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[/] [yifive/] [trunk/] [caravel_yifive/] [verilog/] [rtl/] [syntacore/] [scr1/] [src/] [core/] [pipeline/] [scr1_tracelog.sv] - Rev 21
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/// Copyright by Syntacore LLC © 2016-2020. See LICENSE for details
/// @file <scr1_tracelog.sv>
/// @brief Core tracelog module
///
`include "scr1_arch_description.svh"
`include "scr1_arch_types.svh"
`include "scr1_csr.svh"
`ifdef SCR1_TRGT_SIMULATION
module scr1_tracelog (
input logic rst_n, // Tracelog reset
input logic clk, // Tracelog clock
input logic [`SCR1_XLEN-1:0] soc2pipe_fuse_mhartid_i, // Fuse MHARTID
// MPRF
`ifdef SCR1_MPRF_RAM
input logic [`SCR1_XLEN-1:0] mprf2trace_int_i [1:`SCR1_MPRF_SIZE-1], // MPRF registers content
`else // SCR1_MPRF_RAM
logic [`SCR1_XLEN-1:0] mprf2trace_int_i[1:`SCR1_MPRF_SIZE-1], // MPRF registers content
`endif // SCR1_MPRF_RAM
input logic mprf2trace_wr_en_i, // MPRF write enable
input logic [`SCR1_MPRF_AWIDTH-1:0] mprf2trace_wr_addr_i, // MPRF write address
input logic [`SCR1_XLEN-1:0] mprf2trace_wr_data_i, // MPRF write data
// EXU
input logic exu2trace_update_pc_en_i, // PC updated flag
input logic [`SCR1_XLEN-1:0] exu2trace_update_pc_i, // Next PC value
// IFU
input logic [`SCR1_IMEM_DWIDTH-1:0] ifu2trace_instr_i, // Current instruction from IFU stage
// CSR
input logic csr2trace_mstatus_mie_i, // CSR MSTATUS.mie bit
input logic csr2trace_mstatus_mpie_i, // CSR MSTATUS.mpie bit
input logic [`SCR1_XLEN-1:6] csr2trace_mtvec_base_i, // CSR MTVEC.
input logic csr2trace_mtvec_mode_i, // CSR MTVEC.
input logic csr2trace_mie_meie_i, // CSR MIE.meie bit
input logic csr2trace_mie_mtie_i, // CSR MIE.mtie bit
input logic csr2trace_mie_msie_i, // CSR MIE.msie bit
input logic csr2trace_mip_meip_i, // CSR MIP.meip bit
input logic csr2trace_mip_mtip_i, // CSR MIP.mtip bit
input logic csr2trace_mip_msip_i, // CSR MIP.msip bit
`ifdef SCR1_RVC_EXT
input logic [`SCR1_XLEN-1:1] csr2trace_mepc_i, // CSR MEPC register
`else // SCR1_RVC_EXT
input logic [`SCR1_XLEN-1:2] csr2trace_mepc_i, // CSR MEPC register
`endif // SCR1_RVC_EXT
input logic csr2trace_mcause_irq_i, // CSR MCAUSE.interrupt bit
input [SCR1_EXC_CODE_WIDTH_E-1:0] csr2trace_mcause_ec_i, // CSR MCAUSE.exception_code bit
input logic [`SCR1_XLEN-1:0] csr2trace_mtval_i, // CSR MTVAL register
input logic csr2trace_mstatus_mie_up_i, // CSR MSTATUS.mie update flag
// Events
input logic csr2trace_e_exc_i, // exception event
input logic csr2trace_e_irq_i, // interrupt event
input logic pipe2trace_e_wake_i, // pipe wakeup event
input logic csr2trace_e_mret_i // MRET instruction
);
//-------------------------------------------------------------------------------
// Local types declaration
//-------------------------------------------------------------------------------
typedef struct {
logic [`SCR1_XLEN-1:0] INT_00_ZERO ;
logic [`SCR1_XLEN-1:0] INT_01_RA ;
logic [`SCR1_XLEN-1:0] INT_02_SP ;
logic [`SCR1_XLEN-1:0] INT_03_GP ;
logic [`SCR1_XLEN-1:0] INT_04_TP ;
logic [`SCR1_XLEN-1:0] INT_05_T0 ;
logic [`SCR1_XLEN-1:0] INT_06_T1 ;
logic [`SCR1_XLEN-1:0] INT_07_T2 ;
