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cvw/wally-pipelined/testbench/testbench-linux.sv
bbracker f4f3ef0307 linux testbench progress
2021-07-18 18:47:40 -04:00

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///////////////////////////////////////////
// testbench-linux.sv
//
// Written: nboorstin@g.hmc.edu 2021
// Modified:
//
// Purpose: Testbench for buildroot or busybear linux
//
// 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 testbench();
parameter waveOnICount = `BUSYBEAR*140000 + `BUILDROOT*0000000; // # of instructions at which to turn on waves in graphical sim
parameter stopICount = `BUSYBEAR*143898 + `BUILDROOT*0000000; // # instructions at which to halt sim completely (set to 0 to let it run as far as it can)
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////// DUT /////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
logic clk, reset;
logic [`AHBW-1:0] readDataExpected;
logic [31:0] HADDR;
logic [`AHBW-1:0] HWDATA;
logic HWRITE;
logic [2:0] HSIZE;
logic [2:0] HBURST;
logic [3:0] HPROT;
logic [1:0] HTRANS;
logic HMASTLOCK;
logic HCLK, HRESETn;
logic [`AHBW-1:0] HRDATAEXT;
logic HREADYEXT, HRESPEXT;
logic [31:0] GPIOPinsIn;
logic [31:0] GPIOPinsOut, GPIOPinsEn;
logic UARTSin, UARTSout;
assign GPIOPinsIn = 0;
assign UARTSin = 1;
wallypipelinedsoc dut(.*);
///////////////////////////////////////////////////////////////////////////////
//////////////////////// Signals & Shared Macros ///////////////////////////
//////////////////////// AKA stuff that comes first ///////////////////////////
///////////////////////////////////////////////////////////////////////////////
// Sorry if these have gotten decontextualized.
// Verilog expects them to be defined before they are used.
// -------------------
// Signal Declarations
// -------------------
// Testbench Core
integer instrs;
integer warningCount = 0;
string trashString; // should never be read from
logic [31:0] InstrMask;
logic forcedInstr;
logic [63:0] lastPCD;
logic PCDwrong;
// PC, Instr Checking
logic [`XLEN-1:0] PCW;
logic [63:0] lastInstrDExpected, lastPC, lastPC2;
integer data_file_PCF, scan_file_PCF;
integer data_file_PCD, scan_file_PCD;
integer data_file_PCM, scan_file_PCM;
integer data_file_PCW, scan_file_PCW;
string PCtextF, PCtextF2;
string PCtextD, PCtextD2;
string PCtextE;
string PCtextM;
string PCtextW;
logic [31:0] InstrFExpected, InstrDExpected, InstrMExpected, InstrWExpected;
logic [63:0] PCFexpected, PCDexpected, PCMexpected, PCWexpected;
// RegFile Write Checking
logic ignoreRFwrite;
logic [63:0] regExpected;
integer regNumExpected;
integer data_file_rf, scan_file_rf;
// Bus Unit Read/Write Checking
logic [`XLEN-1:0] readAdrExpected, readAdrTranslated;
logic [`XLEN-1:0] writeDataExpected, writeAdrExpected, writeAdrTranslated;
integer data_file_memR, scan_file_memR;
integer data_file_memW, scan_file_memW;
// CSR Checking
integer totalCSR = 0;
logic [99:0] StartCSRexpected[63:0];
string StartCSRname[99:0];
integer data_file_csr, scan_file_csr;
// -----------
// Error Macro
// -----------
`define ERROR \
#10; \
$display("processed %0d instructions with %0d warnings", instrs, warningCount); \
$stop;
// ----------------
// PC Updater Macro
// ----------------
`define SCAN_PC(DATAFILE,SCANFILE,PCTEXT,PCTEXT2,CHECKINSTR,PCEXPECTED) \
SCANFILE = $fscanf(DATAFILE, "%s\n", PCTEXT); \
PCTEXT2 = ""; \
while (PCTEXT2 != "***") begin \
PCTEXT = {PCTEXT, " ", PCTEXT2}; \
SCANFILE = $fscanf(DATAFILE, "%s\n", PCTEXT2); \
end \
SCANFILE = $fscanf(DATAFILE, "%x\n", CHECKINSTR); \
SCANFILE = $fscanf(DATAFILE, "%x\n", PCEXPECTED);
///////////////////////////////////////////////////////////////////////////////
//////////////////////////////// Testbench Core ///////////////////////////////
///////////////////////////////////////////////////////////////////////////////
// --------------
// Initialization
// --------------
initial
begin
instrs = 0;
PCDwrong = 0;
reset <= 1; # 22; reset <= 0;
end
// initial loading of memories
initial begin
$readmemh({`LINUX_TEST_VECTORS,"bootmem.txt"}, dut.uncore.bootdtim.RAM, 'h1000 >> 3);
$readmemh({`LINUX_TEST_VECTORS,"ram.txt"}, dut.uncore.dtim.RAM);
$readmemb(`TWO_BIT_PRELOAD, dut.hart.ifu.bpred.bpred.Predictor.DirPredictor.PHT.memory);
