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[/] [openrisc/] [trunk/] [orpsocv2/] [rtl/] [verilog/] [or1200/] [or1200_sprs.v] - Rev 848
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////////////////////////////////////////////////////////////////////// //// //// //// OR1200's interface to SPRs //// //// //// //// This file is part of the OpenRISC 1200 project //// //// http://www.opencores.org/project,or1k //// //// //// //// Description //// //// Decoding of SPR addresses and access to SPRs //// //// //// //// To Do: //// //// - make it smaller and faster //// //// //// //// 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_sprs.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_sprs( // Clk & Rst clk, rst, // Internal CPU interface flagforw, flag_we, flag, cyforw, cy_we, carry, ovforw, ov_we, dsx, addrbase, addrofs, dat_i, branch_op, ex_spr_read, ex_spr_write, epcr, eear, esr, except_started, to_wbmux, epcr_we, eear_we, esr_we, pc_we, sr_we, to_sr, sr, spr_dat_cfgr, spr_dat_rf, spr_dat_npc, spr_dat_ppc, spr_dat_mac, boot_adr_sel_i, // Floating point SPR input fpcsr, fpcsr_we, spr_dat_fpu, // From/to other RISC units spr_dat_pic, spr_dat_tt, spr_dat_pm, spr_dat_dmmu, spr_dat_immu, spr_dat_du, spr_addr, spr_dat_o, spr_cs, spr_we, du_addr, du_dat_du, du_read, du_write, du_dat_cpu ); parameter width = `OR1200_OPERAND_WIDTH; // // I/O Ports // // // Internal CPU interface // input clk; // Clock input rst; // Reset input flagforw; // From ALU input flag_we; // From ALU output flag; // SR[F] input cyforw; // From ALU input cy_we; // From ALU output carry; // SR[CY] input ovforw; // From ALU input ov_we; // From ALU input dsx; // From except input [width-1:0] addrbase; // SPR base address input [15:0] addrofs; // SPR offset input [width-1:0] dat_i; // SPR write data input ex_spr_read; // l.mfspr in EX input ex_spr_write; // l.mtspr in EX input [`OR1200_BRANCHOP_WIDTH-1:0] branch_op; // Branch operation input [width-1:0] epcr /* verilator public */;// EPCR0 input [width-1:0] eear /* verilator public */;// EEAR0 input [`OR1200_SR_WIDTH-1:0] esr /* verilator public */; // ESR0 input except_started; // Exception was started output [width-1:0] to_wbmux; // For l.mfspr output epcr_we; // EPCR0 write enable output eear_we; // EEAR0 write enable output esr_we; // ESR0 write enable output pc_we; // PC write enable output sr_we; // Write enable SR output [`OR1200_SR_WIDTH-1:0] to_sr; // Data to SR output [`OR1200_SR_WIDTH-1:0] sr /* verilator public */;// SR input [31:0] spr_dat_cfgr; // Data from CFGR input [31:0] spr_dat_rf; // Data from RF input [31:0] spr_dat_npc; // Data from NPC input [31:0] spr_dat_ppc; // Data from PPC input [31:0] spr_dat_mac; // Data from MAC input boot_adr_sel_i; input [`OR1200_FPCSR_WIDTH-1:0] fpcsr; // FPCSR output fpcsr_we; // Write enable FPCSR input [31:0] spr_dat_fpu; // Data from FPU // // To/from other RISC units // input [31:0] spr_dat_pic; // Data from PIC input [31:0] spr_dat_tt; // Data from TT input [31:0] spr_dat_pm; // Data from PM input [31:0] spr_dat_dmmu; // Data from DMMU input [31:0] spr_dat_immu; // Data from IMMU input [31:0] spr_dat_du; // Data from DU output [31:0] spr_addr; // SPR Address output [31:0] spr_dat_o; // Data to unit output [31:0] spr_cs; // Unit select output spr_we; // SPR write enable // // To/from Debug Unit // input [width-1:0] du_addr; // Address input [width-1:0] du_dat_du; // Data from DU to SPRS input