`define MEMBASE 'h400000
`define DATABASE 'h10010000
`define TEXTSIZE 'h100
`define MEMSIZE 'h200
`define MEMRANGE `MEMBASE:`MEMBASE+`MEMSIZE-1
`define A(addr) ((addr)-`DATABASE+`MEMBASE+`TEXTSIZE)
`define MEM(addr) mem[((addr)-`DATABASE+`MEMBASE+`TEXTSIZE)]
module test_proc();
parameter read_trace = 0;
parameter write_trace = 0;
parameter shadow_trace = 1;
parameter tr_size = 100;
parameter use_trace = read_trace | shadow_trace;
wire [7:0] exception;
reg reset, clk, clk2;
wire exc;
system p1(exception,reset,clk);
tb_proc p2(exc,clk2);
reg [31:0] gpr_shadow [0:31];
reg [31:0] gpr_shadow2 [0:31];
reg [319:0] isource[p1.m1.text_base>>2:p1.m1.text_base+p1.m1.text_size>>2];
reg [31:0] regname [0:31];
reg [15:0] statename [0:7];
integer i, reg_old, reg_new;
reg go;
real cycle_count;
integer icount;
integer changed_reg, changed_reg_count;
reg [31:0] tr_pc_a [0:tr_size];
reg [31:0] tr_regv_a [0:tr_size];
reg [4:0] tr_regno_a [0:tr_size];
reg [31:0] tr_pc;
reg [31:0] tr_regv;
reg [4:0] tr_regno;
integer tr_fd, tr_icount_end;
always wait( go ) begin clk = 0; #9; clk = 1; #1; end
task initmem;
input [31:0] addr;
input [31:0] text;
input [319:0] source;
reg [2:0] err;
begin
err = p1.m1.poke_word(addr,text);
if( err ) begin
$display("Error %d initializing text address 0x%h.",
err, addr);
$stop;
end
{p2.mem[addr],p2.mem[addr+1],p2.mem[addr+2],p2.mem[addr+3]} = text;
while( source[319:312] === 8'b0 ) source = {source[311:0]," "};
isource[addr>>2] = source;
end
endtask
task initdmem;
input [31:0] addr;
input [31:0] word;
reg [31:0] daddr;
reg [2:0] err;
begin
err = p1.m1.poke_word(addr,word);
if( err ) begin
$display("Error %d initializing data address 0x%h.",
err, addr);
$stop;
end
daddr = `A(addr);
{p2.mem[daddr],p2.mem[daddr+1],p2.mem[daddr+2],p2.mem[daddr+3]} = word;
end
endtask
task get_trace_record;
output [31:0] tr_pc;
output [5:0] tr_regno;
output [31:0] tr_regv;
integer i;
reg [31:0] cpy_reg [0:31];
if( read_trace ) begin
tr_pc = tr_pc_a[icount];
tr_regno = tr_regno_a[icount];
tr_regv = tr_regv_a[icount];
end else if ( write_trace ) begin
$fdisplay(tr_fd, " tr_regno_a[%d] = %d; tr_regv_a[%d] = 'h%h;",
icount, changed_reg,
icount, gpr_shadow[changed_reg]);
$fdisplay(tr_fd," tr_pc_a[%d] = 'h%h;", icount,p1.cpu1.pc);
end else if ( shadow_trace ) begin
tr_pc = p2.pc;
tr_regno = 0;
tr_regv = 0;
for(i=0; i<32; i=i+1) if( gpr_shadow2[i] != p2.gpr[i] )
begin
tr_regno = i;
tr_regv = p2.gpr[i];
gpr_shadow2[i] = tr_regv;
end
p2.step;
end
endtask
integer rno;
task initregs;
input [31:0] name;
input [3:0] cnt;
integer i;
for(i=0; i<cnt; i=i+1) begin
regname[rno] = name + i;
rno = rno + 1;
end
endtask
task cpi_and_stop;
real cpi;
begin
cpi = icount ? cycle_count / icount : 0;
$display("Average instruction execution time of %.2f CPI.", cpi);
$display("End of testbench run.");
$stop;
end
endtask
initial begin
go = 0;
cycle_count = 0;
icount = 0;
reset = 1;
begin:INITNAMES
integer i;
regname[0] = "zero";
regname[1] = "at";
rno = 2;
initregs("v0",2);
initregs("a0",4);