$readmemb(`BTB_PRELOAD, dut.hart.ifu.bpred.bpred.TargetPredictor.memory.memory);
end
// -------
// Running
// -------
always
begin
clk <= 1; # 5; clk <= 0; # 5;
end
// -------------------------------------
// Special warnings for important faults
// -------------------------------------
always @(dut.hart.priv.csr.genblk1.csrm.MCAUSE_REGW) begin
if (dut.hart.priv.csr.genblk1.csrm.MCAUSE_REGW == 2 && instrs > 1) begin
$display("!!!!!! illegal instruction !!!!!!!!!!");
$display("(as a reminder, MCAUSE and MEPC are set by this)");
$display("at %0t ps, PCM %x, instr %0d, dut.hart.lsu.dcache.MemPAdrM %x", $time, dut.hart.ifu.PCM, instrs, dut.hart.lsu.dcache.MemPAdrM);
`ERROR
end
if (dut.hart.priv.csr.genblk1.csrm.MCAUSE_REGW == 5 && instrs != 0) begin
$display("!!!!!! illegal (physical) memory access !!!!!!!!!!");
$display("(as a reminder, MCAUSE and MEPC are set by this)");
$display("at %0t ps, PCM %x, instr %0d, dut.hart.lsu.dcache.MemPAdrM %x", $time, dut.hart.ifu.PCM, instrs, dut.hart.lsu.dcache.MemPAdrM);
`ERROR
end
end
// -----------------------
// RegFile Write Hijacking
// -----------------------
always @(PCW or dut.hart.ieu.InstrValidW) begin
if(dut.hart.ieu.InstrValidW && PCW != 0) begin
// Hack to compensate for how Wally's MTIME may diverge from QEMU's MTIME (and that is okay)
if (PCtextW.substr(0,5) == "rdtime") begin
ignoreRFwrite <= 1;
scan_file_rf = $fscanf(data_file_rf, "%d\n", regNumExpected);
scan_file_rf = $fscanf(data_file_rf, "%x\n", regExpected);
force dut.hart.ieu.dp.regf.wd3 = regExpected;
// Hack to compensate for QEMU's incorrect MSTATUS
end else if (PCtextW.substr(0,3) == "csrr" && PCtextW.substr(10,16) == "mstatus") begin
force dut.hart.ieu.dp.regf.wd3 = dut.hart.ieu.dp.WriteDataW & ~64'ha00000000;
end else
release dut.hart.ieu.dp.regf.wd3;
end
end
// ----------------
// Big Chunky Block
// ----------------
always @(reset or dut.hart.ifu.InstrRawD or dut.hart.ifu.PCD) begin// or negedge dut.hart.ifu.StallE) begin // Why do we care about StallE? Everything seems to run fine without it.
if(~dut.hart.lsu.dcache.MemRWM) begin // *** Should this need to consider dut.hart.lsu.dcache.MemRWM?
#2;
// If PCD/InstrD aren't garbage
if (~reset && dut.hart.ifu.InstrRawD[15:0] !== {16{1'bx}} && dut.hart.ifu.PCD !== 64'h0) begin // && ~dut.hart.ifu.StallE) begin
// If Wally's PCD has updated
if (dut.hart.ifu.PCD !== lastPCD) begin
lastInstrDExpected = InstrDExpected;
lastPC <= dut.hart.ifu.PCD;
lastPC2 <= lastPC;
// If PCD isn't going to be flushed
if (~PCDwrong || lastPC == PCDexpected) begin
// Stop if we've reached the end
if($feof(data_file_PCF)) begin
$display("no more PC data to read... CONGRATULATIONS!!!");
`ERROR
end
// Increment PC
`SCAN_PC(data_file_PCF, scan_file_PCF, PCtextF, PCtextF2, InstrFExpected, PCFexpected);
`SCAN_PC(data_file_PCD, scan_file_PCD, PCtextD, PCtextD2, InstrDExpected, PCDexpected);
// NOP out certain instructions
if(dut.hart.ifu.PCD===PCDexpected) begin
if((dut.hart.ifu.PCD == 32'h80001dc6) || // for now, NOP out any stores to PLIC
(dut.hart.ifu.PCD == 32'h80001de0) ||
(dut.hart.ifu.PCD == 32'h80001de2)) begin
$display("warning: NOPing out %s at PCD=%0x, instr %0d, time %0t", PCtextD, dut.hart.ifu.PCD, instrs, $time);
force InstrDExpected = 32'b0010011;
force dut.hart.ifu.InstrRawD = 32'b0010011;
while (clk != 0) #1;
while (clk != 1) #1;
release dut.hart.ifu.InstrRawD;
release InstrDExpected;
warningCount += 1;
forcedInstr = 1;
end else begin
forcedInstr = 0;
end
end
// Increment instruction count
if (instrs <= 10 || (instrs <= 100 && instrs % 10 == 0) ||
(instrs <= 1000 && instrs % 100 == 0) || (instrs <= 10000 && instrs % 1000 == 0) ||
(instrs <= 100000 && instrs % 10000 == 0) || (instrs % 100000 == 0)) begin
$display("loaded %0d instructions", instrs);
end
instrs += 1;
// Stop before bugs so "do" file can turn on waves
if (instrs == waveOnICount) begin
$display("turning on waves at %0d instructions", instrs);
$stop;
end else if (instrs == stopICount && stopICount != 0) begin
$display("Ending sim at %0d instructions (set stopICount to 0 to let the sim go on)", instrs);
$stop;
end
// Check if PCD is going to be flushed due to a branch or jump
if (`BPRED_ENABLED) begin
PCDwrong = dut.hart.hzu.FlushD; //Old version: dut.hart.ifu.bpred.bpred.BPPredWrongE; <-- This old version failed to account for MRET.
