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[/] [openrisc/] [trunk/] [orpsocv2/] [bench/] [verilog/] [or1200_monitor.v] - Rev 49
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////////////////////////////////////////////////////////////////////// //// //// //// OR1200's simulation monitor //// //// //// //// This file is part of the OpenRISC 1200 project //// //// http://www.opencores.org/cores/or1k/ //// //// //// //// Description //// //// Simulation monitor //// //// //// //// To Do: //// //// - move it to bench //// //// //// //// Author(s): //// //// - Damjan Lampret, lampret@opencores.org //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source is distributed in the hope that it will be //// //// useful, but WITHOUT ANY WARRANTY; without even the implied //// //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// //// PURPOSE. See the GNU Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// ////////////////////////////////////////////////////////////////////// // // CVS Revision History // // $Log: or1200_monitor.v,v $ // Revision 1.4 2004/04/05 08:46:06 lampret // Merged branch_qmem into main tree. // // Revision 1.3 2003/04/07 01:32:53 lampret // Added get_gpr support for OR1200_RFRAM_GENERIC // // Revision 1.2 2002/08/12 05:38:11 lampret // Added more WISHBONE protocol checks. Removed nop.log. Added general.log and lookup.log. // // Revision 1.1 2002/03/28 19:59:55 lampret // Added bench directory // // Revision 1.9 2002/02/01 19:56:54 lampret // Fixed combinational loops. // // Revision 1.8 2002/01/28 01:25:22 lampret // Fixed display of new 'void' nop insns. // // Revision 1.7 2002/01/19 14:10:39 lampret // Fixed OR1200_XILINX_RAM32X1D. // // Revision 1.6 2002/01/18 07:57:56 lampret // Added support for reading XILINX_RAM32X1D register file. // // Revision 1.5 2002/01/14 06:19:35 lampret // Added debug model for testing du. Updated or1200_monitor. // // Revision 1.4 2002/01/03 08:40:15 lampret // Added second clock as RISC main clock. Updated or120_monitor. // // Revision 1.3 2001/11/23 08:50:35 lampret // Typos. // // Revision 1.2 2001/11/10 04:22:55 lampret // Modified monitor tu support exceptions. // // Revision 1.1.1.1 2001/11/04 18:51:07 lampret // First import. // // Revision 1.1 2001/08/20 18:17:52 damjan // Initial revision // // Revision 1.1 2001/08/13 03:37:07 lampret // Added monitor.v and timescale.v // // Revision 1.1 2001/07/20 00:46:03 lampret // Development version of RTL. Libraries are missing. // // `include "or1200_defines.v" `include "orpsoc_testbench_defines.v" // // Top of OR1200 inside test bench // `define OR1200_TOP orpsoc_testbench.dut.i_or1k.i_or1200_top // // Enable display_arch_state task // //`define OR1200_DISPLAY_ARCH_STATE module or1200_monitor; integer fexe; reg [23:0] ref; integer fspr; integer fgeneral; integer flookup; integer r3; integer insns; // // Initialization // initial begin ref = 0; fexe = $fopen({`TEST_RESULTS_DIR,`TEST_NAME_STRING,"-executed.log"}); $timeformat (-9, 2, " ns", 12); fspr = $fopen({`TEST_RESULTS_DIR,`TEST_NAME_STRING,"-sprs.log"}); fgeneral = $fopen({`TEST_RESULTS_DIR,`TEST_NAME_STRING,"-general.log"}); flookup = $fopen({`TEST_RESULTS_DIR,`TEST_NAME_STRING,"-lookup.log"}); insns = 0; end // // Get GPR // task get_gpr; input [4:0] gpr_no; output [31:0] gpr; integer j; begin `ifdef OR1200_RFRAM_GENERIC for(j = 0; j < 32; j = j + 1) begin gpr[j] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.mem[gpr_no*32+j]; end `else `ifdef OR1200_XILINX_RAM32X1D