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[/] [openrisc/] [trunk/] [orpsocv2/] [rtl/] [verilog/] [or1200/] [or1200_wb_biu.v] - Rev 479

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//////////////////////////////////////////////////////////////////////
////                                                              ////
////  OR1200's WISHBONE BIU                                       ////
////                                                              ////
////  This file is part of the OpenRISC 1200 project              ////
////  http://opencores.org/project,or1k                           ////
////                                                              ////
////  Description                                                 ////
////  Implements WISHBONE interface                               ////
////                                                              ////
////  To Do:                                                      ////
////   - if biu_cyc/stb are deasserted and wb_ack_i is asserted   ////
////   and this happens even before aborted_r is asssrted,        ////
////   wb_ack_i will be delivered even though transfer is         ////
////   internally considered already aborted. However most        ////
////   wb_ack_i are externally registered and delayed. Normally   ////
////   this shouldn't cause any problems.                         ////
////                                                              ////
////  Author(s):                                                  ////
////      - Damjan Lampret, lampret@opencores.org                 ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
////                                                              ////
//// Copyright (C) 2000 Authors and OPENCORES.ORG                 ////
////                                                              ////
//// This source file may be used and distributed without         ////
//// restriction provided that this copyright statement is not    ////
//// removed from the file and that any derivative work contains  ////
//// the original copyright notice and the associated disclaimer. ////
////                                                              ////
//// This source file is free software; you can redistribute it   ////
//// and/or modify it under the terms of the GNU Lesser General   ////
//// Public License as published by the Free Software Foundation; ////
//// either version 2.1 of the License, or (at your option) any   ////
//// later version.                                               ////
////                                                              ////
//// This source is distributed in the hope that it will be       ////
//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
//// PURPOSE.  See the GNU Lesser General Public License for more ////
//// details.                                                     ////
////                                                              ////
//// You should have received a copy of the GNU Lesser General    ////
//// Public License along with this source; if not, download it   ////
//// from http://www.opencores.org/lgpl.shtml                     ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
//
//
// $Log: or1200_wb_biu.v,v $
// Revision 2.0  2010/06/30 11:00:00  ORSoC
// Major update: 
// Structure reordered and bugs fixed. 
//
 
// synopsys translate_off
`include "timescale.v"
// synopsys translate_on
`include "or1200_defines.v"
 
module or1200_wb_biu(
		     // RISC clock, reset and clock control
		     clk, rst, clmode,
 
		     // WISHBONE interface
		     wb_clk_i, wb_rst_i, wb_ack_i, wb_err_i, wb_rty_i, wb_dat_i,
		     wb_cyc_o, wb_adr_o, wb_stb_o, wb_we_o, wb_sel_o, wb_dat_o,
`ifdef OR1200_WB_CAB
		     wb_cab_o,
`endif
`ifdef OR1200_WB_B3
		     wb_cti_o, wb_bte_o,
`endif
 
		     // Internal RISC bus
		     biu_dat_i, biu_adr_i, biu_cyc_i, biu_stb_i, biu_we_i, biu_sel_i, biu_cab_i,
		     biu_dat_o, biu_ack_o, biu_err_o
		     );
 
   parameter dw = `OR1200_OPERAND_WIDTH;
   parameter aw = `OR1200_OPERAND_WIDTH;
   parameter bl = 4; /* Can currently be either 4 or 8 - the two optional line
		      sizes for the OR1200. */
 
 
   //
   // RISC clock, reset and clock control
   //
   input				clk;		// RISC clock
   input				rst;		// RISC reset
   input [1:0] 				clmode;		// 00 WB=RISC, 01 WB=RISC/2, 10 N/A, 11 WB=RISC/4
 
   //
   // WISHBONE interface
   //
   input				wb_clk_i;	// clock input
   input				wb_rst_i;	// reset input
   input				wb_ack_i;	// normal termination
   input				wb_err_i;	// termination w/ error
   input				wb_rty_i;	// termination w/ retry
   input [dw-1:0] 			wb_dat_i;	// input data bus
   output				wb_cyc_o;	// cycle valid output
   output [aw-1:0] 			wb_adr_o;	// address bus outputs
   output				wb_stb_o;	// strobe output
   output				wb_we_o;	// indicates write transfer
   output [3:0] 			wb_sel_o;	// byte select outputs
   output [dw-1:0] 			wb_dat_o;	// output data bus
`ifdef OR1200_WB_CAB
   output				wb_cab_o;	// consecutive address burst
`endif
`ifdef OR1200_WB_B3
   output [2:0] 			wb_cti_o;	// cycle type identifier
   output [1:0] 			wb_bte_o;	// burst type extension
`endif
 
