cores-swerv-el2/soc/axi_lsu_dma_bridge.sv


// connects LSI master to external AXI slave and DMA slave
module axi_lsu_dma_bridge #(
    parameter M_ID_WIDTH  = 8,
    parameter S0_ID_WIDTH = 8
) (
    input clk,
    input reset_l,

    // master read bus
    input                   m_arvalid,
    input  [M_ID_WIDTH-1:0] m_arid,
    input  [          31:0] m_araddr,
    output                  m_arready,

    output                  m_rvalid,
    input                   m_rready,
    output [          63:0] m_rdata,
    output [M_ID_WIDTH-1:0] m_rid,
    output [           1:0] m_rresp,
    output                  m_rlast,

    // master write bus
    input                   m_awvalid,
    input  [M_ID_WIDTH-1:0] m_awid,
    input  [          31:0] m_awaddr,
    output                  m_awready,

    input  m_wvalid,
    output m_wready,

    output [           1:0] m_bresp,
    output                  m_bvalid,
    output [M_ID_WIDTH-1:0] m_bid,
    input                   m_bready,

    // slave 0 if general ext memory
    output s0_arvalid,
    input  s0_arready,

    input                    s0_rvalid,
    input  [S0_ID_WIDTH-1:0] s0_rid,
    input  [            1:0] s0_rresp,
    input  [           63:0] s0_rdata,
    input                    s0_rlast,
    output                   s0_rready,

    output s0_awvalid,
    input  s0_awready,

    output s0_wvalid,
    input  s0_wready,

    input  [            1:0] s0_bresp,
    input                    s0_bvalid,
    input  [S0_ID_WIDTH-1:0] s0_bid,
    output                   s0_bready,

    // slave 1 if DMA port
    output s1_arvalid,
    input  s1_arready,

    input         s1_rvalid,
    input  [ 1:0] s1_rresp,
    input  [63:0] s1_rdata,
    input         s1_rlast,
    output        s1_rready,

    output s1_awvalid,
    input  s1_awready,

    output s1_wvalid,
    input  s1_wready,

    input  [1:0] s1_bresp,
    input        s1_bvalid,
    output       s1_bready
);

  parameter ICCM_BASE = `RV_ICCM_BITS;  // in LSBs
  localparam IDFIFOSZ = $clog2(`RV_DMA_BUF_DEPTH);
  bit [31:0] iccm_real_base_addr = `RV_ICCM_SADR;

  wire ar_slave_select;
  wire aw_slave_select;
  wire w_slave_select;

  wire rresp_select;
  wire bresp_select;
  wire ar_iccm_select;
  wire aw_iccm_select;

  reg [1:0] wsel_iptr, wsel_optr;
  reg [2:0] wsel_count;
  reg [3:0] wsel;


  reg [M_ID_WIDTH-1:0] arid[1<<IDFIFOSZ];
  reg [M_ID_WIDTH-1:0] awid[1<<IDFIFOSZ];
  reg [IDFIFOSZ-1:0] arid_cnt;
  reg [IDFIFOSZ-1:0] awid_cnt;
  reg [IDFIFOSZ-1:0] rid_cnt;
  reg [IDFIFOSZ-1:0] bid_cnt;


  // 1 select slave 1; 0 - slave 0
  assign ar_slave_select = ar_iccm_select;
  assign aw_slave_select = aw_iccm_select;

  assign ar_iccm_select = m_araddr[31:ICCM_BASE] == iccm_real_base_addr[31:ICCM_BASE];
  assign aw_iccm_select = m_awaddr[31:ICCM_BASE] == iccm_real_base_addr[31:ICCM_BASE];

  assign s0_arvalid = m_arvalid & ~ar_slave_select;
  assign s1_arvalid = m_arvalid & ar_slave_select;
  assign m_arready = ar_slave_select ? s1_arready : s0_arready;


  assign s0_awvalid = m_awvalid & ~aw_slave_select;
  assign s1_awvalid = m_awvalid & aw_slave_select;
  assign m_awready = aw_slave_select ? s1_awready : s0_awready;


  assign s0_wvalid = m_wvalid & ~w_slave_select;
  assign s1_wvalid = m_wvalid & w_slave_select;
  assign m_wready = w_slave_select ? s1_wready : s0_wready;
  assign w_slave_select = (wsel_count == 0 || wsel_count[2]) ? aw_slave_select : wsel[wsel_optr];

  assign m_rvalid = s0_rvalid | s1_rvalid;
  assign s0_rready = m_rready & ~rresp_select;
  assign s1_rready = m_rready & rresp_select;
  assign m_rdata = rresp_select ? s1_rdata : s0_rdata;
  assign m_rresp = rresp_select ? s1_rresp : s0_rresp;
  assign m_rid = rresp_select ? arid[rid_cnt] : s0_rid;
  assign m_rlast = rresp_select ? s1_rlast : s0_rlast;

  assign rresp_select = s1_rvalid & ~s0_rvalid;

  assign m_bvalid = s0_bvalid | s1_bvalid;
  assign s0_bready = m_bready & ~bresp_select;
  assign s1_bready = m_bready & bresp_select;
  assign m_bid = bresp_select ? awid[bid_cnt] : s0_bid;
  assign m_bresp = bresp_select ? s1_bresp : s0_bresp;


  assign bresp_select = s1_bvalid & ~s0_bvalid;


