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cvw/wally-pipelined/src/privileged/csrm.sv

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///////////////////////////////////////////
// csrm.sv
//
// Written: David_Harris@hmc.edu 9 January 2021
// Modified:
//
// Purpose: Machine-Mode Control and Status Registers
// See RISC-V Privileged Mode Specification 20190608
//
// A component of the Wally configurable RISC-V project.
//
// Copyright (C) 2021 Harvey Mudd College & Oklahoma State University
//
// Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation
// files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy,
// modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software
// is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
// OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
// BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT
// OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
///////////////////////////////////////////
`include "wally-config.vh"
module csrm #(parameter
// Machine CSRs
MVENDORID = 12'hF11,
MARCHID = 12'hF12,
MIMPID = 12'hF13,
MHARTID = 12'hF14,
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,
PMPCFG0 = 12'h3A0,
PMPCFG1 = 12'h3A1,
PMPCFG2 = 12'h3A2,
PMPCFG3 = 12'h3A3,
PMPADDR0 = 12'h3B0,
//... more physical memory protection
PMPADDR15 = 12'h3BF,
TSELECT = 12'h7A0,
TDATA1 = 12'h7A1,
TDATA2 = 12'h7A2,
TDATA3 = 12'h7A3,
DCSR = 12'h7B0,
DPC = 12'h7B1,
DSCRATCH0 = 12'h7B2,
DSCRATCH1 = 12'h7B3) (
input logic clk, reset,
input logic CSRMWriteM, MTrapM,
input logic [11:0] CSRAdrM,
input logic [`XLEN-1:0] NextEPCM, NextCauseM, NextMtvalM, MSTATUS_REGW,
input logic [`XLEN-1:0] CSRWriteValM,
output logic [`XLEN-1:0] CSRMReadValM, MEPC_REGW, MTVEC_REGW,
output logic [31:0] MCOUNTEREN_REGW, MCOUNTINHIBIT_REGW,
output logic [`XLEN-1:0] MEDELEG_REGW, MIDELEG_REGW,
input logic [11:0] MIP_REGW, MIE_REGW,
output logic WriteMSTATUSM,
output logic IllegalCSRMAccessM
);
logic [`XLEN-1:0] MISA_REGW;
logic [`XLEN-1:0] MSCRATCH_REGW,MCAUSE_REGW, MTVAL_REGW;
logic [63:0] PMPCFG01_REGW, PMPCFG23_REGW; // 64-bit registers in RV64, or two 32-bit registers in RV32
logic [`XLEN-1:0] PMPADDR0_REGW; // will need to add more
logic [`XLEN-1:0] zero = 0;
logic [31:0] allones = {32{1'b1}};
logic [`XLEN-1:0] MEDELEG_MASK = ~(zero | 1'b1 << 11); // medeleg[11] hardwired to zero per Privileged Spec 3.1.8
logic [`XLEN-1:0] MIDELEG_MASK = {{(`XLEN-12){1'b0}}, 12'h222}; // only allow delegating interrupts to supervisor mode
logic WriteMTVECM, WriteMEDELEGM, WriteMIDELEGM;
logic WriteMSCRATCHM, WriteMEPCM, WriteMCAUSEM, WriteMTVALM;
logic WriteMCOUNTERENM, WriteMCOUNTINHIBITM;
logic WritePMPCFG0M, WritePMPCFG2M;
logic WritePMPADDR0M;
logic [25:0] MISAbits = `MISA;
// MISA is hardwired. Spec says it could be written to disable features, but this is not supported by Wally
assign MISA_REGW = {(`XLEN == 32 ? 2'b01 : 2'b10), {(`XLEN-28){1'b0}}, MISAbits};
// Write machine Mode CSRs
assign WriteMSTATUSM = CSRMWriteM && (CSRAdrM == MSTATUS);
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 WritePMPCFG0M = MTrapM | (CSRMWriteM && (CSRAdrM == PMPCFG0));
assign WritePMPCFG2M = MTrapM | (CSRMWriteM && (CSRAdrM == PMPCFG2));
assign WritePMPADDR0M = MTrapM | (CSRMWriteM && (CSRAdrM == PMPADDR0));
assign WriteMCOUNTERENM = CSRMWriteM && (CSRAdrM == MCOUNTEREN);
assign WriteMCOUNTINHIBITM = CSRMWriteM && (CSRAdrM == MCOUNTINHIBIT);
// CSRs
flopenl #(`XLEN) MTVECreg(clk, reset, WriteMTVECM, CSRWriteValM, `RESET_VECTOR, MTVEC_REGW);