   //
   // Internal RISC interface
   //
   input [dw-1:0] 			biu_dat_i;	// input data bus
   input [aw-1:0] 			biu_adr_i;	// address bus
   input				biu_cyc_i;	// WB cycle
   input				biu_stb_i;	// WB strobe
   input				biu_we_i;	// WB write enable
   input				biu_cab_i;	// CAB input
   input [3:0] 				biu_sel_i;	// byte selects
   output [31:0] 			biu_dat_o;	// output data bus
   output				biu_ack_o;	// ack output
   output				biu_err_o;	// err output
 
   //
   // Registers
   //
   wire 				wb_ack;		// normal termination
   reg [aw-1:0] 			wb_adr_o;	// address bus outputs
   reg 					wb_cyc_o;	// cycle output
   reg 					wb_stb_o;	// strobe output
   reg 					wb_we_o;	// indicates write transfer
   reg [3:0] 				wb_sel_o;	// byte select outputs
`ifdef OR1200_WB_CAB
   reg 					wb_cab_o;	// CAB output
`endif
`ifdef OR1200_WB_B3
   reg [2:0] 				wb_cti_o;	// cycle type identifier
   reg [1:0] 				wb_bte_o;	// burst type extension
`endif
`ifdef OR1200_NO_DC   
   reg [dw-1:0] 			wb_dat_o;	// output data bus
`else   
   assign wb_dat_o = biu_dat_i;    // No register on this - straight from DCRAM
`endif
 
`ifdef OR1200_WB_RETRY
   reg [`OR1200_WB_RETRY-1:0] 		retry_cnt;	// Retry counter
`else
   wire 				retry_cnt;
   assign retry_cnt = 1'b0;
`endif
`ifdef OR1200_WB_B3
   reg [3:0] 				burst_len;	// burst counter
`endif
 
   reg  				biu_stb_reg;	// WB strobe
   wire  				biu_stb;	// WB strobe
   reg 					wb_cyc_nxt;	// next WB cycle value
   reg 					wb_stb_nxt;	// next WB strobe value
   reg [2:0] 				wb_cti_nxt;	// next cycle type identifier value
 
   reg 					wb_ack_cnt;	// WB ack toggle counter
   reg 					wb_err_cnt;	// WB err toggle counter
   reg 					wb_rty_cnt;	// WB rty toggle counter
   reg 					biu_ack_cnt;	// BIU ack toggle counter
   reg 					biu_err_cnt;	// BIU err toggle counter
   reg 					biu_rty_cnt;	// BIU rty toggle counter
   wire 				biu_rty;	// BIU rty indicator
 
   reg [1:0] 				wb_fsm_state_cur;	// WB FSM - surrent state
   reg [1:0] 				wb_fsm_state_nxt;	// WB FSM - next state
   wire [1:0] 				wb_fsm_idle	= 2'h0;	// WB FSM state - IDLE
   wire [1:0] 				wb_fsm_trans	= 2'h1;	// WB FSM state - normal TRANSFER
   wire [1:0] 				wb_fsm_last	= 2'h2;	// EB FSM state - LAST transfer
 
   //
   // WISHBONE I/F <-> Internal RISC I/F conversion
   //
   //assign wb_ack = wb_ack_i;
   assign wb_ack = wb_ack_i & !wb_err_i & !wb_rty_i;
 
   //
   // WB FSM - register part
   // 
   always @(posedge wb_clk_i or `OR1200_RST_EVENT wb_rst_i) begin
      if (wb_rst_i == `OR1200_RST_VALUE) 
	wb_fsm_state_cur <=  wb_fsm_idle;
      else 
	wb_fsm_state_cur <=  wb_fsm_state_nxt;
   end
 
   //
   // WB burst tength counter
   // 
   always @(posedge wb_clk_i or `OR1200_RST_EVENT wb_rst_i) begin
      if (wb_rst_i == `OR1200_RST_VALUE) begin
	 burst_len <= 0;
      end
      else begin
	 // burst counter
	 if (wb_fsm_state_cur == wb_fsm_idle)
	   burst_len <=  bl[3:0] - 2;
	 else if (wb_stb_o & wb_ack)
	   burst_len <=  burst_len - 1;
      end
   end
 