gpr[0] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0.mem[gpr_no]; gpr[1] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1.mem[gpr_no]; gpr[2] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_2.mem[gpr_no]; gpr[3] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_3.mem[gpr_no]; gpr[4] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_4.mem[gpr_no]; gpr[5] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_5.mem[gpr_no]; gpr[6] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_6.mem[gpr_no]; gpr[7] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_7.mem[gpr_no]; gpr[8] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0.mem[gpr_no]; gpr[9] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1.mem[gpr_no]; gpr[10] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_2.mem[gpr_no]; gpr[11] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_3.mem[gpr_no]; gpr[12] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_4.mem[gpr_no]; gpr[13] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_5.mem[gpr_no]; gpr[14] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_6.mem[gpr_no]; gpr[15] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_7.mem[gpr_no]; gpr[16] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0.mem[gpr_no]; gpr[17] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1.mem[gpr_no]; gpr[18] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_2.mem[gpr_no]; gpr[19] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_3.mem[gpr_no]; gpr[20] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_4.mem[gpr_no]; gpr[21] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_5.mem[gpr_no]; gpr[22] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_6.mem[gpr_no]; gpr[23] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_7.mem[gpr_no]; gpr[24] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0.mem[gpr_no]; gpr[25] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1.mem[gpr_no]; gpr[26] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_2.mem[gpr_no]; gpr[27] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_3.mem[gpr_no]; gpr[28] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_4.mem[gpr_no]; gpr[29] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_5.mem[gpr_no]; gpr[30] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_6.mem[gpr_no]; gpr[31] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_7.mem[gpr_no]; `else `ifdef OR1200_XILINX_RAMB4 for(j = 0; j < 16; j = j + 1) begin gpr[j] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.ramb4_s16_0.mem[gpr_no*16+j]; end for(j = 0; j < 16; j = j + 1) begin gpr[j+16] = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.ramb4_s16_1.mem[gpr_no*16+j]; end `else `ifdef OR1200_ARTISAN_SDP `else gpr = `OR1200_TOP.or1200_cpu.or1200_rf.rf_a.mem[gpr_no]; `endif `endif `endif `endif end endtask // // Write state of the OR1200 registers into a file // // Limitation: only a small subset of register file RAMs // are supported // task display_arch_state; reg [5:0] i; reg [31:0] r; integer j; begin `ifdef OR1200_DISPLAY_ARCH_STATE ref = ref + 1; $fdisplay(flookup, "Instruction %d: %t", insns, $time); $fwrite(fexe, "\nEXECUTED(%d): %h: %h", insns, `OR1200_TOP.or1200_cpu.or1200_except.wb_pc, `OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn); for(i = 0; i < 32; i = i + 1) begin if (i % 4 == 0) $fdisplay(fexe); get_gpr(i, r); $fwrite(fexe, "GPR%d: %h ", i, r); end $fdisplay(fexe); r = `OR1200_TOP.or1200_cpu.or1200_sprs.sr; $fwrite(fexe, "SR : %h ", r); r = `OR1200_TOP.or1200_cpu.or1200_sprs.epcr; $fwrite(fexe, "EPCR0: %h ", r); r = `OR1200_TOP.or1200_cpu.or1200_sprs.eear; $fwrite(fexe, "EEAR0: %h ", r); r = `OR1200_TOP.or1200_cpu.or1200_sprs.esr; $fdisplay(fexe, "ESR0 : %h", r); insns = insns + 1; `endif end endtask // display_arch_state /* Keep a trace buffer of the last lot of instructions and addresses * "executed",as read from the writeback stage, and cause a $finish if we hit * an instruction that is invalid, such