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picorv32.v
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picorv32.v
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/*
* PicoRV32 -- A Small RISC-V (RV32I) Processor Core
*
* Copyright (C) 2015 Claire Xenia Wolf <[email protected]>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
/* verilator lint_off WIDTH */
/* verilator lint_off PINMISSING */
/* verilator lint_off CASEOVERLAP */
/* verilator lint_off CASEINCOMPLETE */
`timescale 1 ns / 1 ps
// `default_nettype none
// `define DEBUGNETS
// `define DEBUGREGS
// `define DEBUGASM
// `define DEBUG
`ifdef DEBUG
`define debug(debug_command) debug_command
`else
`define debug(debug_command)
`endif
`ifdef FORMAL
`define FORMAL_KEEP (* keep *)
`define assert(assert_expr) assert(assert_expr)
`else
`ifdef DEBUGNETS
`define FORMAL_KEEP (* keep *)
`else
`define FORMAL_KEEP
`endif
`define assert(assert_expr) empty_statement
`endif
// uncomment this for register file in extra module
// `define PICORV32_REGS picorv32_regs
// this macro can be used to check if the verilog files in your
// design are read in the correct order.
`define PICORV32_V
/***************************************************************
* picorv32
***************************************************************/
module picorv32 #(
parameter [ 0:0] ENABLE_COUNTERS = 1,
parameter [ 0:0] ENABLE_COUNTERS64 = 1,
parameter [ 0:0] ENABLE_REGS_16_31 = 1,
parameter [ 0:0] ENABLE_REGS_DUALPORT = 1,
parameter [ 0:0] LATCHED_MEM_RDATA = 0,
parameter [ 0:0] TWO_STAGE_SHIFT = 1,
parameter [ 0:0] BARREL_SHIFTER = 0,
parameter [ 0:0] TWO_CYCLE_COMPARE = 0,
parameter [ 0:0] TWO_CYCLE_ALU = 0,
parameter [ 0:0] COMPRESSED_ISA = 0,
parameter [ 0:0] CATCH_MISALIGN = 1,
parameter [ 0:0] CATCH_ILLINSN = 1,
parameter [ 0:0] ENABLE_PCPI = 0,
parameter [ 0:0] ENABLE_MUL = 0,
parameter [ 0:0] ENABLE_FAST_MUL = 0,
parameter [ 0:0] ENABLE_DIV = 0,
parameter [ 0:0] ENABLE_IRQ = 0,
parameter [ 0:0] ENABLE_IRQ_QREGS = 1,
parameter [ 0:0] ENABLE_IRQ_TIMER = 1,
parameter [ 0:0] ENABLE_TRACE = 0,
parameter [ 0:0] REGS_INIT_ZERO = 0,
parameter [31:0] MASKED_IRQ = 32'h 0000_0000,
parameter [31:0] LATCHED_IRQ = 32'h ffff_ffff,
parameter [31:0] PROGADDR_RESET = 32'h 0000_0000,
parameter [31:0] PROGADDR_IRQ = 32'h 0000_0010,
parameter [31:0] STACKADDR = 32'h ffff_ffff
) (
input clk, resetn,
output reg trap,
output reg mem_valid,
output reg mem_instr,
input mem_ready,
output reg [31:0] mem_addr,
output reg [31:0] mem_wdata,
output reg [ 3:0] mem_wstrb,
input [31:0] mem_rdata,
// Look-Ahead Interface
output mem_la_read,
output mem_la_write,
output [31:0] mem_la_addr,
output reg [31:0] mem_la_wdata,
output reg [ 3:0] mem_la_wstrb,
// Pico Co-Processor Interface (PCPI)
output reg pcpi_valid,
output reg [31:0] pcpi_insn,
