cvw/testbench/common/riscvassertions.sv

///////////////////////////////////////////
// riscvassertions.sv
//
// A component of the Wally configurable RISC-V project.
// 
// Copyright (C) 2021 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 riscvassertions import cvw::*; #(parameter cvw_t P);
  initial begin
    assert (P.PMP_ENTRIES == 0 | P.PMP_ENTRIES==16 | P.PMP_ENTRIES==64) else $fatal(1, "Illegal number of PMP entries: PMP_ENTRIES must be 0, 16, or 64");
    assert (P.S_SUPPORTED | P.VIRTMEM_SUPPORTED == 0) else $fatal(1, "Virtual memory requires S mode support");
    assert (P.IDIV_BITSPERCYCLE == 1 | P.IDIV_BITSPERCYCLE==2 | P.IDIV_BITSPERCYCLE==4) else $fatal(1, "Illegal number of divider bits/cycle: IDIV_BITSPERCYCLE must be 1, 2, or 4");
    assert (P.F_SUPPORTED | ~P.D_SUPPORTED) else $fatal(1, "Can't support double fp (D) without supporting float (F)");
    assert (P.D_SUPPORTED | ~P.Q_SUPPORTED) else $fatal(1, "Can't support quad fp (Q) without supporting double (D)");
    assert (P.F_SUPPORTED | ~P.ZFH_SUPPORTED) else $fatal(1, "Can't support half-precision fp (ZFH) without supporting float (F)");
    assert (P.DCACHE_SUPPORTED | ~P.F_SUPPORTED | P.FLEN <= P.XLEN) else $fatal(1, "Data cache required to support FLEN > XLEN because AHB/DTIM bus width is XLEN");
    assert (P.I_SUPPORTED ^ P.E_SUPPORTED) else $fatal(1, "Exactly one of I and E must be supported");
    assert (P.DCACHE_WAYSIZEINBYTES <= 4096 | (!P.DCACHE_SUPPORTED) | P.VIRTMEM_SUPPORTED == 0) else $fatal(1, "DCACHE_WAYSIZEINBYTES cannot exceed 4 KiB when caches and vitual memory is enabled (to prevent aliasing)");
    assert (P.DCACHE_LINELENINBITS >= 128 | (!P.DCACHE_SUPPORTED)) else $fatal(1, "DCACHE_LINELENINBITS must be at least 128 when caches are enabled");
    assert (P.DCACHE_LINELENINBITS < P.DCACHE_WAYSIZEINBYTES*8) else $fatal(1, "DCACHE_LINELENINBITS must be smaller than way size");
    assert (P.ICACHE_WAYSIZEINBYTES <= 4096 | (!P.ICACHE_SUPPORTED) | P.VIRTMEM_SUPPORTED == 0) else $fatal(1, "ICACHE_WAYSIZEINBYTES cannot exceed 4 KiB when caches and vitual memory is enabled (to prevent aliasing)");
    assert (P.ICACHE_LINELENINBITS >= 32 | (!P.ICACHE_SUPPORTED)) else $fatal(1, "ICACHE_LINELENINBITS must be at least 32 when caches are enabled");
    assert (P.ICACHE_LINELENINBITS < P.ICACHE_WAYSIZEINBYTES*8) else $fatal(1, "ICACHE_LINELENINBITS must be smaller than way size");
    assert (2**$clog2(P.DCACHE_LINELENINBITS) == P.DCACHE_LINELENINBITS | (!P.DCACHE_SUPPORTED)) else $fatal(1, "DCACHE_LINELENINBITS must be a power of 2");
    assert (2**$clog2(P.DCACHE_WAYSIZEINBYTES) == P.DCACHE_WAYSIZEINBYTES | (!P.DCACHE_SUPPORTED)) else $fatal(1, "DCACHE_WAYSIZEINBYTES must be a power of 2");
    assert (2**$clog2(P.ICACHE_LINELENINBITS) == P.ICACHE_LINELENINBITS | (!P.ICACHE_SUPPORTED)) else $fatal(1, "ICACHE_LINELENINBITS must be a power of 2");
    assert (2**$clog2(P.ICACHE_WAYSIZEINBYTES) == P.ICACHE_WAYSIZEINBYTES | (!P.ICACHE_SUPPORTED)) else $fatal(1, "ICACHE_WAYSIZEINBYTES must be a power of 2");
    assert (2**$clog2(P.ITLB_ENTRIES) == P.ITLB_ENTRIES | P.VIRTMEM_SUPPORTED==0) else $fatal(1, "ITLB_ENTRIES must be a power of 2");
    assert (2**$clog2(P.DTLB_ENTRIES) == P.DTLB_ENTRIES | P.VIRTMEM_SUPPORTED==0) else $fatal(1, "DTLB_ENTRIES must be a power of 2");