end else begin
casex (lastInstrDExpected[31:0])
32'b00000000001000000000000001110011, // URET
32'b00010000001000000000000001110011, // SRET
32'b00110000001000000000000001110011, // MRET
32'bXXXXXXXXXXXXXXXXXXXXXXXXX1101111, // JAL
32'bXXXXXXXXXXXXXXXXXXXXXXXXX1100111, // JALR
32'bXXXXXXXXXXXXXXXXXXXXXXXXX1100011, // B
32'bXXXXXXXXXXXXXXXX110XXXXXXXXXXX01, // C.BEQZ
32'bXXXXXXXXXXXXXXXX111XXXXXXXXXXX01, // C.BNEZ
32'bXXXXXXXXXXXXXXXX101XXXXXXXXXXX01: // C.J
PCDwrong = 1;
32'bXXXXXXXXXXXXXXXX1001000000000010, // C.EBREAK:
32'bXXXXXXXXXXXXXXXXX000XXXXX1110011: // Something that's not CSRR*
PCDwrong = 0; // tbh don't really know what should happen here
32'b000110000000XXXXXXXXXXXXX1110011, // CSR* SATP, *
32'bXXXXXXXXXXXXXXXX1000XXXXX0000010, // C.JR
32'bXXXXXXXXXXXXXXXX1001XXXXX0000010: // C.JALR //this is RV64 only so no C.JAL
PCDwrong = 1;
default:
PCDwrong = 0;
endcase
end
// Check PCD, InstrD
if (~PCDwrong && ~(dut.hart.ifu.PCD === PCDexpected)) begin
$display("%0t ps, instr %0d: PC does not equal PC expected: %x, %x", $time, instrs, dut.hart.ifu.PCD, PCDexpected);
`ERROR
end
InstrMask = InstrDExpected[1:0] == 2'b11 ? 32'hFFFFFFFF : 32'h0000FFFF;
if ((~forcedInstr) && (~PCDwrong) && ((InstrMask & dut.hart.ifu.InstrRawD) !== (InstrMask & InstrDExpected))) begin
$display("%0t ps, PCD %x, instr %0d: InstrD %x %s does not equal InstrDExpected %x %s", $time, dut.hart.ifu.PCD, instrs, dut.hart.ifu.InstrRawD, InstrDName, InstrDExpected, PCtextD);
`ERROR
end
// Repeated instruction means QEMU had an interrupt which we need to spoof
if (PCFexpected == PCDexpected) begin
$display("Note at %0t ps, PCM %x %s, instr %0d: spoofing an interrupt", $time, dut.hart.ifu.PCM, PCtextM, instrs);
// Increment file pointers past the repeated instruction.