   // 
   // WB FSM - combinatorial part
   // 
   always @(wb_fsm_state_cur or burst_len or wb_err_i or wb_rty_i or wb_ack or 
	    wb_cti_o or wb_sel_o or wb_stb_o or wb_we_o or biu_cyc_i or 
	    biu_stb or biu_cab_i or biu_sel_i or biu_we_i) begin
      // States of WISHBONE Finite State Machine
      case(wb_fsm_state_cur)
	// IDLE 
	wb_fsm_idle : begin
	   wb_cyc_nxt = biu_cyc_i & biu_stb;
	   wb_stb_nxt = biu_cyc_i & biu_stb;
	   wb_cti_nxt = {!biu_cab_i, 1'b1, !biu_cab_i};
	   if (biu_cyc_i & biu_stb)
	     wb_fsm_state_nxt = wb_fsm_trans;
	   else
	     wb_fsm_state_nxt = wb_fsm_idle;
	end
	// normal TRANSFER
	wb_fsm_trans : begin
	   wb_cyc_nxt = !wb_stb_o | !wb_err_i & !wb_rty_i & 
			!(wb_ack & wb_cti_o == 3'b111);
 
	   wb_stb_nxt = !wb_stb_o | !wb_err_i & !wb_rty_i & !wb_ack | 
			!wb_err_i & !wb_rty_i & wb_cti_o == 3'b010 ;
	   wb_cti_nxt[2] = wb_stb_o & wb_ack & burst_len == 'h0 | wb_cti_o[2];
	   wb_cti_nxt[1] = 1'b1  ;
	   wb_cti_nxt[0] = wb_stb_o & wb_ack & burst_len == 'h0 | wb_cti_o[0];
 
	   if ((!biu_cyc_i | !biu_stb | !biu_cab_i | biu_sel_i != wb_sel_o | 
		biu_we_i != wb_we_o) & wb_cti_o == 3'b010)
	     wb_fsm_state_nxt = wb_fsm_last;
	   else if ((wb_err_i | wb_rty_i | wb_ack & wb_cti_o==3'b111) & 
		    wb_stb_o)
	     wb_fsm_state_nxt = wb_fsm_idle;
	   else
	     wb_fsm_state_nxt = wb_fsm_trans;
	end
	// LAST transfer
	wb_fsm_last : begin
	   wb_cyc_nxt = !wb_stb_o | !wb_err_i & !wb_rty_i & 
			!(wb_ack & wb_cti_o == 3'b111);
	   wb_stb_nxt = !wb_stb_o | !wb_err_i & !wb_rty_i & 
			!(wb_ack & wb_cti_o == 3'b111);
	   wb_cti_nxt[2] = wb_ack & wb_stb_o | wb_cti_o[2];
	   wb_cti_nxt[1] = 1'b1                  ;
	   wb_cti_nxt[0] = wb_ack & wb_stb_o | wb_cti_o[0];
	   if ((wb_err_i | wb_rty_i | wb_ack & wb_cti_o == 3'b111) & wb_stb_o)
	     wb_fsm_state_nxt = wb_fsm_idle;
	   else
	     wb_fsm_state_nxt = wb_fsm_last;
	end
	// default state
	default:begin
	   wb_cyc_nxt = 1'bx;
	   wb_stb_nxt = 1'bx;
	   wb_cti_nxt = 3'bxxx;
	   wb_fsm_state_nxt = 2'bxx;
	end
      endcase
   end
 
   //
   // WB FSM - output signals
   // 
   always @(posedge wb_clk_i or `OR1200_RST_EVENT wb_rst_i) begin
      if (wb_rst_i == `OR1200_RST_VALUE) begin
	 wb_cyc_o	<=  1'b0;
	 wb_stb_o	<=  1'b0;
	 wb_cti_o	<=  3'b111;
	 wb_bte_o	<=  (bl==8) ? 2'b10 : (bl==4) ? 2'b01 : 2'b00;
`ifdef OR1200_WB_CAB
	 wb_cab_o	<=  1'b0;
`endif
	 wb_we_o		<=  1'b0;
	 wb_sel_o	<=  4'hf;
	 wb_adr_o	<=  {aw{1'b0}};
`ifdef OR1200_NO_DC	 
	 wb_dat_o	<=  {dw{1'b0}};
`endif	 
      end
      else begin
	 wb_cyc_o	<=  wb_cyc_nxt;
 
         if (wb_ack & wb_cti_o == 3'b111) 
           wb_stb_o        <=  1'b0;
         else
           wb_stb_o        <=  wb_stb_nxt;
`ifndef OR1200_NO_BURSTS
	 wb_cti_o	<=  wb_cti_nxt;
`endif	 
	 wb_bte_o	<=  (bl==8) ? 2'b10 : (bl==4) ? 2'b01 : 2'b00;
`ifdef OR1200_WB_CAB
	 wb_cab_o	<=  biu_cab_i;
`endif
	 // we and sel - set at beginning of access 
	 if (wb_fsm_state_cur == wb_fsm_idle) begin
	    wb_we_o		<=  biu_we_i;
	    wb_sel_o	<=  biu_sel_i;
	 end
	 // adr - set at beginning of access and changed at every termination 
	 if (wb_fsm_state_cur == wb_fsm_idle) begin
	    wb_adr_o	<=  biu_adr_i;
	 end 
	 else if (wb_stb_o & wb_ack) begin
	    if (bl==4) begin
	       wb_adr_o[3:2]	<=  wb_adr_o[3:2] + 1;
	    end
	    if (bl==8) begin
	       wb_adr_o[4:2]	<=  wb_adr_o[4:2] + 1;
	    end
	 end
`ifdef OR1200_NO_DC	 
	 // dat - write data changed after avery subsequent write access
	 if (!wb_stb_o) begin
	    wb_dat_o 	<=  biu_dat_i;
	 end
`endif	 
      end
   end
 