    assert (P.UNCORE_RAM_RANGE >= 64'h07FFFFFF) else $warning("Some regression tests will fail if UNCORE_RAM_RANGE is less than 64'h07FFFFFF");
	  assert (P.ZICSR_SUPPORTED == 1 | (P.PMP_ENTRIES == 0 & P.VIRTMEM_SUPPORTED == 0)) else $fatal(1, "PMP_ENTRIES and VIRTMEM_SUPPORTED must be zero if ZICSR not supported.");
    assert (P.ZICSR_SUPPORTED == 1 | (P.S_SUPPORTED == 0 & P.U_SUPPORTED == 0)) else $fatal(1, "S and U modes not supported if ZICSR not supported");
    assert (P.U_SUPPORTED | (P.S_SUPPORTED == 0)) else $error ("S mode only supported if U also is supported");
    assert (P.VIRTMEM_SUPPORTED == 0 | (P.DTIM_SUPPORTED == 0 & P.IROM_SUPPORTED == 0)) else $fatal(1, "Can't simultaneously have virtual memory and DTIM_SUPPORTED/IROM_SUPPORTED because local memories don't translate addresses");
    assert (P.DCACHE_SUPPORTED | P.VIRTMEM_SUPPORTED ==0) else $fatal(1, "Virtual memory needs dcache");
    assert (P.ICACHE_SUPPORTED | P.VIRTMEM_SUPPORTED ==0) else $fatal(1, "Virtual memory needs icache");
    assert ((P.DCACHE_SUPPORTED == 0 & P.ICACHE_SUPPORTED == 0) | P.BUS_SUPPORTED) else $fatal(1, "Dcache and Icache requires DBUS_SUPPORTED.");
    assert (P.DCACHE_LINELENINBITS <= P.XLEN*16 | (!P.DCACHE_SUPPORTED)) else $fatal(1, "DCACHE_LINELENINBITS must not exceed 16 words because max AHB burst size is 16");
    assert (P.DCACHE_LINELENINBITS % 4 == 0) else $fatal(1, "DCACHE_LINELENINBITS must hold 4, 8, or 16 words");
    assert (P.DCACHE_SUPPORTED | (P.ZAAMO_SUPPORTED == 0 & P.ZALRSC_SUPPORTED == 0)) else $fatal(1, "Atomic extension (ZAAMO/ZALRSC) requires cache on Wally.");
    assert (P.IDIV_ON_FPU == 0 | P.F_SUPPORTED) else $fatal(1, "IDIV on FPU needs F_SUPPORTED");
    assert (P.SSTC_SUPPORTED == 0 | (P.S_SUPPORTED)) else $fatal(1, "SSTC requires S_SUPPORTED");
    assert ((P.M_SUPPORTED == 0) | (P.ZMMUL_SUPPORTED == 1)) else $fatal(1, "M requires ZMMUL");
    assert ((P.ZICNTR_SUPPORTED == 0) | (P.ZICSR_SUPPORTED == 1)) else $fatal(1, "ZICNTR_SUPPORTED requires ZICSR_SUPPORTED");
    assert ((P.ZIHPM_SUPPORTED == 0) | (P.ZICNTR_SUPPORTED == 1)) else $fatal(1, "ZIPHM_SUPPORTED requires ZICNTR_SUPPORTED");
    assert ((P.ZICBOM_SUPPORTED == 0) | (P.DCACHE_SUPPORTED == 1)) else $fatal(1, "ZICBOM requires DCACHE_SUPPORTED");
    assert ((P.ZICBOZ_SUPPORTED == 0) | (P.DCACHE_SUPPORTED == 1)) else $fatal(1, "ZICBOZ requires DCACHE_SUPPORTED");
    assert ((P.ZICBOZ_SUPPORTED == 0) | (P.DTIM_SUPPORTED == 0)) else $fatal(1, "ZICBOZ incompatible with DTIM");
    assert ((P.SVPBMT_SUPPORTED == 0) | (P.VIRTMEM_SUPPORTED == 1 & P.XLEN==64)) else $fatal(1, "SVPBMT requires VIRTMEM_SUPPORTED and RV64");
    assert ((P.SVNAPOT_SUPPORTED == 0) | (P.VIRTMEM_SUPPORTED == 1 & P.XLEN==64)) else $fatal(1, "SVNAPOT requires VIRTMEM_SUPPORTED and RV64");
    assert ((P.ZCA_SUPPORTED == 1) | (P.ZCD_SUPPORTED == 0 & P.ZCF_SUPPORTED == 0 & P.ZCB_SUPPORTED == 0)) else $fatal(1, "ZCB, ZCF, or ZCD requires ZCA");
    assert ((P.ZCF_SUPPORTED == 0) | ((P.F_SUPPORTED == 1) & (P.XLEN == 32))) else $fatal(1, "ZCF requires F and XLEN == 32");
    assert ((P.ZCD_SUPPORTED == 0) | (P.D_SUPPORTED == 1)) else $fatal(1, "ZCD requires D");
    assert ((P.LLEN == P.XLEN) | (P.DCACHE_SUPPORTED & P.DTIM_SUPPORTED == 0)) else $fatal(1, "LLEN > XLEN (D on RV32 or Q on RV64) requires data cache");
    assert ((P.ZICCLSM_SUPPORTED == 0) | (P.DCACHE_SUPPORTED == 1)) else $fatal(1, "ZICCLSM requires DCACHE_SUPPORTED");
  end

endmodule