output [31:0] pcpi_rs1,
output [31:0] pcpi_rs2,
input pcpi_wr,
input [31:0] pcpi_rd,
input pcpi_wait,
input pcpi_ready,
// IRQ Interface
input [31:0] irq,
output reg [31:0] eoi,
`ifdef RISCV_FORMAL
output reg rvfi_valid,
output reg [63:0] rvfi_order,
output reg [31:0] rvfi_insn,
output reg rvfi_trap,
output reg rvfi_halt,
output reg rvfi_intr,
output reg [ 1:0] rvfi_mode,
output reg [ 1:0] rvfi_ixl,
output reg [ 4:0] rvfi_rs1_addr,
output reg [ 4:0] rvfi_rs2_addr,
output reg [31:0] rvfi_rs1_rdata,
output reg [31:0] rvfi_rs2_rdata,
output reg [ 4:0] rvfi_rd_addr,
output reg [31:0] rvfi_rd_wdata,
output reg [31:0] rvfi_pc_rdata,
output reg [31:0] rvfi_pc_wdata,
output reg [31:0] rvfi_mem_addr,
output reg [ 3:0] rvfi_mem_rmask,
output reg [ 3:0] rvfi_mem_wmask,
output reg [31:0] rvfi_mem_rdata,
output reg [31:0] rvfi_mem_wdata,
output reg [63:0] rvfi_csr_mcycle_rmask,
output reg [63:0] rvfi_csr_mcycle_wmask,
output reg [63:0] rvfi_csr_mcycle_rdata,
output reg [63:0] rvfi_csr_mcycle_wdata,
output reg [63:0] rvfi_csr_minstret_rmask,
output reg [63:0] rvfi_csr_minstret_wmask,
output reg [63:0] rvfi_csr_minstret_rdata,
output reg [63:0] rvfi_csr_minstret_wdata,
`endif
// Trace Interface
output reg trace_valid,
output reg [35:0] trace_data
);
localparam integer irq_timer = 0;
localparam integer irq_ebreak = 1;
localparam integer irq_buserror = 2;
localparam integer irqregs_offset = ENABLE_REGS_16_31 ? 32 : 16;
localparam integer regfile_size = (ENABLE_REGS_16_31 ? 32 : 16) + 4*ENABLE_IRQ*ENABLE_IRQ_QREGS;
localparam integer regindex_bits = (ENABLE_REGS_16_31 ? 5 : 4) + ENABLE_IRQ*ENABLE_IRQ_QREGS;
localparam WITH_PCPI = ENABLE_PCPI || ENABLE_MUL || ENABLE_FAST_MUL || ENABLE_DIV;
localparam [35:0] TRACE_BRANCH = {4'b 0001, 32'b 0};
localparam [35:0] TRACE_ADDR = {4'b 0010, 32'b 0};
localparam [35:0] TRACE_IRQ = {4'b 1000, 32'b 0};
reg [63:0] count_cycle, count_instr;
reg [31:0] reg_pc, reg_next_pc, reg_op1, reg_op2, reg_out;
reg [4:0] reg_sh;
reg [31:0] next_insn_opcode;
reg [31:0] dbg_insn_opcode;
reg [31:0] dbg_insn_addr;
wire dbg_mem_valid = mem_valid;
wire dbg_mem_instr = mem_instr;
wire dbg_mem_ready = mem_ready;
wire [31:0] dbg_mem_addr = mem_addr;
wire [31:0] dbg_mem_wdata = mem_wdata;
wire [ 3:0] dbg_mem_wstrb = mem_wstrb;
wire [31:0] dbg_mem_rdata = mem_rdata;
assign pcpi_rs1 = reg_op1;
assign pcpi_rs2 = reg_op2;
wire [31:0] next_pc;
reg irq_delay;
reg irq_active;
reg [31:0] irq_mask;
reg [31:0] irq_pending;
reg [31:0] timer;
`ifndef PICORV32_REGS
reg [31:0] cpuregs [0:regfile_size-1];
integer i;
initial begin
if (REGS_INIT_ZERO) begin
for (i = 0; i < regfile_size; i = i+1)
cpuregs[i] = 0;
end
end
`endif
task empty_statement;
// This task is used by the `assert directive in non-formal mode to
// avoid empty statement (which are unsupported by plain Verilog syntax).