initregs("t0",8);
initregs("s0",8);
initregs("t8",2);
initregs("k0",2);
regname[28] = "gp";
regname[29] = "sp";
regname[30] = "fp";
regname[31] = "ra";
for(i=0; i<8; i=i+1) statename[i] = "S0"+i;
statename[1] = "IF";
statename[2] = "ID";
statename[3] = "EX";
statename[4] = "ME";
statename[5] = "WB";
end
if( read_trace ) begin
`include "trace.v"
end
if( write_trace )
tr_fd = $fopen("trace.v");
`include `MIPS_PROG
for(i=0; i<32; i=i+1)
begin:B
reg [31:0] val;
val = i * 10;
p1.cpu1.gpr[i] = val;
p2.gpr[i] = val;
gpr_shadow[i] = val;
gpr_shadow2[i] = val;
end
p1.cpu1.pc = 'h400000;
p2.pc = 'h400000;
p1.cpu1.npc = p1.cpu1.pc + 4;
p2.npc = p1.cpu1.pc + 4;
icount = 0;
go = 1;
changed_reg = 0;
changed_reg_count = 0;
wait( clk == 0 );
@( posedge clk ); @( negedge clk );
reset = 0;
while( !exception ) begin
cycle_count = cycle_count + 1;
if( p1.cpu1.state == 1 ) begin
get_trace_record(tr_pc,tr_regno,tr_regv);
if( !exception && use_trace ) begin
if( changed_reg_count > 1 ) begin
$display("Too many registers, %d, changed.\n",
changed_reg_count);
cpi_and_stop;
end
if( tr_regno != changed_reg ) begin
$display("FAIL: Wrong register modified %d (%s) should change, %d (%s) changed.",
tr_regno, regname[tr_regno],
changed_reg, regname[changed_reg]);
cpi_and_stop;
end
if( tr_regv != gpr_shadow[changed_reg] ) begin
$display("FAIL: Wrong value written. 0x%h (correct) != 0x%h",
tr_regv,gpr_shadow[changed_reg]);
cpi_and_stop;
end
end
icount = icount + 1;
changed_reg_count = 0;
changed_reg = 0;
$display("%s PC 0x%h: %-s",
statename[p1.cpu1.state], p1.cpu1.pc,
isource[p1.cpu1.pc>>2] );
if( use_trace && tr_pc !== p1.cpu1.pc ) begin
$display("PC mismatch at instruction %d, 0x%h (correct) != %h",
icount, tr_pc, p1.cpu1.pc);
cpi_and_stop;
end
end
@( negedge clk );
for(i=0; i<32; i=i+1)
if( gpr_shadow[i] !== p1.cpu1.gpr[i] ) begin
changed_reg = i;
changed_reg_count = changed_reg_count + 1;
reg_old = gpr_shadow[i];
reg_new = p1.cpu1.gpr[i];
$display(" Register %d (%s): 0x%h (%d) -> 0x%h (%d)",
i, regname[i], gpr_shadow[i],
reg_old, p1.cpu1.gpr[i], reg_new);
gpr_shadow[i] = p1.cpu1.gpr[i];
end
end
if( write_trace ) begin
if( icount > tr_size )
$display("WARNING!!! Increase tr_size from %d to at least %d.\n",
tr_size,icount);
$fdisplay(tr_fd," tr_icount_end = %d;",icount);
$fclose(tr_fd);
end
if( read_trace ) begin
if( icount != tr_icount_end ) begin
$display("FAIL: Valid instruction unrecognized.");
end else begin
$display("PASS: Correctly executed %d instructions.",icount);
end
end
if( exception ) begin
if( p1.cpu1.ir == 'hc )
$display("Ending at a syscall instruction.");
else
$display("Illegal instruction exception at address 0x%h",
p1.cpu1.pc);
end
cpi_and_stop;
end
endmodule
module tb_proc(exc,clk);
input clk;
output exc;
reg exc;
reg [7:0] mem [`MEMRANGE];
reg [31:0] pc, npc, nnpc, ir;
reg [31:0] gpr [0:31];
reg [5:0] opcode, funct;
reg [4:0] rs, rt, rd, sa;
reg [15:0] immed;
reg [25:0] ii;
reg [31:0] uimm16, simm16;
reg [31:0] branch_target;
// Values for funct field.