  // W-channel select fifo
  always @(posedge clk or negedge reset_l)
    if (!reset_l) begin
      wsel_count <= '0;
      wsel_iptr  <= '0;
      wsel_optr  <= '0;
    end else begin
      if (m_awvalid & m_awready) begin
        wsel[wsel_iptr] <= aw_slave_select;
        if (!(m_wready & m_wvalid)) wsel_count <= wsel_count + 1;
        wsel_iptr <= wsel_iptr + 1;
      end
      if (m_wvalid & m_wready) begin
        if (!(m_awready & m_awvalid)) wsel_count <= wsel_count - 1;
        wsel_optr <= wsel_optr + 1;
      end
    end

  // id replacement for narrow ID slave
  always @(posedge clk or negedge reset_l)
    if (!reset_l) begin
      arid_cnt <= '0;
      rid_cnt  <= '0;
    end else begin
      if (ar_slave_select & m_arready & m_arvalid) begin
        arid[arid_cnt] <= m_arid;
        arid_cnt <= arid_cnt + 1;
      end
      if (rresp_select & m_rready & m_rvalid) begin
        rid_cnt <= rid_cnt + 1;
      end

    end

  always @(posedge clk or negedge reset_l)
    if (!reset_l) begin
      awid_cnt <= '0;
      bid_cnt  <= '0;
    end else begin
      if (aw_slave_select & m_awready & m_awvalid) begin
        awid[awid_cnt] <= m_awid;
        awid_cnt <= awid_cnt + 1;
      end
      if (bresp_select & m_bready & m_bvalid) begin
        bid_cnt <= bid_cnt + 1;
      end
    end

endmodule
Add jtag 2022-03-07 21:08:10 +08:00
			`// connects LSI master to external AXI slave and DMA slave`
			`module axi_lsu_dma_bridge #(`
			`parameter M_ID_WIDTH = 8,`
			`parameter S0_ID_WIDTH = 8`
			`) (`
			`input clk,`
			`input reset_l,`

			`// master read bus`
			`input m_arvalid,`
			`input [M_ID_WIDTH-1:0] m_arid,`
			`input [ 31:0] m_araddr,`
			`output m_arready,`

			`output m_rvalid,`
			`input m_rready,`
			`output [ 63:0] m_rdata,`
			`output [M_ID_WIDTH-1:0] m_rid,`
			`output [ 1:0] m_rresp,`
			`output m_rlast,`

			`// master write bus`
			`input m_awvalid,`
			`input [M_ID_WIDTH-1:0] m_awid,`
			`input [ 31:0] m_awaddr,`
			`output m_awready,`

			`input m_wvalid,`
			`output m_wready,`

			`output [ 1:0] m_bresp,`
			`output m_bvalid,`
			`output [M_ID_WIDTH-1:0] m_bid,`
			`input m_bready,`

			`// slave 0 if general ext memory`
			`output s0_arvalid,`
			`input s0_arready,`

			`input s0_rvalid,`
			`input [S0_ID_WIDTH-1:0] s0_rid,`
			`input [ 1:0] s0_rresp,`
			`input [ 63:0] s0_rdata,`
			`input s0_rlast,`
			`output s0_rready,`

			`output s0_awvalid,`
			`input s0_awready,`

			`output s0_wvalid,`
			`input s0_wready,`

			`input [ 1:0] s0_bresp,`
			`input s0_bvalid,`
			`input [S0_ID_WIDTH-1:0] s0_bid,`
			`output s0_bready,`

			`// slave 1 if DMA port`
			`output s1_arvalid,`
			`input s1_arready,`

			`input s1_rvalid,`
			`input [ 1:0] s1_rresp,`
			`input [63:0] s1_rdata,`
			`input s1_rlast,`
			`output s1_rready,`

			`output s1_awvalid,`
			`input s1_awready,`

			`output s1_wvalid,`
			`input s1_wready,`

			`input [1:0] s1_bresp,`
			`input s1_bvalid,`
			`output s1_bready`
			`);`

			parameter ICCM_BASE = `RV_ICCM_BITS; // in LSBs
			localparam IDFIFOSZ = $clog2(`RV_DMA_BUF_DEPTH);
			bit [31:0] iccm_real_base_addr = `RV_ICCM_SADR;

			`wire ar_slave_select;`
			`wire aw_slave_select;`
			`wire w_slave_select;`

			`wire rresp_select;`
			`wire bresp_select;`
			`wire ar_iccm_select;`
			`wire aw_iccm_select;`