begin end
endtask
`ifdef DEBUGREGS
wire [31:0] dbg_reg_x0 = 0;
wire [31:0] dbg_reg_x1 = cpuregs[1];
wire [31:0] dbg_reg_x2 = cpuregs[2];
wire [31:0] dbg_reg_x3 = cpuregs[3];
wire [31:0] dbg_reg_x4 = cpuregs[4];
wire [31:0] dbg_reg_x5 = cpuregs[5];
wire [31:0] dbg_reg_x6 = cpuregs[6];
wire [31:0] dbg_reg_x7 = cpuregs[7];
wire [31:0] dbg_reg_x8 = cpuregs[8];
wire [31:0] dbg_reg_x9 = cpuregs[9];
wire [31:0] dbg_reg_x10 = cpuregs[10];
wire [31:0] dbg_reg_x11 = cpuregs[11];
wire [31:0] dbg_reg_x12 = cpuregs[12];
wire [31:0] dbg_reg_x13 = cpuregs[13];
wire [31:0] dbg_reg_x14 = cpuregs[14];
wire [31:0] dbg_reg_x15 = cpuregs[15];
wire [31:0] dbg_reg_x16 = cpuregs[16];
wire [31:0] dbg_reg_x17 = cpuregs[17];
wire [31:0] dbg_reg_x18 = cpuregs[18];
wire [31:0] dbg_reg_x19 = cpuregs[19];
wire [31:0] dbg_reg_x20 = cpuregs[20];
wire [31:0] dbg_reg_x21 = cpuregs[21];
wire [31:0] dbg_reg_x22 = cpuregs[22];
wire [31:0] dbg_reg_x23 = cpuregs[23];
wire [31:0] dbg_reg_x24 = cpuregs[24];
wire [31:0] dbg_reg_x25 = cpuregs[25];
wire [31:0] dbg_reg_x26 = cpuregs[26];
wire [31:0] dbg_reg_x27 = cpuregs[27];
wire [31:0] dbg_reg_x28 = cpuregs[28];
wire [31:0] dbg_reg_x29 = cpuregs[29];
wire [31:0] dbg_reg_x30 = cpuregs[30];
wire [31:0] dbg_reg_x31 = cpuregs[31];
`endif
// Internal PCPI Cores
wire pcpi_mul_wr;
wire [31:0] pcpi_mul_rd;
wire pcpi_mul_wait;
wire pcpi_mul_ready;
wire pcpi_div_wr;
wire [31:0] pcpi_div_rd;
wire pcpi_div_wait;
wire pcpi_div_ready;
reg pcpi_int_wr;
reg [31:0] pcpi_int_rd;
reg pcpi_int_wait;
reg pcpi_int_ready;
generate if (ENABLE_FAST_MUL) begin
picorv32_pcpi_fast_mul pcpi_mul (
.clk (clk ),
.resetn (resetn ),
.pcpi_valid(pcpi_valid ),
.pcpi_insn (pcpi_insn ),
.pcpi_rs1 (pcpi_rs1 ),
.pcpi_rs2 (pcpi_rs2 ),
.pcpi_wr (pcpi_mul_wr ),
.pcpi_rd (pcpi_mul_rd ),
.pcpi_wait (pcpi_mul_wait ),
.pcpi_ready(pcpi_mul_ready )
);
end else if (ENABLE_MUL) begin
picorv32_pcpi_mul pcpi_mul (
.clk (clk ),
.resetn (resetn ),
.pcpi_valid(pcpi_valid ),
.pcpi_insn (pcpi_insn ),
.pcpi_rs1 (pcpi_rs1 ),
.pcpi_rs2 (pcpi_rs2 ),
.pcpi_wr (pcpi_mul_wr ),
.pcpi_rd (pcpi_mul_rd ),
.pcpi_wait (pcpi_mul_wait ),
.pcpi_ready(pcpi_mul_ready )
);
end else begin
assign pcpi_mul_wr = 0;
assign pcpi_mul_rd = 32'bx;
assign pcpi_mul_wait = 0;
assign pcpi_mul_ready = 0;
end endgenerate
generate if (ENABLE_DIV) begin
picorv32_pcpi_div pcpi_div (
.clk (clk ),
.resetn (resetn ),
.pcpi_valid(pcpi_valid ),
.pcpi_insn (pcpi_insn ),
.pcpi_rs1 (pcpi_rs1 ),
.pcpi_rs2 (pcpi_rs2 ),
.pcpi_wr (pcpi_div_wr ),
.pcpi_rd (pcpi_div_rd ),
.pcpi_wait (pcpi_div_wait ),
.pcpi_ready(pcpi_div_ready )
);
end else begin
assign pcpi_div_wr = 0;
assign pcpi_div_rd = 32'bx;
assign pcpi_div_wait = 0;
assign pcpi_div_ready = 0;
end endgenerate
always @* begin
pcpi_int_wr = 0;
pcpi_int_rd = 32'bx;
pcpi_int_wait = |{ENABLE_PCPI && pcpi_wait, (ENABLE_MUL || ENABLE_FAST_MUL) && pcpi_mul_wait, ENABLE_DIV && pcpi_div_wait};
pcpi_int_ready = |{ENABLE_PCPI && pcpi_ready, (ENABLE_MUL || ENABLE_FAST_MUL) && pcpi_mul_ready, ENABLE_DIV && pcpi_div_ready};
(* parallel_case *)
case (1'b1)
ENABLE_PCPI && pcpi_ready: begin
pcpi_int_wr = ENABLE_PCPI ? pcpi_wr : 0;
pcpi_int_rd = ENABLE_PCPI ? pcpi_rd : 0;
