mirror of
https://github.com/openhwgroup/cvw
synced 2025-02-03 18:25:27 +00:00
Ross Thompson
GitHub
commit
beaec570c7
@ -54,11 +54,9 @@ module csrm import cvw::*; #(parameter cvw_t P) (
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logic [P.XLEN-1:0] MISA_REGW, MHARTID_REGW;
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logic [P.XLEN-1:0] MSCRATCH_REGW, MTVAL_REGW, MCAUSE_REGW;
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logic [P.XLEN-1:0] MENVCFGH_REGW;
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logic [63:0] MENVCFG_PreWriteValM, MENVCFG_WriteValM;
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logic WriteMTVECM, WriteMEDELEGM, WriteMIDELEGM;
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logic WriteMSCRATCHM, WriteMEPCM, WriteMCAUSEM, WriteMTVALM;
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logic WriteMCOUNTERENM, WriteMCOUNTINHIBITM;
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logic WriteMENVCFGM;
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// Machine CSRs
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localparam MVENDORID = 12'hF11;
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@ -82,7 +80,6 @@ module csrm import cvw::*; #(parameter cvw_t P) (
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localparam MCAUSE = 12'h342;
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localparam MTVAL = 12'h343;
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localparam MIP = 12'h344;
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localparam MTINST = 12'h34A;
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localparam PMPCFG0 = 12'h3A0;
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// .. up to 15 more at consecutive addresses
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localparam PMPADDR0 = 12'h3B0;
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@ -146,7 +143,6 @@ module csrm import cvw::*; #(parameter cvw_t P) (
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assign WriteMCAUSEM = MTrapM | (CSRMWriteM & (CSRAdrM == MCAUSE));
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assign WriteMTVALM = MTrapM | (CSRMWriteM & (CSRAdrM == MTVAL));
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assign WriteMCOUNTERENM = CSRMWriteM & (CSRAdrM == MCOUNTEREN);
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assign WriteMENVCFGM = CSRMWriteM & (CSRAdrM == MENVCFG);
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assign WriteMCOUNTINHIBITM = CSRMWriteM & (CSRAdrM == MCOUNTINHIBIT);
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assign IllegalCSRMWriteReadonlyM = UngatedCSRMWriteM & (CSRAdrM == MVENDORID | CSRAdrM == MARCHID | CSRAdrM == MIMPID | CSRAdrM == MHARTID);
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@ -168,28 +164,33 @@ module csrm import cvw::*; #(parameter cvw_t P) (
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flopenr #(32) MCOUNTERENreg(clk, reset, WriteMCOUNTERENM, CSRWriteValM[31:0], MCOUNTEREN_REGW);
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end else assign MCOUNTEREN_REGW = '0;
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// MENVCFG is always 64 bits even for RV32
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assign MENVCFG_WriteValM = {
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MENVCFG_PreWriteValM[63] & P.SSTC_SUPPORTED,
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MENVCFG_PreWriteValM[62] & P.SVPBMT_SUPPORTED,
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54'b0,
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MENVCFG_PreWriteValM[7] & P.ZICBOZ_SUPPORTED,
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MENVCFG_PreWriteValM[6:4] & {3{P.ZICBOM_SUPPORTED}},
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3'b0,
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MENVCFG_PreWriteValM[0] & P.S_SUPPORTED & P.VIRTMEM_SUPPORTED
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};
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if (P.XLEN == 64) begin
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assign MENVCFG_PreWriteValM = CSRWriteValM;
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flopenr #(P.XLEN) MENVCFGreg(clk, reset, WriteMENVCFGM, MENVCFG_WriteValM, MENVCFG_REGW);
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assign MENVCFGH_REGW = 0;
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end else begin
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logic WriteMENVCFGHM;
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assign MENVCFG_PreWriteValM = {CSRWriteValM, CSRWriteValM};
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assign WriteMENVCFGHM = CSRMWriteM & (CSRAdrM == MENVCFGH) & (P.XLEN==32);
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flopenr #(P.XLEN) MENVCFGreg(clk, reset, WriteMENVCFGM, MENVCFG_WriteValM[31:0], MENVCFG_REGW[31:0]);
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flopenr #(P.XLEN) MENVCFGHreg(clk, reset, WriteMENVCFGHM, MENVCFG_WriteValM[63:32], MENVCFG_REGW[63:32]);
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assign MENVCFGH_REGW = MENVCFG_REGW[63:32];
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// MENVCFG register
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if (P.U_SUPPORTED) begin // menvcfg only exists if there is a lower privilege to control
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logic WriteMENVCFGM;
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logic [63:0] MENVCFG_PreWriteValM, MENVCFG_WriteValM;
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assign WriteMENVCFGM = CSRMWriteM & (CSRAdrM == MENVCFG);
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// MENVCFG is always 64 bits even for RV32
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assign MENVCFG_WriteValM = {
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MENVCFG_PreWriteValM[63] & P.SSTC_SUPPORTED,
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MENVCFG_PreWriteValM[62] & P.SVPBMT_SUPPORTED,
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54'b0,
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MENVCFG_PreWriteValM[7] & P.ZICBOZ_SUPPORTED,
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MENVCFG_PreWriteValM[6:4] & {3{P.ZICBOM_SUPPORTED}},
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3'b0,