logic [`SCR1_XLEN-1:0] INT_08_S0 ;
logic [`SCR1_XLEN-1:0] INT_09_S1 ;
logic [`SCR1_XLEN-1:0] INT_10_A0 ;
logic [`SCR1_XLEN-1:0] INT_11_A1 ;
logic [`SCR1_XLEN-1:0] INT_12_A2 ;
logic [`SCR1_XLEN-1:0] INT_13_A3 ;
logic [`SCR1_XLEN-1:0] INT_14_A4 ;
logic [`SCR1_XLEN-1:0] INT_15_A5 ;
`ifndef SCR1_RVE_EXT
logic [`SCR1_XLEN-1:0] INT_16_A6 ;
logic [`SCR1_XLEN-1:0] INT_17_A7 ;
logic [`SCR1_XLEN-1:0] INT_18_S2 ;
logic [`SCR1_XLEN-1:0] INT_19_S3 ;
logic [`SCR1_XLEN-1:0] INT_20_S4 ;
logic [`SCR1_XLEN-1:0] INT_21_S5 ;
logic [`SCR1_XLEN-1:0] INT_22_S6 ;
logic [`SCR1_XLEN-1:0] INT_23_S7 ;
logic [`SCR1_XLEN-1:0] INT_24_S8 ;
logic [`SCR1_XLEN-1:0] INT_25_S9 ;
logic [`SCR1_XLEN-1:0] INT_26_S10 ;
logic [`SCR1_XLEN-1:0] INT_27_S11 ;
logic [`SCR1_XLEN-1:0] INT_28_T3 ;
logic [`SCR1_XLEN-1:0] INT_29_T4 ;
logic [`SCR1_XLEN-1:0] INT_30_T5 ;
logic [`SCR1_XLEN-1:0] INT_31_T6 ;
`endif // SCR1_RVE_EXT
} type_scr1_ireg_name_s;
typedef struct packed {
logic [`SCR1_XLEN-1:0] mstatus;
logic [`SCR1_XLEN-1:0] mtvec;
logic [`SCR1_XLEN-1:0] mie;
logic [`SCR1_XLEN-1:0] mip;
logic [`SCR1_XLEN-1:0] mepc;
logic [`SCR1_XLEN-1:0] mcause;
logic [`SCR1_XLEN-1:0] mtval;
} type_scr1_csr_trace_s;
//-------------------------------------------------------------------------------
// Local Signal Declaration
//-------------------------------------------------------------------------------
type_scr1_ireg_name_s mprf_int_alias;
`ifdef SCR1_TRACE_LOG_EN
time current_time;
// Tracelog control signals
logic trace_flag;
logic trace_update;
logic trace_update_r;
byte event_type;
logic [`SCR1_XLEN-1:0] trace_pc;
logic [`SCR1_XLEN-1:0] trace_npc;
logic [`SCR1_IMEM_DWIDTH-1:0] trace_instr;
type_scr1_csr_trace_s csr_trace1;
// File handlers
int unsigned trace_fhandler_core;
// MPRF signals
logic mprf_up;
logic [`SCR1_MPRF_AWIDTH-1:0] mprf_addr;
logic [`SCR1_XLEN-1:0] mprf_wdata;
string hart;
string test_name;
`endif // SCR1_TRACE_LOG_EN
//-------------------------------------------------------------------------------
// Local tasks
//-------------------------------------------------------------------------------
`ifdef SCR1_TRACE_LOG_EN
task trace_write_common;
$fwrite(trace_fhandler_core, "%16d ", current_time);
// $fwrite(trace_fhandler_core, " 0 ");
$fwrite(trace_fhandler_core, " %s ", event_type);
$fwrite(trace_fhandler_core, " %8x ", trace_pc);
$fwrite(trace_fhandler_core, " %8x ", trace_instr);
$fwrite(trace_fhandler_core, " %8x ", trace_npc);
endtask // trace_write_common
task trace_write_int_walias;
case (mprf_addr)
0 : $fwrite(trace_fhandler_core, " x00_zero ");
1 : $fwrite(trace_fhandler_core, " x01_ra ");
2 : $fwrite(trace_fhandler_core, " x02_sp ");
3 : $fwrite(trace_fhandler_core, " x03_gp ");
4 : $fwrite(trace_fhandler_core, " x04_tp ");
5 : $fwrite(trace_fhandler_core, " x05_t0 ");
6 : $fwrite(trace_fhandler_core, " x06_t1 ");
7 : $fwrite(trace_fhandler_core, " x07_t2 ");
8 : $fwrite(trace_fhandler_core, " x08_s0 ");
9 : $fwrite(trace_fhandler_core, " x09_s1 ");
10 : $fwrite(trace_fhandler_core, " x10_a0 ");
11 : $fwrite(trace_fhandler_core, " x11_a1 ");
12 : $fwrite(trace_fhandler_core, " x12_a2 ");
