cvw/src/privileged/csrm.sv

///////////////////////////////////////////
// csrm.sv
//
// Written: David_Harris@hmc.edu 9 January 2021
// Modified: 
//          dottolia@hmc.edu 7 April 2021
//
// Purpose: Machine-Mode Control and Status Registers
//          See RISC-V Privileged Mode Specification 20190608 
// Note: the CSRs do not support the following optional features
//   - Disabling portions of the instruction set with bits of the MISA register
//   - Changing from RV64 to RV32 by writing the SXL/UXL bits of the STATUS register
//
// Documentation: RISC-V System on Chip Design Chapter 5
//
// A component of the CORE-V-WALLY configurable RISC-V project.
// 
// Copyright (C) 2021-23 Harvey Mudd College & Oklahoma State University
//
// SPDX-License-Identifier: Apache-2.0 WITH SHL-2.1
//
// Licensed under the Solderpad Hardware License v 2.1 (the “License”); you may not use this file 
// except in compliance with the License, or, at your option, the Apache License version 2.0. You 
// may obtain a copy of the License at
//
// https://solderpad.org/licenses/SHL-2.1/
//
// Unless required by applicable law or agreed to in writing, any work distributed under the 
// License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, 
// either express or implied. See the License for the specific language governing permissions 
// and limitations under the License.
////////////////////////////////////////////////////////////////////////////////////////////////

module csrm import cvw::*;  #(parameter cvw_t P,
  // Machine CSRs
  MVENDORID = 12'hF11,
  MARCHID = 12'hF12,
  MIMPID = 12'hF13,
  MHARTID = 12'hF14,
  MCONFIGPTR = 12'hF15,
  MSTATUS = 12'h300,
  MISA_ADR = 12'h301,
  MEDELEG = 12'h302,
  MIDELEG = 12'h303,
  MIE = 12'h304,
  MTVEC = 12'h305,
  MCOUNTEREN = 12'h306,
  MSTATUSH = 12'h310,
  MCOUNTINHIBIT = 12'h320,
  MSCRATCH = 12'h340,
  MEPC = 12'h341,
  MCAUSE = 12'h342,
  MTVAL = 12'h343,
  MIP = 12'h344,
  MTINST = 12'h34A,
  PMPCFG0 = 12'h3A0,
  // .. up to 15 more at consecutive addresses
  PMPADDR0 = 12'h3B0,
  // ... up to 63 more at consecutive addresses
  TSELECT = 12'h7A0,
  TDATA1 = 12'h7A1,
  TDATA2 = 12'h7A2,
  TDATA3 = 12'h7A3,
  DCSR = 12'h7B0,
  DPC = 12'h7B1,
  DSCRATCH0 = 12'h7B2,
  DSCRATCH1 = 12'h7B3,
  // Constants
  ZERO = {(P.XLEN){1'b0}},
  MEDELEG_MASK = 16'hB3FF,
  MIDELEG_MASK = 12'h222 // we choose to not make machine interrupts delegable
) (
  input  logic                    clk, reset, 
  input  logic                    UngatedCSRMWriteM, CSRMWriteM, MTrapM,
  input  logic [11:0]             CSRAdrM,
  input  logic [P.XLEN-1:0]        NextEPCM, NextMtvalM, MSTATUS_REGW, MSTATUSH_REGW,
  input  logic [4:0]              NextCauseM,
  input  logic [P.XLEN-1:0]        CSRWriteValM,
  input  logic [11:0]             MIP_REGW, MIE_REGW,
  output logic [P.XLEN-1:0]        CSRMReadValM, MTVEC_REGW,
  output logic [P.XLEN-1:0]        MEPC_REGW,    
  output logic [31:0]             MCOUNTEREN_REGW, MCOUNTINHIBIT_REGW, 
  output logic [15:0]             MEDELEG_REGW,
  output logic [11:0]             MIDELEG_REGW,
  output var logic [7:0]          PMPCFG_ARRAY_REGW[P.PMP_ENTRIES-1:0],
  output var logic [P.PA_BITS-3:0] PMPADDR_ARRAY_REGW [P.PMP_ENTRIES-1:0],
  output logic                    WriteMSTATUSM, WriteMSTATUSHM,
  output logic                    IllegalCSRMAccessM, IllegalCSRMWriteReadonlyM
);

  logic [P.XLEN-1:0]               MISA_REGW, MHARTID_REGW;
  logic [P.XLEN-1:0]               MSCRATCH_REGW, MTVAL_REGW, MCAUSE_REGW;
  logic                           WriteMTVECM, WriteMEDELEGM, WriteMIDELEGM;
  logic                           WriteMSCRATCHM, WriteMEPCM, WriteMCAUSEM, WriteMTVALM;
  logic                           WriteMCOUNTERENM, WriteMCOUNTINHIBITM;