`SCAN_PC(data_file_PCF, scan_file_PCF, PCtextF, PCtextF2, InstrFExpected, PCFexpected);
`SCAN_PC(data_file_PCD, scan_file_PCD, PCtextD, PCtextD2, InstrDExpected, PCDexpected);
scan_file_memR = $fscanf(data_file_memR, "%x\n", readAdrExpected);
scan_file_memR = $fscanf(data_file_memR, "%x\n", readDataExpected);
// Next force a timer interrupt (*** this may later need generalizing)
force dut.uncore.genblk1.clint.MTIME = dut.uncore.genblk1.clint.MTIMECMP + 1;
while (clk != 0) #1;
while (clk != 1) #1;
release dut.uncore.genblk1.clint.MTIME;
end
end
end
lastPCD = dut.hart.ifu.PCD;
end
end
end
///////////////////////////////////////////////////////////////////////////////
///////////////////////////// PC,Instr Checking ///////////////////////////////
/////////////////////// (outside of Big Chunky Block) /////////////////////////
///////////////////////////////////////////////////////////////////////////////
// --------------
// Initialization
// --------------
initial begin
data_file_PCF = $fopen({`LINUX_TEST_VECTORS,"parsedPC.txt"}, "r");
data_file_PCD = $fopen({`LINUX_TEST_VECTORS,"parsedPC.txt"}, "r");
data_file_PCM = $fopen({`LINUX_TEST_VECTORS,"parsedPC.txt"}, "r");
data_file_PCW = $fopen({`LINUX_TEST_VECTORS,"parsedPC.txt"}, "r");
if (data_file_PCW == 0) begin
$display("file couldn't be opened");
$stop;
end
// This makes sure PCF is one instr ahead of PCD
`SCAN_PC(data_file_PCF, scan_file_PCF, PCtextF, PCtextF2, InstrFExpected, PCFexpected);
// This makes sure PCM is one instr ahead of PCW
`SCAN_PC(data_file_PCM, scan_file_PCM, trashString, trashString, InstrMExpected, PCMexpected);
end
// Removed because this is MMU's job
// and it'd take some work to upgrade away from Bus to Cache signals)
//logging logging(clk, reset, dut.uncore.dut.hart.lsu.dcache.MemPAdrM, dut.uncore.HWRITE);
// -------------------
// Additional Hardware
// -------------------
flopenr #(`XLEN) PCWReg(clk, reset, ~dut.hart.ieu.dp.StallW, dut.hart.ifu.PCM, PCW);
// PCF stuff isn't actually checked
// it only exists for helping detecting duplicate instructions in PCD
// which are the result of interrupts hitting QEMU
// PCD checking already happens in "Big Chunky Block"
// PCM stuff isn't actually checked
// it only exists for helping detecting duplicate instructions in PCW
// which are the result of interrupts hitting QEMU
// ------------
// PCW Checking
// ------------
always @(PCW or dut.hart.ieu.InstrValidW) begin
if(dut.hart.ieu.InstrValidW && PCW != 0) begin
if($feof(data_file_PCW)) begin
$display("no more PC data to read");
`ERROR
end
`SCAN_PC(data_file_PCM, scan_file_PCM, trashString, trashString, InstrMExpected, PCMexpected);
`SCAN_PC(data_file_PCW, scan_file_PCW, trashString, trashString, InstrWExpected, PCWexpected);
// If repeated instr
if (PCMexpected == PCWexpected) begin
// Increment file pointers past the repeated instruction.
`SCAN_PC(data_file_PCM, scan_file_PCM, trashString, trashString, InstrMExpected, PCMexpected);
`SCAN_PC(data_file_PCW, scan_file_PCW, trashString, trashString, InstrWExpected, PCWexpected);
end
if(~(PCW === PCWexpected)) begin
$display("%0t ps, instr %0d: PCW does not equal PCW expected: %x, %x", $time, instrs, PCW, PCWexpected);
`ERROR
end
end
end
///////////////////////////////////////////////////////////////////////////////
/////////////////////////// RegFile Write Checking ////////////////////////////
///////////////////////////////////////////////////////////////////////////////
// --------------
// Initialization
// --------------
initial begin
data_file_rf = $fopen({`LINUX_TEST_VECTORS,"parsedRegs.txt"}, "r");
if (data_file_rf == 0) begin
$display("file couldn't be opened");
$stop;
end
end
initial
ignoreRFwrite <= 0;
// --------
// Checking
// --------
genvar i;
generate
for(i=1; i<32; i++) begin
always @(dut.hart.ieu.dp.regf.rf[i]) begin
if ($time == 0) begin
scan_file_rf = $fscanf(data_file_rf, "%x\n", regExpected);
if (dut.hart.ieu.dp.regf.rf[i] != regExpected) begin
