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/// @file <scr1_imem_ahb.sv>
/// @brief Instruction memory AHB bridge
///
`include "scr1_ahb.svh"
`include "scr1_memif.svh"
module scr1_imem_ahb (
// Control Signals
input logic rst_n,
input logic clk,
// Core Interface
output logic imem_req_ack,
input logic imem_req,
input logic [SCR1_AHB_WIDTH-1:0] imem_addr,
output logic [SCR1_AHB_WIDTH-1:0] imem_rdata,
output logic [1:0] imem_resp,
// AHB Interface
output logic [3:0] hprot,
output logic [2:0] hburst,
output logic [2:0] hsize,
output logic [1:0] htrans,
output logic hmastlock,
output logic [SCR1_AHB_WIDTH-1:0] haddr,
input logic hready,
input logic [SCR1_AHB_WIDTH-1:0] hrdata,
input logic hresp
);
//-------------------------------------------------------------------------------
// Local parameters declaration
//-------------------------------------------------------------------------------
`ifndef SCR1_IMEM_AHB_OUT_BP
localparam SCR1_FIFO_WIDTH = 2;
localparam SCR1_FIFO_CNT_WIDTH = $clog2(SCR1_FIFO_WIDTH+1);
`endif // SCR1_IMEM_AHB_OUT_BP
//-------------------------------------------------------------------------------
// Local types declaration
//-------------------------------------------------------------------------------
typedef enum logic {
SCR1_FSM_ADDR = 1'b0,
SCR1_FSM_DATA = 1'b1,
SCR1_FSM_ERR = 1'bx
} type_scr1_fsm_e;
typedef struct packed {
logic [SCR1_AHB_WIDTH-1:0] haddr;
} type_scr1_req_fifo_s;
typedef struct packed {
logic hresp;
logic [SCR1_AHB_WIDTH-1:0] hrdata;
} type_scr1_resp_fifo_s;
//-------------------------------------------------------------------------------
// Local signal declaration
//-------------------------------------------------------------------------------
type_scr1_fsm_e fsm;
logic req_fifo_rd;
logic req_fifo_wr;
logic req_fifo_up;
`ifdef SCR1_IMEM_AHB_OUT_BP
type_scr1_req_fifo_s req_fifo_r;
type_scr1_req_fifo_s [0:0] req_fifo;
`else // SCR1_IMEM_AHB_OUT_BP
type_scr1_req_fifo_s [0:SCR1_FIFO_WIDTH-1] req_fifo;
type_scr1_req_fifo_s [0:SCR1_FIFO_WIDTH-1] req_fifo_new;
logic [SCR1_FIFO_CNT_WIDTH-1:0] req_fifo_cnt;
logic [SCR1_FIFO_CNT_WIDTH-1:0] req_fifo_cnt_new;
`endif // SCR1_IMEM_AHB_OUT_BP
logic req_fifo_empty;
logic req_fifo_full;
type_scr1_resp_fifo_s resp_fifo;
logic resp_fifo_hready;
//-------------------------------------------------------------------------------
// Interface to Core
//-------------------------------------------------------------------------------
assign imem_req_ack = ~req_fifo_full;
assign req_fifo_wr = ~req_fifo_full & imem_req;
assign imem_rdata = resp_fifo.hrdata;
assign imem_resp = (resp_fifo_hready)
? (resp_fifo.hresp == SCR1_HRESP_OKAY)
? SCR1_MEM_RESP_RDY_OK
: SCR1_MEM_RESP_RDY_ER
: SCR1_MEM_RESP_NOTRDY;
//-------------------------------------------------------------------------------
// REQ_FIFO
//-------------------------------------------------------------------------------
`ifdef SCR1_IMEM_AHB_OUT_BP
always_ff @(negedge rst_n, posedge clk) begin
if (~rst_n) begin
req_fifo_full <= 1'b0;
end else begin
if (~req_fifo_full) begin
req_fifo_full <= imem_req & ~req_fifo_rd;
end else begin
req_fifo_full <= ~req_fifo_rd;
end
end
end
assign req_fifo_empty = ~(req_fifo_full | imem_req);
assign req_fifo_up = ~req_fifo_rd & req_fifo_wr;
always_ff @(posedge clk) begin
if (req_fifo_up) begin
req_fifo_r.haddr <= imem_addr;
end
end
assign req_fifo[0] = (req_fifo_full) ? req_fifo_r : imem_addr;
`else // SCR1_IMEM_AHB_OUT_BP
always_comb begin
req_fifo_up = 1'b0;
req_fifo_cnt_new = req_fifo_cnt;
req_fifo_new = req_fifo;
case ({req_fifo_rd, req_fifo_wr})
2'b00 : begin
// nothing todo
end
2'b01: begin
// FIFO write
req_fifo_up = 1'b1;
req_fifo_new[req_fifo_cnt].haddr = imem_addr;
req_fifo_cnt_new = req_fifo_cnt + 1'b1;
end
2'b10 : begin
// FIFO read
req_fifo_up = 1'b1;
req_fifo_new[0] = req_fifo_new[1];
req_fifo_new[1].haddr = 'x;
req_fifo_cnt_new = req_fifo_cnt - 1'b1;
end
2'b11 : begin
// Read and Write FIFO. It is possible only when fifo_cnt = 1
req_fifo_up = 1'b1;
req_fifo_new[0].haddr = imem_addr;
end
default : begin
req_fifo_up = 'x;
req_fifo_cnt_new = 'x;