 // There are PMP_ENTRIES = 0, 16, or 64 PMPADDR registers, each of which has its own flop
  genvar i;
  if (P.PMP_ENTRIES > 0) begin:pmp
    logic [P.PMP_ENTRIES-1:0] WritePMPCFGM;
    logic [P.PMP_ENTRIES-1:0] WritePMPADDRM ; 
    logic [P.PMP_ENTRIES-1:0] ADDRLocked, CFGLocked;
    for(i=0; i<P.PMP_ENTRIES; i++) begin
      // when the lock bit is set, don't allow writes to the PMPCFG or PMPADDR
      // also, when the lock bit of the next entry is set and the next entry is TOR, don't allow writes to this entry PMPADDR
      assign CFGLocked[i] = PMPCFG_ARRAY_REGW[i][7];
      if (i == P.PMP_ENTRIES-1) 
        assign ADDRLocked[i] = PMPCFG_ARRAY_REGW[i][7];
      else
        assign ADDRLocked[i] = PMPCFG_ARRAY_REGW[i][7] | (PMPCFG_ARRAY_REGW[i+1][7] & PMPCFG_ARRAY_REGW[i+1][4:3] == 2'b01);
      
      assign WritePMPADDRM[i] = (CSRMWriteM & (CSRAdrM == (PMPADDR0+i))) & ~ADDRLocked[i];
      flopenr #(P.PA_BITS-2) PMPADDRreg(clk, reset, WritePMPADDRM[i], CSRWriteValM[P.PA_BITS-3:0], PMPADDR_ARRAY_REGW[i]);
      if (P.XLEN==64) begin
        assign WritePMPCFGM[i] = (CSRMWriteM & (CSRAdrM == (PMPCFG0+2*(i/8)))) & ~CFGLocked[i];
        flopenr #(8) PMPCFGreg(clk, reset, WritePMPCFGM[i], CSRWriteValM[(i%8)*8+7:(i%8)*8], PMPCFG_ARRAY_REGW[i]);
      end else begin
        assign WritePMPCFGM[i]  = (CSRMWriteM & (CSRAdrM == (PMPCFG0+i/4))) & ~CFGLocked[i];
        flopenr #(8) PMPCFGreg(clk, reset, WritePMPCFGM[i], CSRWriteValM[(i%4)*8+7:(i%4)*8], PMPCFG_ARRAY_REGW[i]);
      end
    end
  end

  localparam MISA_26 = (P.MISA) & 32'h03ffffff;

  // MISA is hardwired.  Spec says it could be written to disable features, but this is not supported by Wally
  assign MISA_REGW = {(P.XLEN == 32 ? 2'b01 : 2'b10), {(P.XLEN-28){1'b0}}, MISA_26[25:0]};

  // MHARTID is hardwired. It only exists as a signal so that the testbench can easily see it.
  assign MHARTID_REGW = 0;

  // Write machine Mode CSRs 
  assign WriteMSTATUSM = CSRMWriteM & (CSRAdrM == MSTATUS);
  assign WriteMSTATUSHM = CSRMWriteM & (CSRAdrM == MSTATUSH)& (P.XLEN==32);
  assign WriteMTVECM = CSRMWriteM & (CSRAdrM == MTVEC);
  assign WriteMEDELEGM = CSRMWriteM & (CSRAdrM == MEDELEG);
  assign WriteMIDELEGM = CSRMWriteM & (CSRAdrM == MIDELEG);
  assign WriteMSCRATCHM = CSRMWriteM & (CSRAdrM == MSCRATCH);
  assign WriteMEPCM = MTrapM | (CSRMWriteM & (CSRAdrM == MEPC));
  assign WriteMCAUSEM = MTrapM | (CSRMWriteM & (CSRAdrM == MCAUSE));
  assign WriteMTVALM = MTrapM | (CSRMWriteM & (CSRAdrM == MTVAL));
  assign WriteMCOUNTERENM = CSRMWriteM & (CSRAdrM == MCOUNTEREN);
  assign WriteMCOUNTINHIBITM = CSRMWriteM & (CSRAdrM == MCOUNTINHIBIT);

  assign IllegalCSRMWriteReadonlyM = UngatedCSRMWriteM & (CSRAdrM == MVENDORID | CSRAdrM == MARCHID | CSRAdrM == MIMPID | CSRAdrM == MHARTID);