end
(ENABLE_MUL || ENABLE_FAST_MUL) && pcpi_mul_ready: begin
pcpi_int_wr = pcpi_mul_wr;
pcpi_int_rd = pcpi_mul_rd;
end
ENABLE_DIV && pcpi_div_ready: begin
pcpi_int_wr = pcpi_div_wr;
pcpi_int_rd = pcpi_div_rd;
end
endcase
end
// Memory Interface
reg [1:0] mem_state;
reg [1:0] mem_wordsize;
reg [31:0] mem_rdata_word;
reg [31:0] mem_rdata_q;
reg mem_do_prefetch;
reg mem_do_rinst;
reg mem_do_rdata;
reg mem_do_wdata;
wire mem_xfer;
reg mem_la_secondword, mem_la_firstword_reg, last_mem_valid;
wire mem_la_firstword = COMPRESSED_ISA && (mem_do_prefetch || mem_do_rinst) && next_pc[1] && !mem_la_secondword;
wire mem_la_firstword_xfer = COMPRESSED_ISA && mem_xfer && (!last_mem_valid ? mem_la_firstword : mem_la_firstword_reg);
reg prefetched_high_word;
reg clear_prefetched_high_word;
reg [15:0] mem_16bit_buffer;
wire [31:0] mem_rdata_latched_noshuffle;
wire [31:0] mem_rdata_latched;
wire mem_la_use_prefetched_high_word = COMPRESSED_ISA && mem_la_firstword && prefetched_high_word && !clear_prefetched_high_word;
assign mem_xfer = (mem_valid && mem_ready) || (mem_la_use_prefetched_high_word && mem_do_rinst);
wire mem_busy = |{mem_do_prefetch, mem_do_rinst, mem_do_rdata, mem_do_wdata};
wire mem_done = resetn && ((mem_xfer && |mem_state && (mem_do_rinst || mem_do_rdata || mem_do_wdata)) || (&mem_state && mem_do_rinst)) &&
(!mem_la_firstword || (~&mem_rdata_latched[1:0] && mem_xfer));
assign mem_la_write = resetn && !mem_state && mem_do_wdata;
assign mem_la_read = resetn && ((!mem_la_use_prefetched_high_word && !mem_state && (mem_do_rinst || mem_do_prefetch || mem_do_rdata)) ||
(COMPRESSED_ISA && mem_xfer && (!last_mem_valid ? mem_la_firstword : mem_la_firstword_reg) && !mem_la_secondword && &mem_rdata_latched[1:0]));
assign mem_la_addr = (mem_do_prefetch || mem_do_rinst) ? {next_pc[31:2] + mem_la_firstword_xfer, 2'b00} : {reg_op1[31:2], 2'b00};
assign mem_rdata_latched_noshuffle = (mem_xfer || LATCHED_MEM_RDATA) ? mem_rdata : mem_rdata_q;
assign mem_rdata_latched = COMPRESSED_ISA && mem_la_use_prefetched_high_word ? {16'bx, mem_16bit_buffer} :
COMPRESSED_ISA && mem_la_secondword ? {mem_rdata_latched_noshuffle[15:0], mem_16bit_buffer} :
COMPRESSED_ISA && mem_la_firstword ? {16'bx, mem_rdata_latched_noshuffle[31:16]} : mem_rdata_latched_noshuffle;
always @(posedge clk) begin
if (!resetn) begin
mem_la_firstword_reg <= 0;
last_mem_valid <= 0;
end else begin
if (!last_mem_valid)
mem_la_firstword_reg <= mem_la_firstword;
last_mem_valid <= mem_valid && !mem_ready;
end
end
always @* begin
(* full_case *)
case (mem_wordsize)
0: begin
mem_la_wdata = reg_op2;
mem_la_wstrb = 4'b1111;
mem_rdata_word = mem_rdata;
end
1: begin
mem_la_wdata = {2{reg_op2[15:0]}};
mem_la_wstrb = reg_op1[1] ? 4'b1100 : 4'b0011;
case (reg_op1[1])
1'b0: mem_rdata_word = {16'b0, mem_rdata[15: 0]};
1'b1: mem_rdata_word = {16'b0, mem_rdata[31:16]};
endcase
end
2: begin
mem_la_wdata = {4{reg_op2[7:0]}};
mem_la_wstrb = 4'b0001 << reg_op1[1:0];
case (reg_op1[1:0])
2'b00: mem_rdata_word = {24'b0, mem_rdata[ 7: 0]};
2'b01: mem_rdata_word = {24'b0, mem_rdata[15: 8]};
2'b10: mem_rdata_word = {24'b0, mem_rdata[23:16]};
2'b11: mem_rdata_word = {24'b0, mem_rdata[31:24]};