as all zeros. * Currently, only breaks on an all zero instruction, but should probably be * made to break for anything with an X in it too. And of course ideally this * shouldn't be needed - but is handy if someone changes something and stops * the test continuing forever. */ integer num_nul_inst; initial num_nul_inst = 0; task monitor_for_crash; `define OR1200_MONITOR_CRASH_TRACE_SIZE 32 reg [31:0] insn_trace [0:`OR1200_MONITOR_CRASH_TRACE_SIZE-1]; //Trace buffer of 32 instructions reg [31:0] addr_trace [0:`OR1200_MONITOR_CRASH_TRACE_SIZE-1]; //Trace buffer of the addresses of those instructions integer i; begin if (`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn == 32'h00000000) num_nul_inst = num_nul_inst + 1; if (num_nul_inst == 1000) // Sat a loop a bit too long... begin $fdisplay(fgeneral, "ERROR - no instruction at PC %h", `OR1200_TOP.or1200_cpu.or1200_except.wb_pc); $fdisplay(fgeneral, "Crash trace: Last %d instructions: ",`OR1200_MONITOR_CRASH_TRACE_SIZE); $fdisplay(fgeneral, "PC\t\tINSTR"); for(i=`OR1200_MONITOR_CRASH_TRACE_SIZE-1;i>=0;i=i-1) begin $fdisplay(fgeneral, "%h\t%h",addr_trace[i], insn_trace[i]); end #100 $finish; end else begin for(i=`OR1200_MONITOR_CRASH_TRACE_SIZE-1;i>0;i=i-1) begin insn_trace[i] = insn_trace[i-1]; addr_trace[i] = addr_trace[i-1]; end insn_trace[0] = `OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn; addr_trace[0] = `OR1200_TOP.or1200_cpu.or1200_except.wb_pc; end end endtask // monitor_for_crash // // Write state of the OR1200 registers into a file; version for exception // task display_arch_state_except; reg [5:0] i; reg [31:0] r; integer j; begin `ifdef OR1200_DISPLAY_ARCH_STATE ref = ref + 1; $fdisplay(flookup, "Instruction %d: %t", insns, $time); $fwrite(fexe, "\nEXECUTED(%d): %h: %h (exception)", insns, `OR1200_TOP.or1200_cpu.or1200_except.ex_pc, `OR1200_TOP.or1200_cpu.or1200_ctrl.ex_insn); for(i = 0; i < 32; i = i + 1) begin if (i % 4 == 0) $fdisplay(fexe); get_gpr(i, r); $fwrite(fexe, "GPR%d: %h ", i, r); end $fdisplay(fexe); r = `OR1200_TOP.or1200_cpu.or1200_sprs.sr; $fwrite(fexe, "SR : %h ", r); r = `OR1200_TOP.or1200_cpu.or1200_sprs.epcr; $fwrite(fexe, "EPCR0: %h ", r); r = `OR1200_TOP.or1200_cpu.or1200_sprs.eear; $fwrite(fexe, "EEAR0: %h ", r); r = `OR1200_TOP.or1200_cpu.or1200_sprs.esr; $fdisplay(fexe, "ESR0 : %h", r); insns = insns + 1; `endif end endtask integer iwb_progress; reg [31:0] iwb_progress_addr; // // WISHBONE bus checker // always @(posedge `OR1200_TOP.iwb_clk_i) if (`OR1200_TOP.iwb_rst_i) begin iwb_progress = 0; iwb_progress_addr = `OR1200_TOP.iwb_adr_o; end else begin if (`OR1200_TOP.iwb_cyc_o && (iwb_progress != 2)) begin iwb_progress = 1; end if (`OR1200_TOP.iwb_stb_o) begin if (iwb_progress >= 1) begin if (iwb_progress == 1) iwb_progress_addr = `OR1200_TOP.iwb_adr_o; iwb_progress = 2; end else begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.iwb_stb_o raised without `OR1200_TOP.iwb_cyc_o, at %t\n", $time); #100 $finish; end end if (`OR1200_TOP.iwb_ack_i & `OR1200_TOP.iwb_err_i) begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.iwb_ack_i and `OR1200_TOP.iwb_err_i raised at the same time, at %t\n", $time); end if ((iwb_progress == 2) && (iwb_progress_addr != `OR1200_TOP.iwb_adr_o)) begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.iwb_adr_o changed while waiting for `OR1200_TOP.iwb_err_i/`OR1200_TOP.iwb_ack_i, at %t\n", $time); #100 $finish; end if (`OR1200_TOP.iwb_ack_i | `OR1200_TOP.iwb_err_i) if (iwb_progress == 2) begin iwb_progress = 0; iwb_progress_addr = `OR1200_TOP.iwb_adr_o; end else begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.iwb_ack_i/`OR1200_TOP.iwb_err_i raised without `OR1200_TOP.iwb_cyc_i/`OR1200_TOP.iwb_stb_i, at %t\n", $time); #100 $finish; end if ((iwb_progress == 2) && !