			`reg [1:0] wsel_iptr, wsel_optr;`
			`reg [2:0] wsel_count;`
			`reg [3:0] wsel;`


			`reg [M_ID_WIDTH-1:0] arid[1<<IDFIFOSZ];`
			`reg [M_ID_WIDTH-1:0] awid[1<<IDFIFOSZ];`
			`reg [IDFIFOSZ-1:0] arid_cnt;`
			`reg [IDFIFOSZ-1:0] awid_cnt;`
			`reg [IDFIFOSZ-1:0] rid_cnt;`
			`reg [IDFIFOSZ-1:0] bid_cnt;`


			`// 1 select slave 1; 0 - slave 0`
			`assign ar_slave_select = ar_iccm_select;`
			`assign aw_slave_select = aw_iccm_select;`

			`assign ar_iccm_select = m_araddr[31:ICCM_BASE] == iccm_real_base_addr[31:ICCM_BASE];`
			`assign aw_iccm_select = m_awaddr[31:ICCM_BASE] == iccm_real_base_addr[31:ICCM_BASE];`

			`assign s0_arvalid = m_arvalid & ~ar_slave_select;`
			`assign s1_arvalid = m_arvalid & ar_slave_select;`
			`assign m_arready = ar_slave_select ? s1_arready : s0_arready;`


			`assign s0_awvalid = m_awvalid & ~aw_slave_select;`
			`assign s1_awvalid = m_awvalid & aw_slave_select;`
			`assign m_awready = aw_slave_select ? s1_awready : s0_awready;`


			`assign s0_wvalid = m_wvalid & ~w_slave_select;`
			`assign s1_wvalid = m_wvalid & w_slave_select;`
			`assign m_wready = w_slave_select ? s1_wready : s0_wready;`
			`assign w_slave_select = (wsel_count == 0 \|\| wsel_count[2]) ? aw_slave_select : wsel[wsel_optr];`

			`assign m_rvalid = s0_rvalid \| s1_rvalid;`
			`assign s0_rready = m_rready & ~rresp_select;`
			`assign s1_rready = m_rready & rresp_select;`
			`assign m_rdata = rresp_select ? s1_rdata : s0_rdata;`
			`assign m_rresp = rresp_select ? s1_rresp : s0_rresp;`
			`assign m_rid = rresp_select ? arid[rid_cnt] : s0_rid;`
			`assign m_rlast = rresp_select ? s1_rlast : s0_rlast;`

			`assign rresp_select = s1_rvalid & ~s0_rvalid;`

			`assign m_bvalid = s0_bvalid \| s1_bvalid;`
			`assign s0_bready = m_bready & ~bresp_select;`
			`assign s1_bready = m_bready & bresp_select;`
			`assign m_bid = bresp_select ? awid[bid_cnt] : s0_bid;`
			`assign m_bresp = bresp_select ? s1_bresp : s0_bresp;`


			`assign bresp_select = s1_bvalid & ~s0_bvalid;`


			`// W-channel select fifo`
			`always @(posedge clk or negedge reset_l)`
			`if (!reset_l) begin`
			`wsel_count <= '0;`
			`wsel_iptr <= '0;`
			`wsel_optr <= '0;`
			`end else begin`
			`if (m_awvalid & m_awready) begin`
			`wsel[wsel_iptr] <= aw_slave_select;`
			`if (!(m_wready & m_wvalid)) wsel_count <= wsel_count + 1;`
			`wsel_iptr <= wsel_iptr + 1;`
			`end`
			`if (m_wvalid & m_wready) begin`
			`if (!(m_awready & m_awvalid)) wsel_count <= wsel_count - 1;`
			`wsel_optr <= wsel_optr + 1;`
			`end`
			`end`

			`// id replacement for narrow ID slave`
			`always @(posedge clk or negedge reset_l)`
			`if (!reset_l) begin`
			`arid_cnt <= '0;`
			`rid_cnt <= '0;`
			`end else begin`
			`if (ar_slave_select & m_arready & m_arvalid) begin`
			`arid[arid_cnt] <= m_arid;`
			`arid_cnt <= arid_cnt + 1;`
			`end`
			`if (rresp_select & m_rready & m_rvalid) begin`
			`rid_cnt <= rid_cnt + 1;`
			`end`

			`end`

			`always @(posedge clk or negedge reset_l)`
			`if (!reset_l) begin`
			`awid_cnt <= '0;`
			`bid_cnt <= '0;`
			`end else begin`
			`if (aw_slave_select & m_awready & m_awvalid) begin`
			`awid[awid_cnt] <= m_awid;`
			`awid_cnt <= awid_cnt + 1;`
			`end`
			`if (bresp_select & m_bready & m_bvalid) begin`
			`bid_cnt <= bid_cnt + 1;`
			`end`
			`end`

			`endmodule`