  // CSRs
  flopenr #(P.XLEN) MTVECreg(clk, reset, WriteMTVECM, {CSRWriteValM[P.XLEN-1:2], 1'b0, CSRWriteValM[0]}, MTVEC_REGW); 
  if (P.S_SUPPORTED) begin:deleg // DELEG registers should exist
    flopenr #(16) MEDELEGreg(clk, reset, WriteMEDELEGM, CSRWriteValM[15:0] & MEDELEG_MASK, MEDELEG_REGW);
    flopenr #(12) MIDELEGreg(clk, reset, WriteMIDELEGM, CSRWriteValM[11:0] & MIDELEG_MASK, MIDELEG_REGW);
  end else assign {MEDELEG_REGW, MIDELEG_REGW} = 0;

  flopenr #(P.XLEN) MSCRATCHreg(clk, reset, WriteMSCRATCHM, CSRWriteValM, MSCRATCH_REGW);
  flopenr #(P.XLEN) MEPCreg(clk, reset, WriteMEPCM, NextEPCM, MEPC_REGW); 
  flopenr #(P.XLEN) MCAUSEreg(clk, reset, WriteMCAUSEM, {NextCauseM[4], {(P.XLEN-5){1'b0}}, NextCauseM[3:0]}, MCAUSE_REGW);
  if(P.QEMU) assign MTVAL_REGW = '0; // MTVAL tied to 0 in QEMU configuration
  else flopenr #(P.XLEN) MTVALreg(clk, reset, WriteMTVALM, NextMtvalM, MTVAL_REGW);
  flopenr #(32)   MCOUNTINHIBITreg(clk, reset, WriteMCOUNTINHIBITM, CSRWriteValM[31:0], MCOUNTINHIBIT_REGW);
  if (P.U_SUPPORTED) begin: mcounteren // MCOUNTEREN only exists when user mode is supported
    flopenr #(32)   MCOUNTERENreg(clk, reset, WriteMCOUNTERENM, CSRWriteValM[31:0], MCOUNTEREN_REGW);
  end else assign MCOUNTEREN_REGW = '0;

  // Read machine mode CSRs
  // verilator lint_off WIDTH
  logic [5:0] entry;
  always_comb begin
    entry = '0;
    IllegalCSRMAccessM = !(P.S_SUPPORTED) & (CSRAdrM == MEDELEG | CSRAdrM == MIDELEG); // trap on DELEG register access when no S or N-mode
    if (CSRAdrM >= PMPADDR0 & CSRAdrM < PMPADDR0 + P.PMP_ENTRIES) // reading a PMP entry
      CSRMReadValM = {{(P.XLEN-(P.PA_BITS-2)){1'b0}}, PMPADDR_ARRAY_REGW[CSRAdrM - PMPADDR0]};
    else if (CSRAdrM >= PMPCFG0 & CSRAdrM < PMPCFG0 + P.PMP_ENTRIES/4 & (P.XLEN==32 | CSRAdrM[0] == 0)) begin
      // only odd-numbered PMPCFG entries exist in RV64
      if (P.XLEN==64) begin
        entry = ({CSRAdrM[11:1], 1'b0} - PMPCFG0)*4; // disregard odd entries in RV64
        CSRMReadValM = {PMPCFG_ARRAY_REGW[entry+7],PMPCFG_ARRAY_REGW[entry+6],PMPCFG_ARRAY_REGW[entry+5],PMPCFG_ARRAY_REGW[entry+4],
                        PMPCFG_ARRAY_REGW[entry+3],PMPCFG_ARRAY_REGW[entry+2],PMPCFG_ARRAY_REGW[entry+1],PMPCFG_ARRAY_REGW[entry]};
      end else begin
        entry = (CSRAdrM - PMPCFG0)*4;
        CSRMReadValM = {PMPCFG_ARRAY_REGW[entry+3],PMPCFG_ARRAY_REGW[entry+2],PMPCFG_ARRAY_REGW[entry+1],PMPCFG_ARRAY_REGW[entry]};
      end
    end
    else case (CSRAdrM) 
      MISA_ADR:  CSRMReadValM = MISA_REGW;
      MVENDORID: CSRMReadValM = 0;
      MARCHID:   CSRMReadValM = 0;
      MIMPID:    CSRMReadValM = {{P.XLEN-12{1'b0}}, 12'h100}; // pipelined implementation
      MHARTID:   CSRMReadValM = MHARTID_REGW; // hardwired to 0 
      MCONFIGPTR: CSRMReadValM = 0; // hardwired to 0
      MSTATUS:   CSRMReadValM = MSTATUS_REGW;
      MSTATUSH:  CSRMReadValM = MSTATUSH_REGW; 
      MTVEC:     CSRMReadValM = MTVEC_REGW;
      MEDELEG:   CSRMReadValM = {{(P.XLEN-16){1'b0}}, MEDELEG_REGW};
      MIDELEG:   CSRMReadValM = {{(P.XLEN-12){1'b0}}, MIDELEG_REGW};
      MIP:       CSRMReadValM = {{(P.XLEN-12){1'b0}}, MIP_REGW};
      MIE:       CSRMReadValM = {{(P.XLEN-12){1'b0}}, MIE_REGW};
      MSCRATCH:  CSRMReadValM = MSCRATCH_REGW;
      MEPC:      CSRMReadValM = MEPC_REGW;
      MCAUSE:    CSRMReadValM = MCAUSE_REGW;
      MTVAL:     CSRMReadValM = MTVAL_REGW;
      MTINST:    CSRMReadValM = 0; // implemented as trivial zero
      MCOUNTEREN:CSRMReadValM = {{(P.XLEN-32){1'b0}}, MCOUNTEREN_REGW};
      MCOUNTINHIBIT:CSRMReadValM = {{(P.XLEN-32){1'b0}}, MCOUNTINHIBIT_REGW};