generate
if (`S_SUPPORTED | (`U_SUPPORTED & `N_SUPPORTED)) begin // DELEG registers should exist
flopenl #(`XLEN) MEDELEGreg(clk, reset, WriteMEDELEGM, CSRWriteValM & MEDELEG_MASK, zero, MEDELEG_REGW);
flopenl #(`XLEN) MIDELEGreg(clk, reset, WriteMIDELEGM, CSRWriteValM & MIDELEG_MASK, zero, MIDELEG_REGW);
end else begin
assign MEDELEG_REGW = 0;
assign MIDELEG_REGW = 0;
end
endgenerate
// flopenl #(`XLEN) MIPreg(clk, reset, WriteMIPM, CSRWriteValM, zero, MIP_REGW);
// flopenl #(`XLEN) MIEreg(clk, reset, WriteMIEM, CSRWriteValM, zero, MIE_REGW);
flopenr #(`XLEN) MSCRATCHreg(clk, reset, WriteMSCRATCHM, CSRWriteValM, MSCRATCH_REGW);
flopenr #(`XLEN) MEPCreg(clk, reset, WriteMEPCM, NextEPCM, MEPC_REGW);
flopenr #(`XLEN) MCAUSEreg(clk, reset, WriteMCAUSEM, NextCauseM, MCAUSE_REGW);
flopenr #(`XLEN) MTVALreg(clk, reset, WriteMTVALM, NextMtvalM, MTVAL_REGW);
flopenl #(32) MCOUNTERENreg(clk, reset, WriteMCOUNTERENM, CSRWriteValM[31:0], allones, MCOUNTEREN_REGW);
flopenl #(32) MCOUNTINHIBITreg(clk, reset, WriteMCOUNTINHIBITM, CSRWriteValM[31:0], allones, MCOUNTINHIBIT_REGW);
flopenr #(`XLEN) PMPADDR0reg(clk, reset, WritePMPADDR0M, CSRWriteValM, PMPADDR0_REGW);
// PMPCFG registers are a pair of 64-bit in RV64 and four 32-bit in RV32
generate
if (`XLEN==64) begin
flopenr #(`XLEN) PMPCFG01reg(clk, reset, WritePMPCFG0M, CSRWriteValM, PMPCFG01_REGW);
flopenr #(`XLEN) PMPCFG23reg(clk, reset, WritePMPCFG2M, CSRWriteValM, PMPCFG23_REGW);
end else begin
logic WritePMPCFG1M, WritePMPCFG3M;
assign WritePMPCFG1M = MTrapM | (CSRMWriteM && (CSRAdrM == PMPCFG1));
assign WritePMPCFG3M = MTrapM | (CSRMWriteM && (CSRAdrM == PMPCFG3));
flopenr #(`XLEN) PMPCFG0reg(clk, reset, WritePMPCFG0M, CSRWriteValM, PMPCFG01_REGW[31:0]);
flopenr #(`XLEN) PMPCFG1reg(clk, reset, WritePMPCFG1M, CSRWriteValM, PMPCFG01_REGW[63:32]);
flopenr #(`XLEN) PMPCFG2reg(clk, reset, WritePMPCFG2M, CSRWriteValM, PMPCFG23_REGW[31:0]);
flopenr #(`XLEN) PMPCFG3reg(clk, reset, WritePMPCFG3M, CSRWriteValM, PMPCFG23_REGW[63:32]);
end
endgenerate
// Read machine mode CSRs
always_comb begin
IllegalCSRMAccessM = !(`S_SUPPORTED | `U_SUPPORTED & `N_SUPPORTED) &&
(CSRAdrM == MEDELEG || CSRAdrM == MIDELEG); // trap on DELEG register access when no S or N-mode
case (CSRAdrM)
MISA_ADR: CSRMReadValM = MISA_REGW;
MVENDORID: CSRMReadValM = 0;
MARCHID: CSRMReadValM = 0;
MIMPID: CSRMReadValM = 'h100; // pipelined implementation
MHARTID: CSRMReadValM = 0;
MSTATUS: CSRMReadValM = MSTATUS_REGW;
MSTATUSH: CSRMReadValM = 0; // flush this out later if MBE and SBE fields are supported
MTVEC: CSRMReadValM = MTVEC_REGW;
MEDELEG: CSRMReadValM = MEDELEG_REGW;
MIDELEG: CSRMReadValM = MIDELEG_REGW;
MIP: CSRMReadValM = {{(`XLEN-12){1'b0}}, MIP_REGW};
MIE: CSRMReadValM = {{(`XLEN-12){1'b0}}, MIE_REGW};
MSCRATCH: CSRMReadValM = MSCRATCH_REGW;
MEPC: CSRMReadValM = MEPC_REGW;
MCAUSE: CSRMReadValM = MCAUSE_REGW;
MTVAL: CSRMReadValM = MTVAL_REGW;
MCOUNTEREN:CSRMReadValM = {{(`XLEN-32){1'b0}}, MCOUNTEREN_REGW};
MCOUNTINHIBIT:CSRMReadValM = {{(`XLEN-32){1'b0}}, MCOUNTINHIBIT_REGW};
PMPCFG0: CSRMReadValM = PMPCFG01_REGW[`XLEN-1:0];
PMPCFG1: CSRMReadValM = {{(`XLEN-32){1'b0}}, PMPCFG01_REGW[63:31]};
PMPCFG2: CSRMReadValM = PMPCFG23_REGW[`XLEN-1:0];
PMPCFG3: CSRMReadValM = {{(`XLEN-32){1'b0}}, PMPCFG23_REGW[63:31]};
PMPADDR0: CSRMReadValM = PMPADDR0_REGW;
default: begin
CSRMReadValM = 0;
IllegalCSRMAccessM = 1;
end
endcase
end
endmodule
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