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[/] [openrisc/] [trunk/] [or1200/] [rtl/] [verilog/] [or1200_immu_top.v] - Rev 840
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////////////////////////////////////////////////////////////////////// //// //// //// OR1200's Instruction MMU top level //// //// //// //// This file is part of the OpenRISC 1200 project //// //// http://www.opencores.org/project,or1k //// //// //// //// Description //// //// Instantiation of all IMMU blocks. //// //// //// //// To Do: //// //// - cache inhibit //// //// //// //// 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 //// //// //// ////////////////////////////////////////////////////////////////////// // synopsys translate_off `include "timescale.v" // synopsys translate_on `include "or1200_defines.v" // // Insn MMU // module or1200_immu_top( // Rst and clk clk, rst, // CPU i/f ic_en, immu_en, supv, icpu_adr_i, icpu_cycstb_i, icpu_adr_o, icpu_tag_o, icpu_rty_o, icpu_err_o, // SR Interface boot_adr_sel_i, // SPR access spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o, `ifdef OR1200_BIST // RAM BIST mbist_si_i, mbist_so_o, mbist_ctrl_i, `endif // QMEM i/f qmemimmu_rty_i, qmemimmu_err_i, qmemimmu_tag_i, qmemimmu_adr_o, qmemimmu_cycstb_o, qmemimmu_ci_o ); parameter dw = `OR1200_OPERAND_WIDTH; parameter aw = `OR1200_OPERAND_WIDTH; parameter boot_adr = `OR1200_BOOT_ADR; // // I/O // // // Clock and reset // input clk; input rst; // // CPU I/F // input ic_en; input immu_en; input supv; input [aw-1:0] icpu_adr_i; input icpu_cycstb_i; output [aw-1:0] icpu_adr_o; output [3:0] icpu_tag_o; output icpu_rty_o; output icpu_err_o; // // SR Interface // input boot_adr_sel_i; // // SPR access // input spr_cs; input spr_write; input [aw-1:0] spr_addr; input [31:0] spr_dat_i; output [31:0] spr_dat_o; `ifdef OR1200_BIST // // RAM BIST // input mbist_si_i; input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i; output mbist_so_o; `endif // // IC I/F // input qmemimmu_rty_i; input qmemimmu_err_i; input [3:0] qmemimmu_tag_i; output [aw-1:0] qmemimmu_adr_o; output qmemimmu_cycstb_o; output qmemimmu_ci_o; // // Internal wires and regs // wire itlb_spr_access; wire [31:`OR1200_IMMU_PS] itlb_ppn; wire itlb_hit; wire itlb_uxe; wire itlb_sxe; wire [31:0] itlb_dat_o; wire itlb_en; wire itlb_ci; wire itlb_done; wire fault; wire miss; wire page_cross; reg [31:0] icpu_adr_default; reg icpu_adr_select; reg [31:0] icpu_adr_o; reg [31:`OR1200_IMMU_PS] icpu_vpn_r; `ifdef OR1200_NO_IMMU `else reg itlb_en_r; reg dis_spr_access_frst_clk; reg dis_spr_access_scnd_clk; `endif // // Implemented bits inside match and translate registers // // itlbwYmrX: vpn 31-10 v 0 // itlbwYtrX: ppn 31-10 uxe 7 sxe 6 // // itlb memory width: // 19 bits for ppn // 13 bits for vpn // 1 bit for valid // 2 bits for protection // 1 bit for cache inhibit // // icpu_adr_o // `ifdef OR1200_REGISTERED_OUTPUTS wire [31:0] icpu_adr_boot = boot_adr; always @(`OR1200_RST_EVENT rst or posedge clk) // default value if (rst == `OR1200_RST_VALUE) begin // select async. value due to reset state icpu_adr_default <= 32'h0000_0100; icpu_adr_select <= 1'b1; end // selected value (different from default) is written // into FF after reset state else if (icpu_adr_select) begin // dynamic value can only be assigned to FF out of reset! icpu_adr_default <= icpu_adr_boot; // select FF value icpu_adr_select <= 1'b0; end else begin icpu_adr_default <= icpu_adr_i; end // select async. value for boot address after reset - PC jumps to the address // selected after boot! //assign icpu_adr_boot = {(boot_adr_sel_i ? `OR1200_EXCEPT_EPH1_P : // `OR1200_EXCEPT_EPH0_P), 12'h100} ; always @(icpu_adr_boot or icpu_adr_default or icpu_adr_select) if (icpu_adr_select) // async. value is selected due to reset state icpu_adr_o = icpu_adr_boot ; else // FF value is selected 2nd clock after reset state icpu_adr_o = icpu_adr_default ; `else Unsupported !!! `endif // // Page cross // // Asserted when CPU address crosses page boundary. Most of the time it is zero. // assign page_cross = icpu_adr_i[31:`OR1200_IMMU_PS] != icpu_vpn_r; // // Register icpu_adr_i's VPN for use when IMMU is not enabled but PPN is expected to come // one clock cycle after offset part. // always @(posedge clk or `OR1200_RST_EVENT rst) if (rst == `OR1200_RST_VALUE) icpu_vpn_r <= {32-`OR1200_IMMU_PS{1'b0}}; else icpu_vpn_r <= icpu_adr_i[31:`OR1200_IMMU_PS]; `ifdef OR1200_NO_IMMU // // Put all outputs in inactive state // assign spr_dat_o = 32'h00000000; assign qmemimmu_adr_o = icpu_adr_i; assign icpu_tag_o = qmemimmu_tag_i; assign qmemimmu_cycstb_o = icpu_cycstb_i & ~page_cross; assign icpu_rty_o = qmemimmu_rty_i; assign icpu_err_o = qmemimmu_err_i; assign qmemimmu_ci_o = `OR1200_IMMU_CI; `ifdef OR1200_BIST assign mbist_so_o = mbist_si_i; `endif `else // // ITLB SPR access // // 1200 - 12FF itlbmr w0 // 1200 - 123F itlbmr w0 [63:0] // // 1300 - 13FF itlbtr w0 // 1300 - 133F itlbtr w0 [63:0] // assign itlb_spr_access = spr_cs & ~dis_spr_access_scnd_clk; // // Disable ITLB SPR access // // This flops are used to mask ITLB miss/fault exception // during first & second clock cycles of accessing ITLB SPR. In // subsequent clock cycles it is assumed that ITLB SPR // access was accomplished and that normal instruction fetching // can proceed. // // spr_cs sets dis_spr_access_frst_clk and icpu_rty_o clears it. // dis_spr_access_frst_clk sets dis_spr_access_scnd_clk and // icpu_rty_o clears it. // always @(posedge clk or `OR1200_RST_EVENT rst) if (rst == `OR1200_RST_VALUE) dis_spr_access_frst_clk <= 1'b0; else if (!icpu_rty_o) dis_spr_access_frst_clk <= 1'b0; else if (spr_cs) dis_spr_access_frst_clk <= 1'b1; always @(posedge clk or `OR1200_RST_EVENT rst) if (rst == `OR1200_RST_VALUE) dis_spr_access_scnd_clk <= 1'b0; else if (!icpu_rty_o) dis_spr_access_scnd_clk <= 1'b0; else if (dis_spr_access_frst_clk) dis_spr_access_scnd_clk <= 1'b1; // // Tags: // // OR1200_ITAG_TE - TLB miss Exception // OR1200_ITAG_PE - Page fault Exception // assign icpu_tag_o = miss ? `OR1200_ITAG_TE : fault ? `OR1200_ITAG_PE : qmemimmu_tag_i; // // icpu_rty_o // // assign icpu_rty_o = !icpu_err_o & qmemimmu_rty_i; //assign icpu_rty_o = qmemimmu_rty_i | itlb_spr_access & immu_en; assign icpu_rty_o = qmemimmu_rty_i; // // icpu_err_o // assign icpu_err_o = miss | fault | qmemimmu_err_i; // // Assert itlb_en_r after one clock cycle and when there is no // ITLB SPR access // always @(posedge clk or `OR1200_RST_EVENT rst) if (rst == `OR1200_RST_VALUE) itlb_en_r <= 1'b0; else itlb_en_r <= itlb_en & ~itlb_spr_access; // // ITLB lookup successful // assign itlb_done = itlb_en_r & ~page_cross; // // Cut transfer when access (mtspr/mfspr) to/from ITLB occure or if something goes // wrong with translation. If IC is disabled, use delayed signals. // // assign qmemimmu_cycstb_o = (!ic_en & immu_en) ? ~(miss | fault) & icpu_cycstb_i & ~page_cross : (miss | fault) ? 1'b0 : icpu_cycstb_i & ~page_cross; // DL //assign qmemimmu_cycstb_o = immu_en ? ~(miss | fault) & icpu_cycstb_i & ~page_cross & itlb_done : icpu_cycstb_i & ~page_cross; assign qmemimmu_cycstb_o = immu_en ? ~(miss | fault) & icpu_cycstb_i & ~page_cross & itlb_done & ~itlb_spr_access : icpu_cycstb_i & ~page_cross; // // Cache Inhibit // // Cache inhibit is not really needed for instruction memory subsystem. // If we would doq it, we would doq it like this. // assign qmemimmu_ci_o = immu_en ? itlb_done & itlb_ci : `OR1200_IMMU_CI; // However this causes an async combinatorial loop so we stick to // no cache inhibit. //assign qmemimmu_ci_o = `OR1200_IMMU_CI; // Cache inhibit without an async combinatorial loop assign qmemimmu_ci_o = immu_en ? itlb_ci : `OR1200_IMMU_CI; // // Physical address is either translated virtual address or // simply equal when IMMU is disabled // //assign qmemimmu_adr_o = itlb_done ? {itlb_ppn, icpu_adr_i[`OR1200_IMMU_PS-1:0]} : {icpu_vpn_r, icpu_adr_i[`OR1200_IMMU_PS-1:0]}; // DL: immu_en assign qmemimmu_adr_o = immu_en & itlb_done ? {itlb_ppn, icpu_adr_i[`OR1200_IMMU_PS-1:2], 2'h0} : {icpu_vpn_r, icpu_adr_i[`OR1200_IMMU_PS-1:2], 2'h0}; reg [31:0] spr_dat_reg; // // Output to SPRS unit // // spr_dat_o is registered on the 1st clock of spr read // so itlb can continue with process during execution of mfspr. always @(posedge clk or `OR1200_RST_EVENT rst) if (rst == `OR1200_RST_VALUE) spr_dat_reg <= 32'h0000_0000; else if (spr_cs & !dis_spr_access_scnd_clk) spr_dat_reg <= itlb_dat_o; assign spr_dat_o = itlb_spr_access ? itlb_dat_o : spr_dat_reg; // // Page fault exception logic // assign fault = itlb_done & ( (!supv & !itlb_uxe) // Execute in user mode not enabled || (supv & !itlb_sxe)); // Execute in supv mode not enabled // // TLB Miss exception logic // assign miss = itlb_done & !itlb_hit; // // ITLB Enable // assign itlb_en = immu_en & icpu_cycstb_i; // // Instantiation of ITLB // or1200_immu_tlb or1200_immu_tlb( // Rst and clk .clk(clk), .rst(rst), // I/F for translation .tlb_en(itlb_en), .vaddr(icpu_adr_i), .hit(itlb_hit), .ppn(itlb_ppn), .uxe(itlb_uxe), .sxe(itlb_sxe), .ci(itlb_ci), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_si_i), .mbist_so_o(mbist_so_o), .mbist_ctrl_i(mbist_ctrl_i), `endif // SPR access .spr_cs(itlb_spr_access), .spr_write(spr_write), .spr_addr(spr_addr), .spr_dat_i(spr_dat_i), .spr_dat_o(itlb_dat_o) ); `endif endmodule
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