      default: begin
                 CSRMReadValM = 0;
                 IllegalCSRMAccessM = 1;
      end
    endcase
  end
  // verilator lint_on WIDTH
endmodule
Initial Checkin 2021-01-15 04:37:51 +00:00			`///////////////////////////////////////////`
			`// csrm.sv`
			`//`
			`// Written: David_Harris@hmc.edu 9 January 2021`
			`// Modified:`
Cause an Illegal Instruction Exception when attempting to write readonly CSRs 2021-04-08 09:12:54 +00:00			`// dottolia@hmc.edu 7 April 2021`
Initial Checkin 2021-01-15 04:37:51 +00:00			`//`
			`// Purpose: Machine-Mode Control and Status Registers`
			`// See RISC-V Privileged Mode Specification 20190608`
Header comments 2023-01-12 12:35:44 +00:00			`// Note: the CSRs do not support the following optional features`
			`// - Disabling portions of the instruction set with bits of the MISA register`
			`// - Changing from RV64 to RV32 by writing the SXL/UXL bits of the STATUS register`
			`//`
trap comments 2023-01-14 03:44:38 +00:00			`// Documentation: RISC-V System on Chip Design Chapter 5`
			`//`
changed name to CORE-V-WALLY 2023-01-11 23:15:08 +00:00			`// A component of the CORE-V-WALLY configurable RISC-V project.`
Initial Checkin 2021-01-15 04:37:51 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// Copyright (C) 2021-23 Harvey Mudd College & Oklahoma State University`
Initial Checkin 2021-01-15 04:37:51 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// SPDX-License-Identifier: Apache-2.0 WITH SHL-2.1`
Initial Checkin 2021-01-15 04:37:51 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// Licensed under the Solderpad Hardware License v 2.1 (the “License”); you may not use this file`
			`// except in compliance with the License, or, at your option, the Apache License version 2.0. You`
			`// may obtain a copy of the License at`
Initial Checkin 2021-01-15 04:37:51 +00:00			`//`
Changed MIT license to Solderpad License 2023-01-10 19:35:20 +00:00			`// https://solderpad.org/licenses/SHL-2.1/`
			`//`
			`// Unless required by applicable law or agreed to in writing, any work distributed under the`
			`// License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND,`
			`// either express or implied. See the License for the specific language governing permissions`
			`// and limitations under the License.`
Reformatted MIT license to 95 characters 2022-01-07 12:58:40 +00:00			`////////////////////////////////////////////////////////////////////////////////////////////////`
Initial Checkin 2021-01-15 04:37:51 +00:00
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`module csrm import cvw::*; #(parameter cvw_t P,`
csr comments 2023-01-14 04:49:34 +00:00			`// Machine CSRs`
			`MVENDORID = 12'hF11,`
			`MARCHID = 12'hF12,`
			`MIMPID = 12'hF13,`
			`MHARTID = 12'hF14,`
			`MCONFIGPTR = 12'hF15,`
			`MSTATUS = 12'h300,`
			`MISA_ADR = 12'h301,`
			`MEDELEG = 12'h302,`
			`MIDELEG = 12'h303,`
			`MIE = 12'h304,`
			`MTVEC = 12'h305,`
			`MCOUNTEREN = 12'h306,`
			`MSTATUSH = 12'h310,`
			`MCOUNTINHIBIT = 12'h320,`
			`MSCRATCH = 12'h340,`
			`MEPC = 12'h341,`
			`MCAUSE = 12'h342,`
			`MTVAL = 12'h343,`
			`MIP = 12'h344,`
			`MTINST = 12'h34A,`
			`PMPCFG0 = 12'h3A0,`
			`// .. up to 15 more at consecutive addresses`
			`PMPADDR0 = 12'h3B0,`
			`// ... up to 63 more at consecutive addresses`
			`TSELECT = 12'h7A0,`
			`TDATA1 = 12'h7A1,`
			`TDATA2 = 12'h7A2,`
			`TDATA3 = 12'h7A3,`
			`DCSR = 12'h7B0,`
			`DPC = 12'h7B1,`
			`DSCRATCH0 = 12'h7B2,`
			`DSCRATCH1 = 12'h7B3,`