$display("%0t ps, InstrNum %0d, PCW %x, InstrW %s: rf[%0d] does not equal rf expected: %x, %x", $time, instrs, PCW, PCtextW, i, dut.hart.ieu.dp.regf.rf[i], regExpected);
`ERROR
end
end else begin
if (ignoreRFwrite) // this allows other testbench elements to force WriteData to take on the next regExpected
ignoreRFwrite <= 0;
else begin
scan_file_rf = $fscanf(data_file_rf, "%d\n", regNumExpected);
scan_file_rf = $fscanf(data_file_rf, "%x\n", regExpected);
end
if (i != regNumExpected) begin
$display("%0t ps, InstrNum %0d, PCW %x, InstrW %s: wrong register changed: %0d, %0d expected to switch to %x from %x", $time, instrs, PCW, PCtextW, i, regNumExpected, regExpected, dut.hart.ieu.dp.regf.rf[regNumExpected]);
`ERROR
end
if (~(dut.hart.ieu.dp.regf.rf[i] === regExpected)) begin
$display("%0t ps, InstrNum %0d, PCW %x, InstrW %s: rf[%0d] does not equal rf expected: %x, %x", $time, instrs, PCW, PCtextW, i, dut.hart.ieu.dp.regf.rf[i], regExpected);
`ERROR
end
end
end
end
endgenerate
/////////////////////////////////////////////////////////////////////////////
//////////////////////// Memory Read/Write Checking /////////////////////////
/////////////////////////////////////////////////////////////////////////////
// RAM and bootram are addressed in 64-bit blocks - this logic handles R/W
// including subwords. Brief explanation on signals:
//
// In the linux boot, the processor spends the first ~5 instructions in
// bootram, before jr jumps to main RAM
// --------------
// Initialization
// --------------
initial begin
data_file_memR = $fopen({`LINUX_TEST_VECTORS,"parsedMemRead.txt"}, "r");
if (data_file_memR == 0) begin
$display("file couldn't be opened");
$stop;
end
end
initial begin
data_file_memW = $fopen({`LINUX_TEST_VECTORS,"parsedMemWrite.txt"}, "r");
if (data_file_memW == 0) begin
$display("file couldn't be opened");
$stop;
end
end
// ------------
// Read Checker
// ------------
always @(negedge clk) begin
//if (dut.hart.MemRWM[1] && ~dut.hart.StallM && ~dut.hart.FlushM && dut.hart.ieu.InstrValidM) begin <-- This doesn't work because ReadDataM can be used for other things (namely page table walking) while the pipeline is stalled, leaving it in a different state when the pipeline unstalls
if (dut.hart.MemRWM[1] && dut.hart.lsu.dcache.ReadDataWEn) begin // <-- ReadDataWEn is a good indicator that the pipeline is using the current contents of ReadDataM
if($feof(data_file_memR)) begin
$display("no more memR data to read");
`ERROR
end
scan_file_memR = $fscanf(data_file_memR, "%x\n", readAdrExpected);
scan_file_memR = $fscanf(data_file_memR, "%x\n", readDataExpected);
assign readAdrTranslated = adrTranslator(readAdrExpected);
if (~(dut.hart.lsu.dcache.MemPAdrM === readAdrTranslated)) begin
$display("%0t ps, InstrNum %0d, PCM %x, InstrM %s: MemPAdrM does not equal readAdrExpected: %x, %x", $time, instrs, dut.hart.ifu.PCM, PCtextM, dut.hart.lsu.dcache.MemPAdrM, readAdrTranslated);
`ERROR
end
if (readDataExpected !== dut.hart.lsu.dcache.ReadDataM) begin
if (dut.hart.lsu.dcache.MemPAdrM inside `LINUX_FIX_READ) begin
if (dut.hart.lsu.dcache.MemPAdrM != 'h10000005) // Suppress the warning for UART LSR so we can read UART output
$display("%0t ps, InstrNum %0d, PCM %x, InstrM %s:: forcing readDataExpected to expected: %x, %x", $time, instrs, dut.hart.ifu.PCM, PCtextM, dut.hart.lsu.dcache.MemPAdrM, readDataExpected, dut.hart.lsu.dcache.ReadDataM);
force dut.hart.lsu.dcache.ReadDataM = readDataExpected;
#9;
release dut.hart.lsu.dcache.ReadDataM;
end else begin
$display("%0t ps, InstrNum %0d, PCM %x, InstrM %s: ReadDataM does not equal readDataExpected: %x, %x from address %x", $time, instrs, dut.hart.ifu.PCM, PCtextM, dut.hart.lsu.dcache.ReadDataM, readDataExpected, dut.hart.lsu.dcache.MemPAdrM);
`ERROR
end
end
end
end
// -------------
// Write Checker
// -------------
always @(negedge clk) begin
if (dut.hart.MemRWM[0] && ~dut.hart.StallM && ~dut.hart.FlushM && dut.hart.ieu.InstrValidM && ($time != 0)) begin
if($feof(data_file_memW)) begin
$display("no more memW data to read");
