`
			`if (!mem_bus.request) begin`
			`if (mem_bus.write) begin`
			`if (rx_buffer_valid) begin`
			`mem_bus.request <= 1'b1;`
			`mem_bus.wdata <= rx_buffer;`
			`end`
			`end else begin`
			`if (tx_buffer_ready) begin`
			`mem_bus.request <= 1'b1;`
			`end`
			`end`
			`end`
			`end`

			`if (mem_bus.ack) begin`
			`mem_bus.request <= 1'b0;`
			`end`
			`end`

			`always_ff @(posedge clk) begin`
			`if (dma_start) begin`
			`mem_bus.write <= dma_scb.direction;`
			`end`
			`end`

			`always_ff @(posedge clk) begin`
			`if (dma_start) begin`
			`mem_bus.address <= {dma_scb.starting_address[26:1], 1'b0};`
			`end`

			`if (mem_bus.ack) begin`
			`mem_bus.address <= mem_bus.address + 2'd2;`
			`end`
			`end`

			`endmodule`