du_read; // Read qualifier input du_write; // Write qualifier output [width-1:0] du_dat_cpu; // Data from SPRS to DU // // Internal regs & wires // reg [`OR1200_SR_WIDTH-1:0] sr_reg; // SR reg sr_reg_bit_eph; // SR_EPH bit reg sr_reg_bit_eph_select;// SR_EPH select wire sr_reg_bit_eph_muxed;// SR_EPH muxed bit reg [`OR1200_SR_WIDTH-1:0] sr; // SR reg [width-1:0] to_wbmux; // For l.mfspr wire cfgr_sel; // Select for cfg regs wire rf_sel; // Select for RF wire npc_sel; // Select for NPC wire ppc_sel; // Select for PPC wire sr_sel; // Select for SR wire epcr_sel; // Select for EPCR0 wire eear_sel; // Select for EEAR0 wire esr_sel; // Select for ESR0 wire fpcsr_sel; // Select for FPCSR wire [31:0] sys_data;// Read data from system SPRs wire du_access;// Debug unit access reg [31:0] unqualified_cs; // Unqualified selects wire ex_spr_write; // jb // // Decide if it is debug unit access // assign du_access = du_read | du_write; // // Generate SPR address from base address and offset // OR from debug unit address // assign spr_addr = du_access ? du_addr : (addrbase | {16'h0000, addrofs}); // // SPR is written by debug unit or by l.mtspr // assign spr_dat_o = du_write ? du_dat_du : dat_i; // // debug unit data input: // - read of SPRS by debug unit // - write into debug unit SPRs by debug unit itself // - write into debug unit SPRs by l.mtspr // assign du_dat_cpu = du_read ? to_wbmux : du_write ? du_dat_du : dat_i; // // Write into SPRs when DU or l.mtspr // assign spr_we = du_write | ( ex_spr_write & !du_access ); // // Qualify chip selects // assign spr_cs = unqualified_cs & {32{du_read | du_write | ex_spr_read | (ex_spr_write & sr[`OR1200_SR_SM])}}; // // Decoding of groups // always @(spr_addr) case (spr_addr[`OR1200_SPR_GROUP_BITS]) // synopsys parallel_case `OR1200_SPR_GROUP_WIDTH'd00: unqualified_cs = 32'b00000000_00000000_00000000_00000001; `OR1200_SPR_GROUP_WIDTH'd01: unqualified_cs = 32'b00000000_00000000_00000000_00000010; `OR1200_SPR_GROUP_WIDTH'd02: unqualified_cs = 32'b00000000_00000000_00000000_00000100; `OR1200_SPR_GROUP_WIDTH'd03: unqualified_cs = 32'b00000000_00000000_00000000_00001000; `OR1200_SPR_GROUP_WIDTH'd04: unqualified_cs = 32'b00000000_00000000_00000000_00010000; `OR1200_SPR_GROUP_WIDTH'd05: unqualified_cs = 32'b00000000_00000000_00000000_00100000; `OR1200_SPR_GROUP_WIDTH'd06: unqualified_cs = 32'b00000000_00000000_00000000_01000000; `OR1200_SPR_GROUP_WIDTH'd07: unqualified_cs = 32'b00000000_00000000_00000000_10000000; `OR1200_SPR_GROUP_WIDTH'd08: unqualified_cs = 32'b00000000_00000000_00000001_00000000; `OR1200_SPR_GROUP_WIDTH'd09: unqualified_cs = 32'b00000000_00000000_00000010_00000000; `OR1200_SPR_GROUP_WIDTH'd10: unqualified_cs = 32'b00000000_00000000_00000100_00000000; `OR1200_SPR_GROUP_WIDTH'd11: unqualified_cs = 32'b00000000_00000000_00001000_00000000; `OR1200_SPR_GROUP_WIDTH'd12: unqualified_cs = 32'b00000000_00000000_00010000_00000000; `OR1200_SPR_GROUP_WIDTH'd13: unqualified_cs = 32'b00000000_00000000_00100000_00000000; `OR1200_SPR_GROUP_WIDTH'd14: unqualified_cs = 32'b00000000_00000000_01000000_00000000; `OR1200_SPR_GROUP_WIDTH'd15: unqualified_cs = 32'b00000000_00000000_10000000_00000000; `OR1200_SPR_GROUP_WIDTH'd16: unqualified_cs = 32'b00000000_00000001_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd17: unqualified_cs = 32'b00000000_00000010_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd18: unqualified_cs = 