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MENVCFG_PreWriteValM[0] & P.S_SUPPORTED & P.VIRTMEM_SUPPORTED
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};
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if (P.XLEN == 64) begin
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assign MENVCFG_PreWriteValM = CSRWriteValM;
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flopenr #(P.XLEN) MENVCFGreg(clk, reset, WriteMENVCFGM, MENVCFG_WriteValM, MENVCFG_REGW);
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assign MENVCFGH_REGW = 0;
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end else begin // RV32 has high and low halves
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logic WriteMENVCFGHM;
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assign MENVCFG_PreWriteValM = {CSRWriteValM, CSRWriteValM};
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assign WriteMENVCFGHM = CSRMWriteM & (CSRAdrM == MENVCFGH) & (P.XLEN==32);
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flopenr #(P.XLEN) MENVCFGreg(clk, reset, WriteMENVCFGM, MENVCFG_WriteValM[31:0], MENVCFG_REGW[31:0]);
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flopenr #(P.XLEN) MENVCFGHreg(clk, reset, WriteMENVCFGHM, MENVCFG_WriteValM[63:32], MENVCFG_REGW[63:32]);
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assign MENVCFGH_REGW = MENVCFG_REGW[63:32];
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end
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end
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// Read machine mode CSRs
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@ -197,6 +198,7 @@ module csrm import cvw::*; #(parameter cvw_t P) (
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logic [5:0] entry;
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always_comb begin
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entry = '0;
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CSRMReadValM = 0;
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IllegalCSRMAccessM = !(P.S_SUPPORTED) & (CSRAdrM == MEDELEG | CSRAdrM == MIDELEG); // trap on DELEG register access when no S or N-mode
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if (CSRAdrM >= PMPADDR0 & CSRAdrM < PMPADDR0 + P.PMP_ENTRIES) // reading a PMP entry
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CSRMReadValM = {{(P.XLEN-(P.PA_BITS-2)){1'b0}}, PMPADDR_ARRAY_REGW[CSRAdrM - PMPADDR0]};
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@ -219,7 +221,8 @@ module csrm import cvw::*; #(parameter cvw_t P) (
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MHARTID: CSRMReadValM = MHARTID_REGW; // hardwired to 0
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MCONFIGPTR: CSRMReadValM = 0; // hardwired to 0
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MSTATUS: CSRMReadValM = MSTATUS_REGW;
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MSTATUSH: CSRMReadValM = MSTATUSH_REGW;
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MSTATUSH: if (P.XLEN==32) CSRMReadValM = MSTATUSH_REGW;
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else IllegalCSRMAccessM = 1;
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MTVEC: CSRMReadValM = MTVEC_REGW;
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MEDELEG: CSRMReadValM = {{(P.XLEN-16){1'b0}}, MEDELEG_REGW};
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MIDELEG: CSRMReadValM = {{(P.XLEN-12){1'b0}}, MIDELEG_REGW};
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@ -229,16 +232,13 @@ module csrm import cvw::*; #(parameter cvw_t P) (
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MEPC: CSRMReadValM = MEPC_REGW;
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MCAUSE: CSRMReadValM = MCAUSE_REGW;
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MTVAL: CSRMReadValM = MTVAL_REGW;
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MTINST: CSRMReadValM = 0; // implemented as trivial zero
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MCOUNTEREN: CSRMReadValM = {{(P.XLEN-32){1'b0}}, MCOUNTEREN_REGW};
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MENVCFG: CSRMReadValM = MENVCFG_REGW[P.XLEN-1:0];
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MENVCFGH: CSRMReadValM = MENVCFGH_REGW;
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MENVCFG: if (P.U_SUPPORTED) CSRMReadValM = MENVCFG_REGW[P.XLEN-1:0];
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else IllegalCSRMAccessM = 1;
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MENVCFGH: if (P.U_SUPPORTED & P.XLEN==32) CSRMReadValM = MENVCFGH_REGW;
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else IllegalCSRMAccessM = 1;
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MCOUNTINHIBIT: CSRMReadValM = {{(P.XLEN-32){1'b0}}, MCOUNTINHIBIT_REGW};
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default: begin
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CSRMReadValM = 0;
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IllegalCSRMAccessM = 1;
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end
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default: IllegalCSRMAccessM = 1;
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endcase
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end
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// verilator lint_on WIDTH
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@ -54,7 +54,6 @@ module csrsr import cvw::*; #(parameter cvw_t P) (
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// STATUS REGISTER FIELD
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// See Privileged Spec Section 3.1.6
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// Lower privilege status registers are a subset of the full status register
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// *** consider adding MBE, SBE, UBE fields, parameterized to be fixed or adjustable
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if (P.XLEN==64) begin: csrsr64 // RV64
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assign MSTATUS_REGW = {STATUS_SD, 25'b0, STATUS_MBE, STATUS_SBE, STATUS_SXL, STATUS_UXL, 9'b0,
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STATUS_TSR, STATUS_TW, STATUS_TVM, STATUS_MXR, STATUS_SUM, STATUS_MPRV,
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