			`// Constants`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`ZERO = {(P.XLEN){1'b0}},`
Reduced number of bits in mcause and medeleg registers 2023-03-29 14:02:09 +00:00			`MEDELEG_MASK = 16'hB3FF,`
csr comments 2023-01-14 04:49:34 +00:00			`MIDELEG_MASK = 12'h222 // we choose to not make machine interrupts delegable`
			`) (`
Fixed all tap/space issue in RTL. 2023-03-24 22:32:25 +00:00			`input logic clk, reset,`
Refactored InstrValidNotFlushed into CSR Write signals 2023-03-31 00:06:09 +00:00			`input logic UngatedCSRMWriteM, CSRMWriteM, MTrapM,`
Fixed all tap/space issue in RTL. 2023-03-24 22:32:25 +00:00			`input logic [11:0] CSRAdrM,`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`input logic [P.XLEN-1:0] NextEPCM, NextMtvalM, MSTATUS_REGW, MSTATUSH_REGW,`
Reduced number of bits in mcause and medeleg registers 2023-03-29 14:02:09 +00:00			`input logic [4:0] NextCauseM,`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`input logic [P.XLEN-1:0] CSRWriteValM,`
Fixed all tap/space issue in RTL. 2023-03-24 22:32:25 +00:00			`input logic [11:0] MIP_REGW, MIE_REGW,`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`output logic [P.XLEN-1:0] CSRMReadValM, MTVEC_REGW,`
			`output logic [P.XLEN-1:0] MEPC_REGW,`
Fixed all tap/space issue in RTL. 2023-03-24 22:32:25 +00:00			`output logic [31:0] MCOUNTEREN_REGW, MCOUNTINHIBIT_REGW,`
Reduced number of bits in mcause and medeleg registers 2023-03-29 14:02:09 +00:00			`output logic [15:0] MEDELEG_REGW,`
Fixed all tap/space issue in RTL. 2023-03-24 22:32:25 +00:00			`output logic [11:0] MIDELEG_REGW,`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`output var logic [7:0] PMPCFG_ARRAY_REGW[P.PMP_ENTRIES-1:0],`
			`output var logic [P.PA_BITS-3:0] PMPADDR_ARRAY_REGW [P.PMP_ENTRIES-1:0],`
Fixed all tap/space issue in RTL. 2023-03-24 22:32:25 +00:00			`output logic WriteMSTATUSM, WriteMSTATUSHM,`
			`output logic IllegalCSRMAccessM, IllegalCSRMWriteReadonlyM`
csr comments 2023-01-14 04:49:34 +00:00			`);`
Initial Checkin 2021-01-15 04:37:51 +00:00
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`logic [P.XLEN-1:0] MISA_REGW, MHARTID_REGW;`
			`logic [P.XLEN-1:0] MSCRATCH_REGW, MTVAL_REGW, MCAUSE_REGW;`
Fixed all tap/space issue in RTL. 2023-03-24 22:32:25 +00:00			`logic WriteMTVECM, WriteMEDELEGM, WriteMIDELEGM;`
			`logic WriteMSCRATCHM, WriteMEPCM, WriteMCAUSEM, WriteMTVALM;`
			`logic WriteMCOUNTERENM, WriteMCOUNTINHIBITM;`
Fixed lint for RV32IC by handling PMP_ENTRIES = 0 in csrm, but may have broken buildroot. 2021-12-30 02:38:42 +00:00
			`// There are PMP_ENTRIES = 0, 16, or 64 PMPADDR registers, each of which has its own flop`
			`genvar i;`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`if (P.PMP_ENTRIES > 0) begin:pmp`
			`logic [P.PMP_ENTRIES-1:0] WritePMPCFGM;`
			`logic [P.PMP_ENTRIES-1:0] WritePMPADDRM ;`
			`logic [P.PMP_ENTRIES-1:0] ADDRLocked, CFGLocked;`
			`for(i=0; i<P.PMP_ENTRIES; i++) begin`
Removed generate statements 2022-01-05 14:35:25 +00:00			`// when the lock bit is set, don't allow writes to the PMPCFG or PMPADDR`
			`// also, when the lock bit of the next entry is set and the next entry is TOR, don't allow writes to this entry PMPADDR`
			`assign CFGLocked[i] = PMPCFG_ARRAY_REGW[i][7];`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`if (i == P.PMP_ENTRIES-1)`
Removed generate statements 2022-01-05 14:35:25 +00:00			`assign ADDRLocked[i] = PMPCFG_ARRAY_REGW[i][7];`
			`else`
			`assign ADDRLocked[i] = PMPCFG_ARRAY_REGW[i][7] \| (PMPCFG_ARRAY_REGW[i+1][7] & PMPCFG_ARRAY_REGW[i+1][4:3] == 2'b01);`