parameter f_sll = 6'h0;
parameter f_srl = 6'h2;
parameter f_sllv = 6'h4;
parameter f_srlv = 6'h6;
parameter f_add = 6'h20;
parameter f_sub = 6'h22;
parameter f_or = 6'h25;
// Values for opcode field.
parameter o_j = 6'h2;
parameter o_beq = 6'h4;
parameter o_bne = 6'h5;
parameter o_addi = 6'h8;
parameter o_slti = 6'ha;
parameter o_sltiu = 6'hb;
parameter o_andi = 6'hc;
parameter o_ori = 6'hd;
parameter o_lui = 6'hf;
parameter o_lw = 6'h23;
parameter o_lbu = 6'h24;
parameter o_sw = 6'h2b;
parameter o_sb = 6'h28;
initial begin
exc = 0;
pc = 0;
npc = 4;
end
task step;
begin
ir = {mem[pc],mem[pc+1],mem[pc+2],mem[pc+3]};
// R Format
{opcode,rs,rt,rd,sa,funct} = ir;
nnpc = npc + 4; // May be reassigned below.
if( !opcode ) begin
//
// R-Format Instructions
case( funct )
f_sllv : gpr[rd] = gpr[rt] << ( gpr[rs] & 32'h1f );
f_srlv : gpr[rd] = gpr[rt] >> ( gpr[rs] & 32'h1f );
f_sll : gpr[rd] = gpr[rt] << sa;
f_srl : gpr[rd] = gpr[rt] >> sa;
f_add : gpr[rd] = gpr[rs] + gpr[rt];
f_or : gpr[rd] = gpr[rs] | gpr[rt];
f_sub : gpr[rd] = gpr[rs] - gpr[rt];
default : exc = 1;
endcase
end else begin
//
// I- and J-Format Instructions
// I Format (Also uses opcode, rs, and rt.)
immed = ir[15:0];
// J Format (Also uses opcode.)
ii = ir[25:0];
uimm16 = { 16'b0, immed };
simm16 = immed[15] ? { 16'hffff, immed } : uimm16;
branch_target = npc + ( simm16 << 2 );
case( opcode )
o_j : nnpc = {npc[31:28],ii,2'b0};
o_beq : if( gpr[rs] == gpr[rt] ) nnpc = branch_target;
o_bne : if( gpr[rs] != gpr[rt] ) nnpc = branch_target;
o_andi : gpr[rt] = gpr[rs] & uimm16;
o_sltiu : gpr[rt] = gpr[rs] < simm16;
o_slti : begin:A
integer a, b;
a = gpr[rs]; b = simm16;
gpr[rt] = a < b;
end
o_addi : gpr[rt] = gpr[rs] + simm16;
o_ori : gpr[rt] = gpr[rs] | uimm16;
o_lui : gpr[rt] = { immed, 16'b0 };
o_lbu : gpr[rt] = { 24'b0, `MEM( gpr[rs] + simm16 ) };
o_sb : `MEM( gpr[rs] + simm16 ) = gpr[rt];
default : exc = 1;
endcase
end
gpr[0] = 0;
pc = npc;
npc = nnpc;
end
endtask
endmodule