32'b00000000_00000100_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd19: unqualified_cs = 32'b00000000_00001000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd20: unqualified_cs = 32'b00000000_00010000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd21: unqualified_cs = 32'b00000000_00100000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd22: unqualified_cs = 32'b00000000_01000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd23: unqualified_cs = 32'b00000000_10000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd24: unqualified_cs = 32'b00000001_00000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd25: unqualified_cs = 32'b00000010_00000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd26: unqualified_cs = 32'b00000100_00000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd27: unqualified_cs = 32'b00001000_00000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd28: unqualified_cs = 32'b00010000_00000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd29: unqualified_cs = 32'b00100000_00000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd30: unqualified_cs = 32'b01000000_00000000_00000000_00000000; `OR1200_SPR_GROUP_WIDTH'd31: unqualified_cs = 32'b10000000_00000000_00000000_00000000; endcase // // SPRs System Group // // // What to write into SR // assign to_sr[`OR1200_SR_FO:`OR1200_SR_OVE] = (except_started) ? {sr[`OR1200_SR_FO:`OR1200_SR_EPH],dsx,1'b0} : (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_FO:`OR1200_SR_OVE] : (spr_we && sr_sel) ? {1'b1, spr_dat_o[`OR1200_SR_FO-1:`OR1200_SR_OVE]} : sr[`OR1200_SR_FO:`OR1200_SR_OVE]; assign to_sr[`OR1200_SR_TED] = (except_started) ? 1'b1 : (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_TED] : (spr_we && sr_sel) ? spr_dat_o[`OR1200_SR_TED] : sr[`OR1200_SR_TED]; assign to_sr[`OR1200_SR_OV] = (except_started) ? sr[`OR1200_SR_OV] : (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_OV] : ov_we ? ovforw : (spr_we && sr_sel) ? spr_dat_o[`OR1200_SR_OV] : sr[`OR1200_SR_OV]; assign to_sr[`OR1200_SR_CY] = (except_started) ? sr[`OR1200_SR_CY] : (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_CY] : cy_we ? cyforw : (spr_we && sr_sel) ? spr_dat_o[`OR1200_SR_CY] : sr[`OR1200_SR_CY]; assign to_sr[`OR1200_SR_F] = (except_started) ? sr[`OR1200_SR_F] : (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_F] : flag_we ? flagforw : (spr_we && sr_sel) ? spr_dat_o[`OR1200_SR_F] : sr[`OR1200_SR_F]; assign to_sr[`OR1200_SR_CE:`OR1200_SR_SM] = (except_started) ? {sr[`OR1200_SR_CE:`OR1200_SR_LEE], 2'b00, sr[`OR1200_SR_ICE:`OR1200_SR_DCE], 3'b001} : (branch_op == `OR1200_BRANCHOP_RFE) ? esr[`OR1200_SR_CE:`OR1200_SR_SM] : (spr_we && sr_sel) ? spr_dat_o[`OR1200_SR_CE:`OR1200_SR_SM] : sr[`OR1200_SR_CE:`OR1200_SR_SM]; // // Selects for system SPRs // assign cfgr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:4] == `OR1200_SPR_CFGR)); assign rf_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:5] == `OR1200_SPR_RF)); assign npc_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_NPC)); assign ppc_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_PPC)); assign sr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_SR)); assign epcr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_EPCR)); assign eear_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_EEAR)); assign esr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_ESR)); assign fpcsr_sel = (spr_cs[`OR1200_SPR_GROUP_SYS] && (spr_addr[10:0] == `OR1200_SPR_FPCSR)); // // Write