endcase
end
endcase
end
always @(posedge clk) begin
if (mem_xfer) begin
mem_rdata_q <= COMPRESSED_ISA ? mem_rdata_latched : mem_rdata;
next_insn_opcode <= COMPRESSED_ISA ? mem_rdata_latched : mem_rdata;
end
if (COMPRESSED_ISA && mem_done && (mem_do_prefetch || mem_do_rinst)) begin
case (mem_rdata_latched[1:0])
2'b00: begin // Quadrant 0
case (mem_rdata_latched[15:13])
3'b000: begin // C.ADDI4SPN
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:20] <= {2'b0, mem_rdata_latched[10:7], mem_rdata_latched[12:11], mem_rdata_latched[5], mem_rdata_latched[6], 2'b00};
end
3'b010: begin // C.LW
mem_rdata_q[31:20] <= {5'b0, mem_rdata_latched[5], mem_rdata_latched[12:10], mem_rdata_latched[6], 2'b00};
mem_rdata_q[14:12] <= 3'b 010;
end
3'b 110: begin // C.SW
{mem_rdata_q[31:25], mem_rdata_q[11:7]} <= {5'b0, mem_rdata_latched[5], mem_rdata_latched[12:10], mem_rdata_latched[6], 2'b00};
mem_rdata_q[14:12] <= 3'b 010;
end
endcase
end
2'b01: begin // Quadrant 1
case (mem_rdata_latched[15:13])
3'b 000: begin // C.ADDI
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:20] <= $signed({mem_rdata_latched[12], mem_rdata_latched[6:2]});
end
3'b 010: begin // C.LI
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:20] <= $signed({mem_rdata_latched[12], mem_rdata_latched[6:2]});
end
3'b 011: begin
if (mem_rdata_latched[11:7] == 2) begin // C.ADDI16SP
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:20] <= $signed({mem_rdata_latched[12], mem_rdata_latched[4:3],
mem_rdata_latched[5], mem_rdata_latched[2], mem_rdata_latched[6], 4'b 0000});
end else begin // C.LUI
mem_rdata_q[31:12] <= $signed({mem_rdata_latched[12], mem_rdata_latched[6:2]});
end
end
3'b100: begin
if (mem_rdata_latched[11:10] == 2'b00) begin // C.SRLI
mem_rdata_q[31:25] <= 7'b0000000;
mem_rdata_q[14:12] <= 3'b 101;
end
if (mem_rdata_latched[11:10] == 2'b01) begin // C.SRAI
mem_rdata_q[31:25] <= 7'b0100000;
mem_rdata_q[14:12] <= 3'b 101;
end
if (mem_rdata_latched[11:10] == 2'b10) begin // C.ANDI
mem_rdata_q[14:12] <= 3'b111;
mem_rdata_q[31:20] <= $signed({mem_rdata_latched[12], mem_rdata_latched[6:2]});
end
if (mem_rdata_latched[12:10] == 3'b011) begin // C.SUB, C.XOR, C.OR, C.AND
if (mem_rdata_latched[6:5] == 2'b00) mem_rdata_q[14:12] <= 3'b000;
if (mem_rdata_latched[6:5] == 2'b01) mem_rdata_q[14:12] <= 3'b100;
if (mem_rdata_latched[6:5] == 2'b10) mem_rdata_q[14:12] <= 3'b110;
if (mem_rdata_latched[6:5] == 2'b11) mem_rdata_q[14:12] <= 3'b111;
mem_rdata_q[31:25] <= mem_rdata_latched[6:5] == 2'b00 ? 7'b0100000 : 7'b0000000;
end
end
3'b 110: begin // C.BEQZ
mem_rdata_q[14:12] <= 3'b000;
{ mem_rdata_q[31], mem_rdata_q[7], mem_rdata_q[30:25], mem_rdata_q[11:8] } <=
$signed({mem_rdata_latched[12], mem_rdata_latched[6:5], mem_rdata_latched[2],
mem_rdata_latched[11:10], mem_rdata_latched[4:3]});
end
3'b 111: begin // C.BNEZ
mem_rdata_q[14:12] <= 3'b001;
{ mem_rdata_q[31], mem_rdata_q[7], mem_rdata_q[30:25], mem_rdata_q[11:8] } <=
$signed({mem_rdata_latched[12], mem_rdata_latched[6:5], mem_rdata_latched[2],
mem_rdata_latched[11:10], mem_rdata_latched[4:3]});
end
endcase
end
2'b10: begin // Quadrant 2
case (mem_rdata_latched[15:13])
3'b000: begin // C.SLLI