   //
   // WB & BIU termination toggle counters
   // 
   always @(posedge wb_clk_i or `OR1200_RST_EVENT wb_rst_i) begin
      if (wb_rst_i == `OR1200_RST_VALUE) begin
	 wb_ack_cnt	<=  1'b0;
	 wb_err_cnt	<=  1'b0;
	 wb_rty_cnt	<=  1'b0;
      end
      else begin
	 // WB ack toggle counter
	 if (wb_fsm_state_cur == wb_fsm_idle | !(|clmode))
	   wb_ack_cnt	<=  1'b0;
	 else if (wb_stb_o & wb_ack)
	   wb_ack_cnt	<=  !wb_ack_cnt;
	 // WB err toggle counter
	 if (wb_fsm_state_cur == wb_fsm_idle | !(|clmode))
	   wb_err_cnt	<=  1'b0;
	 else if (wb_stb_o & wb_err_i)
	   wb_err_cnt	<=  !wb_err_cnt;
	 // WB rty toggle counter
	 if (wb_fsm_state_cur == wb_fsm_idle | !(|clmode))
	   wb_rty_cnt	<=  1'b0;
	 else if (wb_stb_o & wb_rty_i)
	   wb_rty_cnt	<=  !wb_rty_cnt;
      end
   end
 
   always @(posedge clk or `OR1200_RST_EVENT rst) begin
      if (rst == `OR1200_RST_VALUE) begin
         biu_stb_reg	<=  1'b0;
	 biu_ack_cnt	<=  1'b0;
	 biu_err_cnt	<=  1'b0;
	 biu_rty_cnt	<=  1'b0;
`ifdef OR1200_WB_RETRY
	 retry_cnt	<= {`OR1200_WB_RETRY{1'b0}};
`endif
      end
      else begin
	 // BIU strobe
	 if (biu_stb_i & !biu_cab_i & biu_ack_o)
	   biu_stb_reg	<=  1'b0;
	 else
	   biu_stb_reg	<=  biu_stb_i;
	 // BIU ack toggle counter
	 if (wb_fsm_state_cur == wb_fsm_idle | !(|clmode))
	   biu_ack_cnt	<=  1'b0 ;
	 else if (biu_ack_o)
	   biu_ack_cnt	<=  !biu_ack_cnt ;
	 // BIU err toggle counter
	 if (wb_fsm_state_cur == wb_fsm_idle | !(|clmode))
	   biu_err_cnt	<=  1'b0 ;
	 else if (wb_err_i & biu_err_o)
	   biu_err_cnt	<=  !biu_err_cnt ;
	 // BIU rty toggle counter
	 if (wb_fsm_state_cur == wb_fsm_idle | !(|clmode))
	   biu_rty_cnt	<=  1'b0 ;
	 else if (biu_rty)
	   biu_rty_cnt	<=  !biu_rty_cnt ;
`ifdef OR1200_WB_RETRY
	 if (biu_ack_o | biu_err_o)
	   retry_cnt	<=  {`OR1200_WB_RETRY{1'b0}};
	 else if (biu_rty)
	   retry_cnt	<=  retry_cnt + 1'b1;
`endif
      end
   end
 
   assign biu_stb = biu_stb_i & biu_stb_reg;
 
   //
   // Input BIU data bus
   //
   assign	biu_dat_o	= wb_dat_i;
 
   //
   // Input BIU termination signals 
   //
   assign	biu_rty		= (wb_fsm_state_cur == wb_fsm_trans) & wb_rty_i & wb_stb_o & (wb_rty_cnt ~^ biu_rty_cnt);
   assign	biu_ack_o	= (wb_fsm_state_cur == wb_fsm_trans) & wb_ack & wb_stb_o & (wb_ack_cnt ~^ biu_ack_cnt);
   assign	biu_err_o	= (wb_fsm_state_cur == wb_fsm_trans) & wb_err_i & wb_stb_o & (wb_err_cnt ~^ biu_err_cnt)
`ifdef OR1200_WB_RETRY
     | biu_rty & retry_cnt[`OR1200_WB_RETRY-1];
`else
   ;
`endif
 
 
endmodule
 

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