enables for system SPRs // assign sr_we = (spr_we && sr_sel) | (branch_op == `OR1200_BRANCHOP_RFE) | flag_we | cy_we | ov_we; assign pc_we = (du_write && (npc_sel | ppc_sel)); assign epcr_we = (spr_we && epcr_sel); assign eear_we = (spr_we && eear_sel); assign esr_we = (spr_we && esr_sel); assign fpcsr_we = (spr_we && fpcsr_sel); // // Output from system SPRs // assign sys_data = (spr_dat_cfgr & {32{cfgr_sel}}) | (spr_dat_rf & {32{rf_sel}}) | (spr_dat_npc & {32{npc_sel}}) | (spr_dat_ppc & {32{ppc_sel}}) | ({{32-`OR1200_SR_WIDTH{1'b0}},sr} & {32{sr_sel}}) | (epcr & {32{epcr_sel}}) | (eear & {32{eear_sel}}) | ({{32-`OR1200_FPCSR_WIDTH{1'b0}},fpcsr} & {32{fpcsr_sel}}) | ({{32-`OR1200_SR_WIDTH{1'b0}},esr} & {32{esr_sel}}); // // Flag alias // assign flag = sr[`OR1200_SR_F]; // // Carry alias // assign carry = sr[`OR1200_SR_CY]; // // Supervision register // always @(posedge clk or `OR1200_RST_EVENT rst) if (rst == `OR1200_RST_VALUE) sr_reg <= {2'b01, // Fixed one. `OR1200_SR_EPH_DEF, {`OR1200_SR_WIDTH-4{1'b0}}, 1'b1}; else if (except_started) sr_reg <= to_sr[`OR1200_SR_WIDTH-1:0]; else if (sr_we) sr_reg <= to_sr[`OR1200_SR_WIDTH-1:0]; // EPH part of Supervision register always @(posedge clk or `OR1200_RST_EVENT rst) // default value if (rst == `OR1200_RST_VALUE) begin sr_reg_bit_eph <= `OR1200_SR_EPH_DEF; // select async. value due to reset state sr_reg_bit_eph_select <= 1'b1; end // selected value (different from default) is written into FF after reset // state else if (sr_reg_bit_eph_select) begin // dynamic value can only be assigned to FF out of reset! sr_reg_bit_eph <= boot_adr_sel_i; sr_reg_bit_eph_select <= 1'b0; // select FF value end else if (sr_we) begin sr_reg_bit_eph <= to_sr[`OR1200_SR_EPH]; end // select async. value of EPH bit after reset assign sr_reg_bit_eph_muxed = (sr_reg_bit_eph_select) ? boot_adr_sel_i : sr_reg_bit_eph; // EPH part joined together with rest of Supervision register always @(sr_reg or sr_reg_bit_eph_muxed) sr = {sr_reg[`OR1200_SR_WIDTH-1:`OR1200_SR_WIDTH-2], sr_reg_bit_eph_muxed, sr_reg[`OR1200_SR_WIDTH-4:0]}; `ifdef verilator // Function to access various sprs (for Verilator). Have to hide this from // simulator, since functions with no inputs are not allowed in IEEE // 1364-2001. function [31:0] get_sr; // verilator public get_sr = {{32-`OR1200_SR_WIDTH{1'b0}},sr}; endfunction // get_sr function [31:0] get_epcr; // verilator public get_epcr = epcr; endfunction // get_epcr function [31:0] get_eear; // verilator public get_eear = eear; endfunction // get_eear function [31:0] get_esr; // verilator public get_esr = {{32-`OR1200_SR_WIDTH{1'b0}},esr}; endfunction // get_esr `endif // // MTSPR/MFSPR interface // always @(spr_addr or sys_data or spr_dat_mac or spr_dat_pic or spr_dat_pm or spr_dat_fpu or spr_dat_dmmu or spr_dat_immu or spr_dat_du or spr_dat_tt) begin casez (spr_addr[`OR1200_SPR_GROUP_BITS]) // synopsys parallel_case `OR1200_SPR_GROUP_SYS: to_wbmux = sys_data; `OR1200_SPR_GROUP_TT: to_wbmux = spr_dat_tt; `OR1200_SPR_GROUP_PIC: to_wbmux = spr_dat_pic; `OR1200_SPR_GROUP_PM: to_wbmux = spr_dat_pm; `OR1200_SPR_GROUP_DMMU: to_wbmux = spr_dat_dmmu; `OR1200_SPR_GROUP_IMMU: to_wbmux = spr_dat_immu; `OR1200_SPR_GROUP_MAC: to_wbmux = spr_dat_mac; `OR1200_SPR_GROUP_FPU: to_wbmux = spr_dat_fpu; default: //`OR1200_SPR_GROUP_DU: to_wbmux = spr_dat_du; endcase end endmodule
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