mem_rdata_q[31:25] <= 7'b0000000;
mem_rdata_q[14:12] <= 3'b 001;
end
3'b010: begin // C.LWSP
mem_rdata_q[31:20] <= {4'b0, mem_rdata_latched[3:2], mem_rdata_latched[12], mem_rdata_latched[6:4], 2'b00};
mem_rdata_q[14:12] <= 3'b 010;
end
3'b100: begin
if (mem_rdata_latched[12] == 0 && mem_rdata_latched[6:2] == 0) begin // C.JR
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:20] <= 12'b0;
end
if (mem_rdata_latched[12] == 0 && mem_rdata_latched[6:2] != 0) begin // C.MV
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:25] <= 7'b0000000;
end
if (mem_rdata_latched[12] != 0 && mem_rdata_latched[11:7] != 0 && mem_rdata_latched[6:2] == 0) begin // C.JALR
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:20] <= 12'b0;
end
if (mem_rdata_latched[12] != 0 && mem_rdata_latched[6:2] != 0) begin // C.ADD
mem_rdata_q[14:12] <= 3'b000;
mem_rdata_q[31:25] <= 7'b0000000;
end
end
3'b110: begin // C.SWSP
{mem_rdata_q[31:25], mem_rdata_q[11:7]} <= {4'b0, mem_rdata_latched[8:7], mem_rdata_latched[12:9], 2'b00};
mem_rdata_q[14:12] <= 3'b 010;
end
endcase
end
endcase
end
end
always @(posedge clk) begin
if (resetn && !trap) begin
if (mem_do_prefetch || mem_do_rinst || mem_do_rdata)
`assert(!mem_do_wdata);
if (mem_do_prefetch || mem_do_rinst)
`assert(!mem_do_rdata);
if (mem_do_rdata)
`assert(!mem_do_prefetch && !mem_do_rinst);
if (mem_do_wdata)
`assert(!(mem_do_prefetch || mem_do_rinst || mem_do_rdata));
if (mem_state == 2 || mem_state == 3)
`assert(mem_valid || mem_do_prefetch);
end
end
always @(posedge clk) begin
if (!resetn || trap) begin
if (!resetn)
mem_state <= 0;
if (!resetn || mem_ready)
mem_valid <= 0;
mem_la_secondword <= 0;
prefetched_high_word <= 0;
end else begin
if (mem_la_read || mem_la_write) begin
mem_addr <= mem_la_addr;
mem_wstrb <= mem_la_wstrb & {4{mem_la_write}};
end
if (mem_la_write) begin
mem_wdata <= mem_la_wdata;
end
case (mem_state)
0: begin
if (mem_do_prefetch || mem_do_rinst || mem_do_rdata) begin
mem_valid <= !mem_la_use_prefetched_high_word;
mem_instr <= mem_do_prefetch || mem_do_rinst;
mem_wstrb <= 0;
mem_state <= 1;
end
if (mem_do_wdata) begin
mem_valid <= 1;
mem_instr <= 0;
mem_state <= 2;
end
end
1: begin
`assert(mem_wstrb == 0);
`assert(mem_do_prefetch || mem_do_rinst || mem_do_rdata);
`assert(mem_valid == !mem_la_use_prefetched_high_word);
`assert(mem_instr == (mem_do_prefetch || mem_do_rinst));
if (mem_xfer) begin
if (COMPRESSED_ISA && mem_la_read) begin
mem_valid <= 1;
mem_la_secondword <= 1;
if (!mem_la_use_prefetched_high_word)
mem_16bit_buffer <= mem_rdata[31:16];
end else begin
mem_valid <= 0;
mem_la_secondword <= 0;
if (COMPRESSED_ISA && !mem_do_rdata) begin
if (~&mem_rdata[1:0] || mem_la_secondword) begin
mem_16bit_buffer <= mem_rdata[31:16];
prefetched_high_word <= 1;
end else begin
prefetched_high_word <= 0;
end
end
mem_state <= mem_do_rinst || mem_do_rdata ? 0 : 3;
end
end
end
2: begin
`assert(mem_wstrb != 0);
`assert(mem_do_wdata);
if (mem_xfer) begin
mem_valid <= 0;
mem_state <= 0;
end
end
3: begin
`assert(mem_wstrb == 0);
`assert(mem_do_prefetch);
if (mem_do_rinst) begin
mem_state <= 0;
end
end
endcase
end
if (clear_prefetched_high_word)
prefetched_high_word <= 0;