req_fifo_new = 'x;
end
endcase
end
always_ff @(negedge rst_n, posedge clk) begin
if (~rst_n) begin
req_fifo_cnt <= '0;
end else begin
if (req_fifo_up) begin
req_fifo_cnt <= req_fifo_cnt_new;
end
end
end
assign req_fifo_full = (req_fifo_cnt == SCR1_FIFO_WIDTH);
assign req_fifo_empty = ~(|req_fifo_cnt);
always_ff @(posedge clk) begin
if (req_fifo_up) begin
req_fifo <= req_fifo_new;
end
end
`endif // SCR1_IMEM_AHB_OUT_BP
//-------------------------------------------------------------------------------
// FSM
//-------------------------------------------------------------------------------
always_ff @(negedge rst_n, posedge clk) begin
if (~rst_n) begin
fsm <= SCR1_FSM_ADDR;
end else begin
case (fsm)
SCR1_FSM_ADDR : begin
if (hready) begin
fsm <= (req_fifo_empty) ? SCR1_FSM_ADDR : SCR1_FSM_DATA;
end
end
SCR1_FSM_DATA : begin
if (hready) begin
if (hresp == SCR1_HRESP_OKAY) begin
fsm <= (req_fifo_empty) ? SCR1_FSM_ADDR : SCR1_FSM_DATA;
end else begin
fsm <= SCR1_FSM_ADDR;
end
end
end
default : begin
fsm <= SCR1_FSM_ERR;
end
endcase
end
end
always_comb begin
req_fifo_rd = 1'b0;
case (fsm)
SCR1_FSM_ADDR : begin
if (hready) begin
req_fifo_rd = ~req_fifo_empty;
end
end
SCR1_FSM_DATA : begin
if (hready) begin
req_fifo_rd = ~req_fifo_empty & (hresp == SCR1_HRESP_OKAY);
end
end
default : begin
req_fifo_rd = 1'bx;
end
endcase
end
//-------------------------------------------------------------------------------
// FIFO response
//-------------------------------------------------------------------------------
`ifdef SCR1_IMEM_AHB_IN_BP
assign resp_fifo_hready = (fsm == SCR1_FSM_DATA) ? hready : 1'b0;
assign resp_fifo.hresp = hresp;
assign resp_fifo.hrdata = hrdata;
`else // SCR1_IMEM_AHB_IN_BP
always_ff @(negedge rst_n, posedge clk) begin
if (~rst_n) begin
resp_fifo_hready <= 1'b0;
end else begin
resp_fifo_hready <= (fsm == SCR1_FSM_DATA) ? hready : 1'b0;
end
end
always_ff @(posedge clk) begin
if (hready & (fsm == SCR1_FSM_DATA)) begin
resp_fifo.hresp <= hresp;
resp_fifo.hrdata <= hrdata;
end
end
`endif // SCR1_IMEM_AHB_IN_BP
//-------------------------------------------------------------------------------
// Interface to AHB
//-------------------------------------------------------------------------------
assign hprot[SCR1_HPROT_DATA] = 1'b0;
assign hprot[SCR1_HPROT_PRV] = 1'b0;
assign hprot[SCR1_HPROT_BUF] = 1'b0;
assign hprot[SCR1_HPROT_CACHE] = 1'b0;
assign hburst = SCR1_HBURST_SINGLE;
assign hsize = SCR1_HSIZE_32B;
assign hmastlock = 1'b0;
always_comb begin
htrans = SCR1_HTRANS_IDLE;
case (fsm)
SCR1_FSM_ADDR : begin
if (~req_fifo_empty) begin
htrans = SCR1_HTRANS_NONSEQ;
end
end
SCR1_FSM_DATA : begin
if (hready) begin
if (hresp == SCR1_HRESP_OKAY) begin
if (~req_fifo_empty) begin
htrans = SCR1_HTRANS_NONSEQ;
end
end
end
end
default : begin
htrans = SCR1_HTRANS_ERR;
end
endcase
end
assign haddr = req_fifo[0].haddr;
`ifdef SCR1_TRGT_SIMULATION
//-------------------------------------------------------------------------------
// Assertion
//-------------------------------------------------------------------------------
// Check Core interface
SCR1_SVA_IMEM_AHB_BRIDGE_REQ_XCHECK : assert property (
@(negedge clk) disable iff (~rst_n)
!$isunknown(imem_req)
) else $error("IMEM AHB bridge Error: imem_req has unknown values");
SCR1_IMEM_AHB_BRIDGE_ADDR_XCHECK : assert property (
@(negedge clk) disable iff (~rst_n)
imem_req |-> !$isunknown(imem_addr)
) else $error("IMEM AHB bridge Error: imem_addr has unknown values");
SCR1_IMEM_AHB_BRIDGE_ADDR_ALLIGN : assert property (
@(negedge clk) disable iff (~rst_n)
imem_req |-> (imem_addr[1:0] == '0)
) else $error("IMEM AHB bridge Error: imem_addr has unalign values");
// Check AHB interface
SCR1_IMEM_AHB_BRIDGE_HREADY_XCHECK : assert property (
@(negedge clk) disable iff (~rst_n)
!$isunknown(hready)
) else $error("IMEM AHB bridge Error: hready has unknown values");
SCR1_IMEM_AHB_BRIDGE_HRESP_XCHECK : assert property (
@(negedge clk) disable iff (~rst_n)
!$isunknown(hresp)
) else $error("IMEM AHB bridge Error: hresp has unknown values");
`endif // SCR1_TRGT_SIMULATION
endmodule : scr1_imem_ahb