Refactored InstrValidNotFlushed into CSR Write signals 2023-03-31 00:06:09 +00:00			`assign WritePMPADDRM[i] = (CSRMWriteM & (CSRAdrM == (PMPADDR0+i))) & ~ADDRLocked[i];`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`flopenr #(P.PA_BITS-2) PMPADDRreg(clk, reset, WritePMPADDRM[i], CSRWriteValM[P.PA_BITS-3:0], PMPADDR_ARRAY_REGW[i]);`
			`if (P.XLEN==64) begin`
Refactored InstrValidNotFlushed into CSR Write signals 2023-03-31 00:06:09 +00:00			`assign WritePMPCFGM[i] = (CSRMWriteM & (CSRAdrM == (PMPCFG0+2*(i/8)))) & ~CFGLocked[i];`
Removed generate statements 2022-01-05 14:35:25 +00:00			`flopenr #(8) PMPCFGreg(clk, reset, WritePMPCFGM[i], CSRWriteValM[(i%8)8+7:(i%8)8], PMPCFG_ARRAY_REGW[i]);`
			`end else begin`
Refactored InstrValidNotFlushed into CSR Write signals 2023-03-31 00:06:09 +00:00			`assign WritePMPCFGM[i] = (CSRMWriteM & (CSRAdrM == (PMPCFG0+i/4))) & ~CFGLocked[i];`
Removed generate statements 2022-01-05 14:35:25 +00:00			`flopenr #(8) PMPCFGreg(clk, reset, WritePMPCFGM[i], CSRWriteValM[(i%4)8+7:(i%4)8], PMPCFG_ARRAY_REGW[i]);`
Fixed lint for RV32IC by handling PMP_ENTRIES = 0 in csrm, but may have broken buildroot. 2021-12-30 02:38:42 +00:00			`end`
			`end`
Removed generate statements 2022-01-05 14:35:25 +00:00			`end`
Initial Checkin 2021-01-15 04:37:51 +00:00
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`localparam MISA_26 = (P.MISA) & 32'h03ffffff;`
Fix misa synthesis bug (for real now) 2021-04-22 19:35:20 +00:00
Initial Checkin 2021-01-15 04:37:51 +00:00			`// MISA is hardwired. Spec says it could be written to disable features, but this is not supported by Wally`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`assign MISA_REGW = {(P.XLEN == 32 ? 2'b01 : 2'b10), {(P.XLEN-28){1'b0}}, MISA_26[25:0]};`
Initial Checkin 2021-01-15 04:37:51 +00:00
make testbench check the same CSRs that QEMU logs; change CLINT to reset MTIMECMP to -1 so that we don't instantly get a timer interrupt upon reset 2021-07-19 19:13:03 +00:00			`// MHARTID is hardwired. It only exists as a signal so that the testbench can easily see it.`
			`assign MHARTID_REGW = 0;`