end
// Instruction Decoder
reg instr_lui, instr_auipc, instr_jal, instr_jalr;
reg instr_beq, instr_bne, instr_blt, instr_bge, instr_bltu, instr_bgeu;
reg instr_lb, instr_lh, instr_lw, instr_lbu, instr_lhu, instr_sb, instr_sh, instr_sw;
reg instr_addi, instr_slti, instr_sltiu, instr_xori, instr_ori, instr_andi, instr_slli, instr_srli, instr_srai;
reg instr_add, instr_sub, instr_sll, instr_slt, instr_sltu, instr_xor, instr_srl, instr_sra, instr_or, instr_and;
reg instr_rdcycle, instr_rdcycleh, instr_rdinstr, instr_rdinstrh, instr_ecall_ebreak, instr_fence;
reg instr_getq, instr_setq, instr_retirq, instr_maskirq, instr_waitirq, instr_timer;
wire instr_trap;
reg [regindex_bits-1:0] decoded_rd, decoded_rs1;
reg [4:0] decoded_rs2;
reg [31:0] decoded_imm, decoded_imm_j;
reg decoder_trigger;
reg decoder_trigger_q;
reg decoder_pseudo_trigger;
reg decoder_pseudo_trigger_q;
reg compressed_instr;
reg is_lui_auipc_jal;
reg is_lb_lh_lw_lbu_lhu;
reg is_slli_srli_srai;
reg is_jalr_addi_slti_sltiu_xori_ori_andi;
reg is_sb_sh_sw;
reg is_sll_srl_sra;
reg is_lui_auipc_jal_jalr_addi_add_sub;
reg is_slti_blt_slt;
reg is_sltiu_bltu_sltu;
reg is_beq_bne_blt_bge_bltu_bgeu;
reg is_lbu_lhu_lw;
reg is_alu_reg_imm;
reg is_alu_reg_reg;
reg is_compare;
assign instr_trap = (CATCH_ILLINSN || WITH_PCPI) && !{instr_lui, instr_auipc, instr_jal, instr_jalr,
instr_beq, instr_bne, instr_blt, instr_bge, instr_bltu, instr_bgeu,
instr_lb, instr_lh, instr_lw, instr_lbu, instr_lhu, instr_sb, instr_sh, instr_sw,
instr_addi, instr_slti, instr_sltiu, instr_xori, instr_ori, instr_andi, instr_slli, instr_srli, instr_srai,
instr_add, instr_sub, instr_sll, instr_slt, instr_sltu, instr_xor, instr_srl, instr_sra, instr_or, instr_and,
instr_rdcycle, instr_rdcycleh, instr_rdinstr, instr_rdinstrh, instr_fence,
instr_getq, instr_setq, instr_retirq, instr_maskirq, instr_waitirq, instr_timer};
wire is_rdcycle_rdcycleh_rdinstr_rdinstrh;
assign is_rdcycle_rdcycleh_rdinstr_rdinstrh = |{instr_rdcycle, instr_rdcycleh, instr_rdinstr, instr_rdinstrh};
reg [63:0] new_ascii_instr;
`FORMAL_KEEP reg [63:0] dbg_ascii_instr;
`FORMAL_KEEP reg [31:0] dbg_insn_imm;
`FORMAL_KEEP reg [4:0] dbg_insn_rs1;
`FORMAL_KEEP reg [4:0] dbg_insn_rs2;
`FORMAL_KEEP reg [4:0] dbg_insn_rd;
`FORMAL_KEEP reg [31:0] dbg_rs1val;
`FORMAL_KEEP reg [31:0] dbg_rs2val;
`FORMAL_KEEP reg dbg_rs1val_valid;
`FORMAL_KEEP reg dbg_rs2val_valid;
always @* begin
new_ascii_instr = "";
if (instr_lui) new_ascii_instr = "lui";
if (instr_auipc) new_ascii_instr = "auipc";
if (instr_jal) new_ascii_instr = "jal";
if (instr_jalr) new_ascii_instr = "jalr";
if (instr_beq) new_ascii_instr = "beq";
if (instr_bne) new_ascii_instr = "bne";
if (instr_blt) new_ascii_instr = "blt";
if (instr_bge) new_ascii_instr = "bge";
if (instr_bltu) new_ascii_instr = "bltu";
if (instr_bgeu) new_ascii_instr = "bgeu";
if (instr_lb) new_ascii_instr = "lb";
if (instr_lh) new_ascii_instr = "lh";
if (instr_lw) new_ascii_instr = "lw";
if (instr_lbu) new_ascii_instr = "lbu";
if (instr_lhu) new_ascii_instr = "lhu";
if (instr_sb) new_ascii_instr = "sb";
if (instr_sh) new_ascii_instr = "sh";
if (instr_sw) new_ascii_instr = "sw";