13 : $fwrite(trace_fhandler_core, " x13_a3 ");
14 : $fwrite(trace_fhandler_core, " x14_a4 ");
15 : $fwrite(trace_fhandler_core, " x15_a5 ");
`ifndef SCR1_RVE_EXT
16 : $fwrite(trace_fhandler_core, " x16_a6 ");
17 : $fwrite(trace_fhandler_core, " x17_a7 ");
18 : $fwrite(trace_fhandler_core, " x18_s2 ");
19 : $fwrite(trace_fhandler_core, " x19_s3 ");
20 : $fwrite(trace_fhandler_core, " x20_s4 ");
21 : $fwrite(trace_fhandler_core, " x21_s5 ");
22 : $fwrite(trace_fhandler_core, " x22_s6 ");
23 : $fwrite(trace_fhandler_core, " x23_s7 ");
24 : $fwrite(trace_fhandler_core, " x24_s8 ");
25 : $fwrite(trace_fhandler_core, " x25_s9 ");
26 : $fwrite(trace_fhandler_core, " x26_s10 ");
27 : $fwrite(trace_fhandler_core, " x27_s11 ");
28 : $fwrite(trace_fhandler_core, " x28_t3 ");
29 : $fwrite(trace_fhandler_core, " x29_t4 ");
30 : $fwrite(trace_fhandler_core, " x30_t5 ");
31 : $fwrite(trace_fhandler_core, " x31_t6 ");
`endif // SCR1_RVE_EXT
default: begin
$fwrite(trace_fhandler_core, " xxx ");
end
endcase
endtask
`endif // SCR1_TRACE_LOG_EN
//-------------------------------------------------------------------------------
// MPRF Registers assignment
//-------------------------------------------------------------------------------
assign mprf_int_alias.INT_00_ZERO = '0;
assign mprf_int_alias.INT_01_RA = mprf2trace_int_i[1];
assign mprf_int_alias.INT_02_SP = mprf2trace_int_i[2];
assign mprf_int_alias.INT_03_GP = mprf2trace_int_i[3];
assign mprf_int_alias.INT_04_TP = mprf2trace_int_i[4];
assign mprf_int_alias.INT_05_T0 = mprf2trace_int_i[5];
assign mprf_int_alias.INT_06_T1 = mprf2trace_int_i[6];
assign mprf_int_alias.INT_07_T2 = mprf2trace_int_i[7];
assign mprf_int_alias.INT_08_S0 = mprf2trace_int_i[8];
assign mprf_int_alias.INT_09_S1 = mprf2trace_int_i[9];
assign mprf_int_alias.INT_10_A0 = mprf2trace_int_i[10];
assign mprf_int_alias.INT_11_A1 = mprf2trace_int_i[11];
assign mprf_int_alias.INT_12_A2 = mprf2trace_int_i[12];
assign mprf_int_alias.INT_13_A3 = mprf2trace_int_i[13];
assign mprf_int_alias.INT_14_A4 = mprf2trace_int_i[14];
assign mprf_int_alias.INT_15_A5 = mprf2trace_int_i[15];
`ifndef SCR1_RVE_EXT
assign mprf_int_alias.INT_16_A6 = mprf2trace_int_i[16];
assign mprf_int_alias.INT_17_A7 = mprf2trace_int_i[17];
assign mprf_int_alias.INT_18_S2 = mprf2trace_int_i[18];
assign mprf_int_alias.INT_19_S3 = mprf2trace_int_i[19];
assign mprf_int_alias.INT_20_S4 = mprf2trace_int_i[20];
assign mprf_int_alias.INT_21_S5 = mprf2trace_int_i[21];
assign mprf_int_alias.INT_22_S6 = mprf2trace_int_i[22];
assign mprf_int_alias.INT_23_S7 = mprf2trace_int_i[23];
assign mprf_int_alias.INT_24_S8 = mprf2trace_int_i[24];
assign mprf_int_alias.INT_25_S9 = mprf2trace_int_i[25];
assign mprf_int_alias.INT_26_S10 = mprf2trace_int_i[26];
assign mprf_int_alias.INT_27_S11 = mprf2trace_int_i[27];
assign mprf_int_alias.INT_28_T3 = mprf2trace_int_i[28];
assign mprf_int_alias.INT_29_T4 = mprf2trace_int_i[29];
assign mprf_int_alias.INT_30_T5 = mprf2trace_int_i[30];
assign mprf_int_alias.INT_31_T6 = mprf2trace_int_i[31];
`endif // SCR1_RVE_EXT
//-------------------------------------------------------------------------------