`ERROR
end
scan_file_memW = $fscanf(data_file_memW, "%x\n", writeDataExpected);
scan_file_memW = $fscanf(data_file_memW, "%x\n", writeAdrExpected);
assign writeAdrTranslated = adrTranslator(writeAdrExpected);
if (writeDataExpected != dut.hart.lsu.dcache.WriteDataM && ~dut.uncore.HSELPLICD) begin
$display("%0t ps, InstrNum %0d, PCM %x, InstrM %s: WriteDataM does not equal writeDataExpected: %x, %x", $time, instrs, dut.hart.ifu.PCM, PCtextM, dut.hart.lsu.dcache.WriteDataM, writeDataExpected);
`ERROR
end
if (~(writeAdrTranslated === dut.hart.lsu.dcache.MemPAdrM) && ~dut.uncore.HSELPLICD) begin
$display("%0t ps, InstrNum %0d, PCM %x, InstrM %s: MemPAdrM does not equal writeAdrExpected: %x, %x", $time, instrs, dut.hart.ifu.PCM, PCtextM, dut.hart.lsu.dcache.MemPAdrM, writeAdrTranslated);
`ERROR
end
end
end
///////////////////////////////////////////////////////////////////////////////
//////////////////////////////// CSR Checking /////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
// --------------
// Initialization
// --------------
initial begin
data_file_csr = $fopen({`LINUX_TEST_VECTORS,"parsedCSRs.txt"}, "r");
if (data_file_csr == 0) begin
$display("file couldn't be opened");
$stop;
end
while(1) begin
scan_file_csr = $fscanf(data_file_csr, "%s\n", StartCSRname[totalCSR]);
if(StartCSRname[totalCSR] == "---") begin
break;
end
scan_file_csr = $fscanf(data_file_csr, "%x\n", StartCSRexpected[totalCSR]);
totalCSR = totalCSR + 1;
end
end
// --------------
// Checker Macros
// --------------
string MSTATUSstring = "MSTATUS"; //string variables seem to compare more reliably than string literals
string SEPCstring = "SEPC";
string SCAUSEstring = "SCAUSE";
string SSTATUSstring = "SSTATUS";
`define CHECK_CSR2(CSR, PATH) \
logic [63:0] expected``CSR``; \
string CSR; \
string ``CSR``name = `"CSR`"; \
string expected``CSR``name; \
always @(``PATH``.``CSR``_REGW) begin \
if ($time > 1 && (`BUILDROOT != 1 || ``CSR``name != SSTATUSstring)) begin \
if (``CSR``name == SEPCstring) begin #1; end \
if (``CSR``name == SCAUSEstring) begin #2; end \
if (``CSR``name == SSTATUSstring) begin #3; end \
scan_file_csr = $fscanf(data_file_csr, "%s\n", expected``CSR``name); \
scan_file_csr = $fscanf(data_file_csr, "%x\n", expected``CSR``); \
if(expected``CSR``name.icompare(``CSR``name)) begin \
$display("%0t ps, PCM %x %s, instr %0d: %s changed, expected %s", $time, dut.hart.ifu.PCM, PCtextM, instrs, `"CSR`", expected``CSR``name); \
end \
if (``CSR``name == MSTATUSstring) begin \
if (``PATH``.``CSR``_REGW != ((``expected``CSR) | 64'ha00000000)) begin \
$display("%0t ps, PCM %x %s, instr %0d: %s (should be MSTATUS) does not equal %s expected: %x, %x", $time, dut.hart.ifu.PCM, PCtextM, instrs, ``CSR``name, expected``CSR``name, ``PATH``.``CSR``_REGW, (``expected``CSR) | 64'ha00000000); \
`ERROR \
end \
end else \
if (``PATH``.``CSR``_REGW != ``expected``CSR[$bits(``PATH``.``CSR``_REGW)-1:0]) begin \
$display("%0t ps, PCM %x %s, instr %0d: %s does not equal %s expected: %x, %x", $time, dut.hart.ifu.PCM, PCtextM, instrs, ``CSR``name, expected``CSR``name, ``PATH``.``CSR``_REGW, ``expected``CSR); \
`ERROR \
end \
end else begin \
if (!(`BUILDROOT == 1 && ``CSR``name == MSTATUSstring)) begin \
for(integer j=0; j<totalCSR; j++) begin \
if(!StartCSRname[j].icompare(``CSR``name)) begin \
if(``PATH``.``CSR``_REGW != StartCSRexpected[j]) begin \
$display("%0t ps, PCM %x %s, instr %0d: %s does not equal %s expected: %x, %x", $time, dut.hart.ifu.PCM, PCtextM, instrs, ``CSR``name, StartCSRname[j], ``PATH``.``CSR``_REGW, StartCSRexpected[j]); \
`ERROR \
end \
end \
end \
end \
end \
end
`define CHECK_CSR(CSR) \
`CHECK_CSR2(CSR, dut.hart.priv.csr)
`define CSRM dut.hart.priv.csr.genblk1.csrm
`define CSRS dut.hart.priv.csr.genblk1.csrs.genblk1
// --------
// Checking
// --------
//`CHECK_CSR(FCSR)
`CHECK_CSR2(MCAUSE, `CSRM)
`CHECK_CSR(MCOUNTEREN)
`CHECK_CSR(MEDELEG)
`CHECK_CSR(MEPC)
//`CHECK_CSR(MHARTID)
`CHECK_CSR(MIDELEG)
`CHECK_CSR(MIE)
//`CHECK_CSR(MIP)