Initial Checkin 2021-01-15 04:37:51 +00:00			`// Write machine Mode CSRs`
Refactored InstrValidNotFlushed into CSR Write signals 2023-03-31 00:06:09 +00:00			`assign WriteMSTATUSM = CSRMWriteM & (CSRAdrM == MSTATUS);`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`assign WriteMSTATUSHM = CSRMWriteM & (CSRAdrM == MSTATUSH)& (P.XLEN==32);`
Refactored InstrValidNotFlushed into CSR Write signals 2023-03-31 00:06:09 +00:00			`assign WriteMTVECM = CSRMWriteM & (CSRAdrM == MTVEC);`
			`assign WriteMEDELEGM = CSRMWriteM & (CSRAdrM == MEDELEG);`
			`assign WriteMIDELEGM = CSRMWriteM & (CSRAdrM == MIDELEG);`
			`assign WriteMSCRATCHM = CSRMWriteM & (CSRAdrM == MSCRATCH);`
			`assign WriteMEPCM = MTrapM \| (CSRMWriteM & (CSRAdrM == MEPC));`
			`assign WriteMCAUSEM = MTrapM \| (CSRMWriteM & (CSRAdrM == MCAUSE));`
			`assign WriteMTVALM = MTrapM \| (CSRMWriteM & (CSRAdrM == MTVAL));`
			`assign WriteMCOUNTERENM = CSRMWriteM & (CSRAdrM == MCOUNTEREN);`
			`assign WriteMCOUNTINHIBITM = CSRMWriteM & (CSRAdrM == MCOUNTINHIBIT);`
Initial Checkin 2021-01-15 04:37:51 +00:00
Refactored InstrValidNotFlushed into CSR Write signals 2023-03-31 00:06:09 +00:00			`assign IllegalCSRMWriteReadonlyM = UngatedCSRMWriteM & (CSRAdrM == MVENDORID \| CSRAdrM == MARCHID \| CSRAdrM == MIMPID \| CSRAdrM == MHARTID);`
Cause an Illegal Instruction Exception when attempting to write readonly CSRs 2021-04-08 09:12:54 +00:00
Initial Checkin 2021-01-15 04:37:51 +00:00			`// CSRs`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`flopenr #(P.XLEN) MTVECreg(clk, reset, WriteMTVECM, {CSRWriteValM[P.XLEN-1:2], 1'b0, CSRWriteValM[0]}, MTVEC_REGW);`
			`if (P.S_SUPPORTED) begin:deleg // DELEG registers should exist`
Reduced number of bits in mcause and medeleg registers 2023-03-29 14:02:09 +00:00			`flopenr #(16) MEDELEGreg(clk, reset, WriteMEDELEGM, CSRWriteValM[15:0] & MEDELEG_MASK, MEDELEG_REGW);`
			`flopenr #(12) MIDELEGreg(clk, reset, WriteMIDELEGM, CSRWriteValM[11:0] & MIDELEG_MASK, MIDELEG_REGW);`
Removed Busybear dependencies 2022-02-02 20:28:21 +00:00			`end else assign {MEDELEG_REGW, MIDELEG_REGW} = 0;`
Initial Checkin 2021-01-15 04:37:51 +00:00
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`flopenr #(P.XLEN) MSCRATCHreg(clk, reset, WriteMSCRATCHM, CSRWriteValM, MSCRATCH_REGW);`
			`flopenr #(P.XLEN) MEPCreg(clk, reset, WriteMEPCM, NextEPCM, MEPC_REGW);`
			`flopenr #(P.XLEN) MCAUSEreg(clk, reset, WriteMCAUSEM, {NextCauseM[4], {(P.XLEN-5){1'b0}}, NextCauseM[3:0]}, MCAUSE_REGW);`
			`if(P.QEMU) assign MTVAL_REGW = '0; // MTVAL tied to 0 in QEMU configuration`
			`else flopenr #(P.XLEN) MTVALreg(clk, reset, WriteMTVALM, NextMtvalM, MTVAL_REGW);`
replaced flopenl with flopenr when clearing to 0 2021-10-18 23:53:18 +00:00			`flopenr #(32) MCOUNTINHIBITreg(clk, reset, WriteMCOUNTINHIBITM, CSRWriteValM[31:0], MCOUNTINHIBIT_REGW);`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`if (P.U_SUPPORTED) begin: mcounteren // MCOUNTEREN only exists when user mode is supported`
csr cleanup 2023-01-14 05:25:55 +00:00			`flopenr #(32) MCOUNTERENreg(clk, reset, WriteMCOUNTERENM, CSRWriteValM[31:0], MCOUNTEREN_REGW);`
			`end else assign MCOUNTEREN_REGW = '0;`
Add all PMP addr registers 2021-03-25 01:58:33 +00:00
Initial Checkin 2021-01-15 04:37:51 +00:00			`// Read machine mode CSRs`
Optimized PMP checker logic and added support for configurable number of PMP registers 2021-07-02 15:04:13 +00:00			`// verilator lint_off WIDTH`
Added support for PMP lock bits in csrm and repartitioned design to pass around 8-bit PMPCFG entries 2021-07-04 15:39:59 +00:00			`logic [5:0] entry;`
Initial Checkin 2021-01-15 04:37:51 +00:00			`always_comb begin`
Merged several of the load/store/instruction access faults inside the mmu. Still need to figure out what is wrong with the generation of load page fault when dtlb hit. 2021-07-06 18:43:53 +00:00			`entry = '0;`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`IllegalCSRMAccessM = !(P.S_SUPPORTED) & (CSRAdrM == MEDELEG \| CSRAdrM == MIDELEG); // trap on DELEG register access when no S or N-mode`