`OR1200_TOP.iwb_stb_o) begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.iwb_stb_o lowered without `OR1200_TOP.iwb_err_i/`OR1200_TOP.iwb_ack_i, at %t\n", $time); /* #100 $finish;*/ end end integer dwb_progress; reg [31:0] dwb_progress_addr; // // WISHBONE bus checker // always @(posedge `OR1200_TOP.dwb_clk_i) if (`OR1200_TOP.dwb_rst_i) dwb_progress = 0; else begin if (`OR1200_TOP.dwb_cyc_o && (dwb_progress != 2)) dwb_progress = 1; if (`OR1200_TOP.dwb_stb_o) if (dwb_progress >= 1) begin if (dwb_progress == 1) dwb_progress_addr = `OR1200_TOP.dwb_adr_o; dwb_progress = 2; end else begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.dwb_stb_o raised without `OR1200_TOP.dwb_cyc_o, at %t\n", $time); #100 $finish; end if (`OR1200_TOP.dwb_ack_i & `OR1200_TOP.dwb_err_i) begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.dwb_ack_i and `OR1200_TOP.dwb_err_i raised at the same time, at %t\n", $time); end if ((dwb_progress == 2) && (dwb_progress_addr != `OR1200_TOP.dwb_adr_o)) begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.dwb_adr_o changed while waiting for `OR1200_TOP.dwb_err_i/`OR1200_TOP.dwb_ack_i, at %t\n", $time); #100 $finish; end if (`OR1200_TOP.dwb_ack_i | `OR1200_TOP.dwb_err_i) if (dwb_progress == 2) begin dwb_progress = 0; dwb_progress_addr = `OR1200_TOP.dwb_adr_o; end else begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.dwb_ack_i/`OR1200_TOP.dwb_err_i raised without `OR1200_TOP.dwb_cyc_i/`OR1200_TOP.dwb_stb_i, at %t\n", $time); #100 $finish; end if ((dwb_progress == 2) && !`OR1200_TOP.dwb_stb_o) begin $fdisplay(fgeneral, "WISHBONE protocol violation: `OR1200_TOP.dwb_stb_o lowered without `OR1200_TOP.dwb_err_i/`OR1200_TOP.dwb_ack_i, at %t\n", $time); #100 $finish; end end // // Hooks for: // - displaying registers // - end of simulation // - access to SPRs // always @(posedge `OR1200_TOP.or1200_cpu.or1200_ctrl.clk) if (!`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_freeze) begin #2; if (((`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn[31:26] != `OR1200_OR32_NOP) || !`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn[16]) && !(`OR1200_TOP.or1200_cpu.or1200_except.except_flushpipe && `OR1200_TOP.or1200_cpu.or1200_except.ex_dslot)) begin display_arch_state; monitor_for_crash; end else if (`OR1200_TOP.or1200_cpu.or1200_except.except_flushpipe) display_arch_state_except; if (`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn == 32'h1500_0001) begin // small hack to stop simulation (l.nop 1) get_gpr(3, r3); $fdisplay(fgeneral, "%t: l.nop exit (%h)", $time, r3); $finish; end if (`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn == 32'h1500_000a) begin // debug if test (l.nop 10) $fdisplay(fgeneral, "%t: l.nop dbg_if_test", $time); `ifdef DBG_IF_MODEL xess_top.i_xess_fpga.dbg_if_model.dbg_if_test_go = 1; `endif end if (`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn == 32'h1500_0002) begin // simulation reports (l.nop 2) get_gpr(3, r3); $fdisplay(fgeneral, "%t: l.nop report (%h)", $time, r3); end if (`OR1200_TOP.or1200_cpu.or1200_ctrl.wb_insn == 32'h1500_0003) begin // simulation printfs (l.nop 3) get_gpr(3, r3); $fdisplay(fgeneral, "%t: l.nop printf (%h)", $time, r3); end if (`OR1200_TOP.or1200_cpu.or1200_sprs.sprs_op == `OR1200_ALUOP_MTSR) // l.mtspr $fdisplay(fspr, "%t: Write to SPR : [%h] <- %h", $time, `OR1200_TOP.or1200_cpu.or1200_sprs.spr_addr, `OR1200_TOP.or1200_cpu.or1200_sprs.spr_dat_o); if (`OR1200_TOP.or1200_cpu.or1200_sprs.sprs_op == `OR1200_ALUOP_MFSR) // l.mfspr $fdisplay(fspr, "%t: Read from SPR: [%h] -> %h", $time, `OR1200_TOP.or1200_cpu.or1200_sprs.spr_addr, `OR1200_TOP.or1200_cpu.or1200_sprs.to_wbmux); end endmodule
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