`CHECK_CSR2(MISA, `CSRM)
`CHECK_CSR2(MSCRATCH, `CSRM)
`CHECK_CSR(MSTATUS)
`CHECK_CSR2(MTVAL, `CSRM)
`CHECK_CSR(MTVEC)
//`CHECK_CSR2(PMPADDR0, `CSRM)
//`CHECK_CSR2(PMdut.PCFG0, `CSRM)
`CHECK_CSR(SATP)
`CHECK_CSR2(SCAUSE, `CSRS)
`CHECK_CSR(SCOUNTEREN)
`CHECK_CSR(SEPC)
`CHECK_CSR(SIE)
`CHECK_CSR2(SSCRATCH, `CSRS)
`CHECK_CSR(SSTATUS)
`CHECK_CSR2(STVAL, `CSRS)
`CHECK_CSR(STVEC)
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////// Miscellaneous ///////////////////////////////
///////////////////////////////////////////////////////////////////////////////
// Instr Opcode Tracking
// For waveview convenience
string InstrFName, InstrDName, InstrEName, InstrMName, InstrWName;
logic [31:0] InstrW;
instrTrackerTB it(clk, reset,
dut.hart.ifu.icache.controller.FinalInstrRawF,
dut.hart.ifu.InstrD, dut.hart.ifu.InstrE,
dut.hart.ifu.InstrM, dut.hart.ifu.InstrW,
InstrFName, InstrDName, InstrEName, InstrMName, InstrWName);
// Instr Assembly Tracking
// For waveview convenience
// PCtextF, PCtextD are read from testvectors
// You could just as well read the others from testvectors,
// but I really like how the pipeline synchronizes with Wally so cleanly
always_ff @(posedge clk, posedge reset)
if (reset) begin
PCtextE = "(reset)";
PCtextM = "(reset)";
PCtextW = "(reset)";
end else begin
if (~dut.hart.StallW)
if (dut.hart.FlushW) PCtextW = "(flushed)";
else PCtextW = PCtextM;
if (~dut.hart.StallM)
if (dut.hart.FlushM) PCtextM = "(flushed)";
else PCtextM = PCtextE;
if (~dut.hart.StallE)
if (dut.hart.FlushE) PCtextE = "(flushed)";
else PCtextE = PCtextD;
end
// ------------------
// Address Translator
// ------------------
/**
* Walk the page table stored in dtim according to sv39 logic and translate a
* virtual address to a physical address.
*
* See section 4.3.2 of the RISC-V Privileged specification for a full
* explanation of the below algorithm.
*/
function logic [`XLEN-1:0] adrTranslator(
input logic [`XLEN-1:0] adrIn);
begin
logic SvMode, PTE_R, PTE_X;
logic [`XLEN-1:0] SATP, PTE;
logic [55:0] BaseAdr, PAdr;
logic [8:0] VPN [2:0];
logic [11:0] Offset;
int i;
// Grab the SATP register from privileged unit
SATP = dut.hart.priv.csr.SATP_REGW;
// Split the virtual address into page number segments and offset
VPN[2] = adrIn[38:30];
VPN[1] = adrIn[29:21];
VPN[0] = adrIn[20:12];
Offset = adrIn[11:0];
// We do not support sv48; only sv39
SvMode = SATP[63];
// Only perform translation if translation is on and the processor is not
// in machine mode
if (SvMode && (dut.hart.priv.PrivilegeModeW != `M_MODE)) begin
BaseAdr = SATP[43:0] << 12;
for (i = 2; i >= 0; i--) begin
PAdr = BaseAdr + (VPN[i] << 3);
// dtim.RAM is 64-bit addressed. PAdr specifies a byte. We right shift
// by 3 (the PTE size) to get the requested 64-bit PTE.
PTE = dut.uncore.dtim.RAM[PAdr >> 3];
PTE_R = PTE[1];
PTE_X = PTE[3];
if (PTE_R || PTE_X) begin
// Leaf page found
break;
end else begin
// Go to next level of table
BaseAdr = PTE[53:10] << 12;
end
end
// Determine which parts of the PTE page number to use based on the
// level of the page table we reached.
if (i == 2) begin
// Gigapage
assign adrTranslator = {8'b0, PTE[53:28], VPN[1], VPN[0], Offset};
end else if (i == 1) begin
// Megapage
assign adrTranslator = {8'b0, PTE[53:19], VPN[0], Offset};
end else begin
// Kilopage
assign adrTranslator = {8'b0, PTE[53:10], Offset};
end
end else begin
// Direct translation if address translation is not on
assign adrTranslator = adrIn;
end
end
endfunction
endmodule
//module logging(
// input logic clk, reset,
// input logic [31:0] dut.hart.lsu.dcache.MemPAdrM,
// input logic [1:0] (|dut.hart.lsu.dcache.MemRWM || dut.hart.lsu.dcache.AtomicM));
//
// always @(posedge clk)
// if ((|dut.hart.lsu.dcache.MemRWM || dut.hart.lsu.dcache.AtomicM) != 2'b00 && dut.hart.lsu.dcache.MemPAdrM == 0)
// $display("Warning: access to memory address 0\n");
//endmodule
module instrTrackerTB(
input logic clk, reset,
input logic [31:0] InstrF,InstrD,InstrE,InstrM,InstrW,