// Legacy time counter
//-------------------------------------------------------------------------------
// The counter is left for compatibility with the current UVM environment
int time_cnt;
always_ff @(negedge rst_n, posedge clk) begin
if (~rst_n) begin
time_cnt <= 0;
end else begin
time_cnt <= time_cnt + 1;
end
end
//-------------------------------------------------------------------------------
// Initial part pipeline tracelog
//-------------------------------------------------------------------------------
`ifdef SCR1_TRACE_LOG_EN
// Files opening and writing initial header
initial begin
$timeformat(-9, 0, " ns", 10);
#1 hart.hextoa(soc2pipe_fuse_mhartid_i);
trace_fhandler_core = $fopen({"tracelog_core_", hart, ".log"}, "w");
// Writing initial header
$fwrite(trace_fhandler_core, "# RTL_ID %h\n", SCR1_CSR_MIMPID);
$fwrite(trace_fhandler_core, "#\n");
// $fwrite(trace_fhandler_core, "# R - return from trap:\n");
// $fwrite(trace_fhandler_core, "# 1 - MRET\n");
// $fwrite(trace_fhandler_core, "# 0 - no return\n");
$fwrite(trace_fhandler_core, "# Events:\n");
$fwrite(trace_fhandler_core, "# N - no event\n");
$fwrite(trace_fhandler_core, "# E - exception\n");
$fwrite(trace_fhandler_core, "# I - interrupt\n");
$fwrite(trace_fhandler_core, "# W - wakeup\n");
end
// Core reset logging and header printing
always @(posedge rst_n) begin
$fwrite(trace_fhandler_core, "# =====================================================================================\n");
`ifndef VERILATOR
$fwrite(trace_fhandler_core, "# %14t : Core Reset\n", $time());
`else
$fwrite(trace_fhandler_core, "# : Core Reset\n");
`endif
$fwrite(trace_fhandler_core, "# =====================================================================================\n");
$fwrite(trace_fhandler_core, "# Test: %s\n", test_name);
$fwrite(trace_fhandler_core, "# Time ");
// $fwrite(trace_fhandler_core, " R ");
$fwrite(trace_fhandler_core, " Ev ");
$fwrite(trace_fhandler_core, " Curr_PC ");
$fwrite(trace_fhandler_core, " Instr ");
$fwrite(trace_fhandler_core, " Next_PC ");
$fwrite(trace_fhandler_core, " Reg ");
$fwrite(trace_fhandler_core, " Value ");
$fwrite(trace_fhandler_core, "\n");
$fwrite(trace_fhandler_core, "# =====================================================================================\n");
end
//-------------------------------------------------------------------------------
// Common trace part
//-------------------------------------------------------------------------------
assign trace_flag = 1'b1;
assign trace_update = (exu2trace_update_pc_en_i | mprf2trace_wr_en_i) & trace_flag;
always_ff @(posedge clk) begin
if (~rst_n) begin
current_time <= 0;
event_type <= "N";
trace_pc <= 'x;
trace_npc <= 'x;
trace_instr <= 'x;
trace_update_r <= 1'b0;
mprf_up <= '0;
mprf_addr <= '0;
mprf_wdata <= '0;
end else begin
trace_update_r <= trace_update;
if (trace_update) begin
`ifdef VERILATOR
current_time <= time_cnt;
`else
current_time <= $time();
`endif
trace_pc <= trace_npc;
trace_npc <= exu2trace_update_pc_i;
trace_instr <= ifu2trace_instr_i;
if (csr2trace_e_exc_i) begin
// Exception
event_type <= "E";
end
else if (csr2trace_e_irq_i) begin