			`if (CSRAdrM >= PMPADDR0 & CSRAdrM < PMPADDR0 + P.PMP_ENTRIES) // reading a PMP entry`
			`CSRMReadValM = {{(P.XLEN-(P.PA_BITS-2)){1'b0}}, PMPADDR_ARRAY_REGW[CSRAdrM - PMPADDR0]};`
			`else if (CSRAdrM >= PMPCFG0 & CSRAdrM < PMPCFG0 + P.PMP_ENTRIES/4 & (P.XLEN==32 \| CSRAdrM[0] == 0)) begin`
Fault on writes to odd-numbered PMPCFG in RV64 2023-04-22 22:32:39 +00:00			`// only odd-numbered PMPCFG entries exist in RV64`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`if (P.XLEN==64) begin`
Added support for PMP lock bits in csrm and repartitioned design to pass around 8-bit PMPCFG entries 2021-07-04 15:39:59 +00:00			`entry = ({CSRAdrM[11:1], 1'b0} - PMPCFG0)*4; // disregard odd entries in RV64`
			`CSRMReadValM = {PMPCFG_ARRAY_REGW[entry+7],PMPCFG_ARRAY_REGW[entry+6],PMPCFG_ARRAY_REGW[entry+5],PMPCFG_ARRAY_REGW[entry+4],`
			`PMPCFG_ARRAY_REGW[entry+3],PMPCFG_ARRAY_REGW[entry+2],PMPCFG_ARRAY_REGW[entry+1],PMPCFG_ARRAY_REGW[entry]};`
			`end else begin`
			`entry = (CSRAdrM - PMPCFG0)*4;`
			`CSRMReadValM = {PMPCFG_ARRAY_REGW[entry+3],PMPCFG_ARRAY_REGW[entry+2],PMPCFG_ARRAY_REGW[entry+1],PMPCFG_ARRAY_REGW[entry]};`
			`end`
Optimized PMP checker logic and added support for configurable number of PMP registers 2021-07-02 15:04:13 +00:00			`end`
			`else case (CSRAdrM)`
Initial Checkin 2021-01-15 04:37:51 +00:00			`MISA_ADR: CSRMReadValM = MISA_REGW;`
			`MVENDORID: CSRMReadValM = 0;`
			`MARCHID: CSRMReadValM = 0;`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`MIMPID: CSRMReadValM = {{P.XLEN-12{1'b0}}, 12'h100}; // pipelined implementation`
make testbench check the same CSRs that QEMU logs; change CLINT to reset MTIMECMP to -1 so that we don't instantly get a timer interrupt upon reset 2021-07-19 19:13:03 +00:00			`MHARTID: CSRMReadValM = MHARTID_REGW; // hardwired to 0`
Fixed typo in csrm 2022-05-12 13:55:39 +00:00			`MCONFIGPTR: CSRMReadValM = 0; // hardwired to 0`
Initial Checkin 2021-01-15 04:37:51 +00:00			`MSTATUS: CSRMReadValM = MSTATUS_REGW;`
Added dummy mstatus byte endianness fields tied to 0, mstatush register, removed UIE and UPIE depricated fields 2022-04-25 14:49:00 +00:00			`MSTATUSH: CSRMReadValM = MSTATUSH_REGW;`
Initial Checkin 2021-01-15 04:37:51 +00:00			`MTVEC: CSRMReadValM = MTVEC_REGW;`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`MEDELEG: CSRMReadValM = {{(P.XLEN-16){1'b0}}, MEDELEG_REGW};`
			`MIDELEG: CSRMReadValM = {{(P.XLEN-12){1'b0}}, MIDELEG_REGW};`
			`MIP: CSRMReadValM = {{(P.XLEN-12){1'b0}}, MIP_REGW};`
			`MIE: CSRMReadValM = {{(P.XLEN-12){1'b0}}, MIE_REGW};`
Initial Checkin 2021-01-15 04:37:51 +00:00			`MSCRATCH: CSRMReadValM = MSCRATCH_REGW;`
			`MEPC: CSRMReadValM = MEPC_REGW;`
Resolved ImperasDV receiving incorrect cause values 2023-03-29 22:04:56 +00:00			`MCAUSE: CSRMReadValM = MCAUSE_REGW;`
Initial Checkin 2021-01-15 04:37:51 +00:00			`MTVAL: CSRMReadValM = MTVAL_REGW;`
Added MTINST hardwired to 0, and added timeout of U-mode WFI 2022-04-24 20:00:02 +00:00			`MTINST: CSRMReadValM = 0; // implemented as trivial zero`
The privileged unit is parameterized using Lim's method. 2023-05-26 17:03:46 +00:00			`MCOUNTEREN:CSRMReadValM = {{(P.XLEN-32){1'b0}}, MCOUNTEREN_REGW};`
			`MCOUNTINHIBIT:CSRMReadValM = {{(P.XLEN-32){1'b0}}, MCOUNTINHIBIT_REGW};`
Added support for PMP lock bits in csrm and repartitioned design to pass around 8-bit PMPCFG entries 2021-07-04 15:39:59 +00:00
Initial Checkin 2021-01-15 04:37:51 +00:00			`default: begin`
			`CSRMReadValM = 0;`
			`IllegalCSRMAccessM = 1;`
			`end`
			`endcase`
			`end`
Optimized PMP checker logic and added support for configurable number of PMP registers 2021-07-02 15:04:13 +00:00			`// verilator lint_on WIDTH`
Initial Checkin 2021-01-15 04:37:51 +00:00			`endmodule`