output string InstrFName, InstrDName, InstrEName, InstrMName, InstrWName);
instrNameDecTB fdec(InstrF, InstrFName);
instrNameDecTB ddec(InstrD, InstrDName);
instrNameDecTB edec(InstrE, InstrEName);
instrNameDecTB mdec(InstrM, InstrMName);
instrNameDecTB wdec(InstrW, InstrWName);
endmodule
// decode the instruction name, to help the test bench
module instrNameDecTB(
input logic [31:0] instr,
output string name);
logic [6:0] op;
logic [2:0] funct3;
logic [6:0] funct7;
logic [11:0] imm;
assign op = instr[6:0];
assign funct3 = instr[14:12];
assign funct7 = instr[31:25];
assign imm = instr[31:20];
// it would be nice to add the operands to the name
// create another variable called decoded
always_comb
casez({op, funct3})
10'b0000000_000: name = "BAD";
10'b0000011_000: name = "LB";
10'b0000011_001: name = "LH";
10'b0000011_010: name = "LW";
10'b0000011_011: name = "LD";
10'b0000011_100: name = "LBU";
10'b0000011_101: name = "LHU";
10'b0000011_110: name = "LWU";
10'b0010011_000: if (instr[31:15] == 0 && instr[11:7] ==0) name = "NOP/FLUSH";
else name = "ADDI";
10'b0010011_001: if (funct7[6:1] == 6'b000000) name = "SLLI";
else name = "ILLEGAL";
10'b0010011_010: name = "SLTI";
10'b0010011_011: name = "SLTIU";
10'b0010011_100: name = "XORI";
10'b0010011_101: if (funct7[6:1] == 6'b000000) name = "SRLI";
else if (funct7[6:1] == 6'b010000) name = "SRAI";
else name = "ILLEGAL";
10'b0010011_110: name = "ORI";
10'b0010011_111: name = "ANDI";
10'b0010111_???: name = "AUIPC";
10'b0100011_000: name = "SB";
10'b0100011_001: name = "SH";
10'b0100011_010: name = "SW";
10'b0100011_011: name = "SD";
10'b0011011_000: name = "ADDIW";
10'b0011011_001: name = "SLLIW";
10'b0011011_101: if (funct7 == 7'b0000000) name = "SRLIW";
else if (funct7 == 7'b0100000) name = "SRAIW";
else name = "ILLEGAL";
10'b0111011_000: if (funct7 == 7'b0000000) name = "ADDW";
else if (funct7 == 7'b0100000) name = "SUBW";
else name = "ILLEGAL";
10'b0111011_001: name = "SLLW";
10'b0111011_101: if (funct7 == 7'b0000000) name = "SRLW";
else if (funct7 == 7'b0100000) name = "SRAW";
else name = "ILLEGAL";
10'b0110011_000: if (funct7 == 7'b0000000) name = "ADD";
else if (funct7 == 7'b0000001) name = "MUL";
else if (funct7 == 7'b0100000) name = "SUB";
else name = "ILLEGAL";
10'b0110011_001: if (funct7 == 7'b0000000) name = "SLL";
else if (funct7 == 7'b0000001) name = "MULH";
else name = "ILLEGAL";
10'b0110011_010: if (funct7 == 7'b0000000) name = "SLT";
else if (funct7 == 7'b0000001) name = "MULHSU";
else name = "ILLEGAL";
10'b0110011_011: if (funct7 == 7'b0000000) name = "SLTU";
else if (funct7 == 7'b0000001) name = "DIV";
else name = "ILLEGAL";
10'b0110011_100: if (funct7 == 7'b0000000) name = "XOR";
else if (funct7 == 7'b0000001) name = "MUL";
else name = "ILLEGAL";
10'b0110011_101: if (funct7 == 7'b0000000) name = "SRL";
else if (funct7 == 7'b0000001) name = "DIVU";
else if (funct7 == 7'b0100000) name = "SRA";
else name = "ILLEGAL";
10'b0110011_110: if (funct7 == 7'b0000000) name = "OR";
else if (funct7 == 7'b0000001) name = "REM";
else name = "ILLEGAL";
10'b0110011_111: if (funct7 == 7'b0000000) name = "AND";
else if (funct7 == 7'b0000001) name = "REMU";
else name = "ILLEGAL";
10'b0110111_???: name = "LUI";
10'b1100011_000: name = "BEQ";
10'b1100011_001: name = "BNE";
10'b1100011_100: name = "BLT";
10'b1100011_101: name = "BGE";
10'b1100011_110: name = "BLTU";
10'b1100011_111: name = "BGEU";
10'b1100111_000: name = "JALR";
10'b1101111_???: name = "JAL";
10'b1110011_000: if (imm == 0) name = "ECALL";
else if (imm == 1) name = "EBREAK";
else if (imm == 2) name = "URET";
else if (imm == 258) name = "SRET";
else if (imm == 770) name = "MRET";
else name = "ILLEGAL";
10'b1110011_001: name = "CSRRW";
10'b1110011_010: name = "CSRRS";
10'b1110011_011: name = "CSRRC";
10'b1110011_101: name = "CSRRWI";
10'b1110011_110: name = "CSRRSI";
10'b1110011_111: name = "CSRRCI";
10'b0001111_???: name = "FENCE";
default: name = "ILLEGAL";
endcase
endmodule
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