// IRQ
event_type <= "I";
end
else if (pipe2trace_e_wake_i) begin
// Wake
event_type <= "W";
end
// if (csr2trace_e_mret_i) begin
// // MRET
// event_type <= "R";
// end
else begin
// No event
event_type <= "N";
end
end
// Write log signals
mprf_up <= mprf2trace_wr_en_i;
mprf_addr <= mprf2trace_wr_en_i ? mprf2trace_wr_addr_i : 'x;
mprf_wdata <= mprf2trace_wr_en_i ? mprf2trace_wr_data_i : 'x;
end
end
//-------------------------------------------------------------------------------
// Core MPRF logging
//-------------------------------------------------------------------------------
always_ff @(negedge rst_n, posedge clk) begin
if (~rst_n) begin
end else begin
if (trace_update_r) begin
trace_write_common();
case (event_type)
"W" : begin
// Wakeup
if (csr_trace1.mip & csr_trace1.mie) begin
$fwrite(trace_fhandler_core, " mip %08x\n", csr_trace1.mip );
trace_write_common();
$fwrite(trace_fhandler_core, " mie %08x", csr_trace1.mie );
end
end
"N" : begin
// Regular
if (mprf_up && mprf_addr != 0) begin
// $fwrite(trace_fhandler_core, " x%2d %08x", mprf_addr, mprf_wdata);
trace_write_int_walias();
$fwrite(trace_fhandler_core, " %08x", mprf_wdata);
end else begin
$fwrite(trace_fhandler_core, " --- --------");
end
end
"R" : begin
// MRET
$fwrite(trace_fhandler_core, " mstatus %08x", csr_trace1.mstatus);
end
"E", "I": begin
// IRQ/Exception
$fwrite(trace_fhandler_core, " mstatus %08x\n", csr_trace1.mstatus);
trace_write_common();
$fwrite(trace_fhandler_core, " mepc %08x\n", csr_trace1.mepc);
trace_write_common();
$fwrite(trace_fhandler_core, " mcause %08x\n", csr_trace1.mcause);
trace_write_common();
$fwrite(trace_fhandler_core, " mtval %08x", csr_trace1.mtval);
end
default : begin
$fwrite(trace_fhandler_core, "\n");
end
endcase
$fwrite(trace_fhandler_core, "\n");
end
end
end
//-------------------------------------------------------------------------------
// Core CSR logging
//-------------------------------------------------------------------------------
always_comb begin
csr_trace1.mtvec = {csr2trace_mtvec_base_i, 4'd0, 2'(csr2trace_mtvec_mode_i)};
csr_trace1.mepc =
`ifdef SCR1_RVC_EXT
{csr2trace_mepc_i, 1'b0};
`else // SCR1_RVC_EXT
{csr2trace_mepc_i, 2'b00};
`endif // SCR1_RVC_EXT
csr_trace1.mcause = {csr2trace_mcause_irq_i, csr2trace_mcause_ec_i};
csr_trace1.mtval = csr2trace_mtval_i;
csr_trace1.mstatus = '0;
csr_trace1.mie = '0;
csr_trace1.mip = '0;
csr_trace1.mstatus[SCR1_CSR_MSTATUS_MIE_OFFSET] = csr2trace_mstatus_mie_i;
csr_trace1.mstatus[SCR1_CSR_MSTATUS_MPIE_OFFSET] = csr2trace_mstatus_mpie_i;
csr_trace1.mstatus[SCR1_CSR_MSTATUS_MPP_OFFSET+1:SCR1_CSR_MSTATUS_MPP_OFFSET] = SCR1_CSR_MSTATUS_MPP;
csr_trace1.mie[SCR1_CSR_MIE_MSIE_OFFSET] = csr2trace_mie_msie_i;
csr_trace1.mie[SCR1_CSR_MIE_MTIE_OFFSET] = csr2trace_mie_mtie_i;
csr_trace1.mie[SCR1_CSR_MIE_MEIE_OFFSET] = csr2trace_mie_meie_i;
csr_trace1.mip[SCR1_CSR_MIE_MSIE_OFFSET] = csr2trace_mip_msip_i;
csr_trace1.mip[SCR1_CSR_MIE_MTIE_OFFSET] = csr2trace_mip_mtip_i;
csr_trace1.mip[SCR1_CSR_MIE_MEIE_OFFSET] = csr2trace_mip_meip_i;
end
`endif // SCR1_TRACE_LOG_EN
endmodule : scr1_tracelog
`endif // SCR1_TRGT_SIMULATION