if (instr_addi) new_ascii_instr = "addi";
if (instr_slti) new_ascii_instr = "slti";
if (instr_sltiu) new_ascii_instr = "sltiu";
if (instr_xori) new_ascii_instr = "xori";
if (instr_ori) new_ascii_instr = "ori";
if (instr_andi) new_ascii_instr = "andi";
if (instr_slli) new_ascii_instr = "slli";
if (instr_srli) new_ascii_instr = "srli";
if (instr_srai) new_ascii_instr = "srai";
if (instr_add) new_ascii_instr = "add";
if (instr_sub) new_ascii_instr = "sub";
if (instr_sll) new_ascii_instr = "sll";
if (instr_slt) new_ascii_instr = "slt";
if (instr_sltu) new_ascii_instr = "sltu";
if (instr_xor) new_ascii_instr = "xor";
if (instr_srl) new_ascii_instr = "srl";
if (instr_sra) new_ascii_instr = "sra";
if (instr_or) new_ascii_instr = "or";
if (instr_and) new_ascii_instr = "and";
if (instr_rdcycle) new_ascii_instr = "rdcycle";
if (instr_rdcycleh) new_ascii_instr = "rdcycleh";
if (instr_rdinstr) new_ascii_instr = "rdinstr";
if (instr_rdinstrh) new_ascii_instr = "rdinstrh";
if (instr_fence) new_ascii_instr = "fence";
if (instr_getq) new_ascii_instr = "getq";
if (instr_setq) new_ascii_instr = "setq";
if (instr_retirq) new_ascii_instr = "retirq";
if (instr_maskirq) new_ascii_instr = "maskirq";
if (instr_waitirq) new_ascii_instr = "waitirq";
if (instr_timer) new_ascii_instr = "timer";
end
reg [63:0] q_ascii_instr;
reg [31:0] q_insn_imm;
reg [31:0] q_insn_opcode;
reg [4:0] q_insn_rs1;
reg [4:0] q_insn_rs2;
reg [4:0] q_insn_rd;
reg dbg_next;
wire launch_next_insn;
reg dbg_valid_insn;
reg [63:0] cached_ascii_instr;
reg [31:0] cached_insn_imm;
reg [31:0] cached_insn_opcode;
reg [4:0] cached_insn_rs1;
reg [4:0] cached_insn_rs2;
reg [4:0] cached_insn_rd;
always @(posedge clk) begin
q_ascii_instr <= dbg_ascii_instr;
q_insn_imm <= dbg_insn_imm;
q_insn_opcode <= dbg_insn_opcode;
q_insn_rs1 <= dbg_insn_rs1;
q_insn_rs2 <= dbg_insn_rs2;
q_insn_rd <= dbg_insn_rd;
dbg_next <= launch_next_insn;
if (!resetn || trap)
dbg_valid_insn <= 0;
else if (launch_next_insn)
dbg_valid_insn <= 1;
if (decoder_trigger_q) begin
cached_ascii_instr <= new_ascii_instr;
cached_insn_imm <= decoded_imm;
if (&next_insn_opcode[1:0])
cached_insn_opcode <= next_insn_opcode;
else
cached_insn_opcode <= {16'b0, next_insn_opcode[15:0]};
cached_insn_rs1 <= decoded_rs1;
cached_insn_rs2 <= decoded_rs2;
cached_insn_rd <= decoded_rd;
end
if (launch_next_insn) begin
dbg_insn_addr <= next_pc;
end
end
always @* begin
dbg_ascii_instr = q_ascii_instr;
dbg_insn_imm = q_insn_imm;
dbg_insn_opcode = q_insn_opcode;
dbg_insn_rs1 = q_insn_rs1;
dbg_insn_rs2 = q_insn_rs2;
dbg_insn_rd = q_insn_rd;
if (dbg_next) begin
if (decoder_pseudo_trigger_q) begin
dbg_ascii_instr = cached_ascii_instr;
dbg_insn_imm = cached_insn_imm;
dbg_insn_opcode = cached_insn_opcode;
dbg_insn_rs1 = cached_insn_rs1;
dbg_insn_rs2 = cached_insn_rs2;
dbg_insn_rd = cached_insn_rd;
end else begin
dbg_ascii_instr = new_ascii_instr;
if (&next_insn_opcode[1:0])
dbg_insn_opcode = next_insn_opcode;
else
dbg_insn_opcode = {16'b0, next_insn_opcode[15:0]};
dbg_insn_imm = decoded_imm;
dbg_insn_rs1 = decoded_rs1;
dbg_insn_rs2 = decoded_rs2;
dbg_insn_rd = decoded_rd;
end
end
end
`ifdef DEBUGASM
always @(posedge clk) begin
if (dbg_next) begin
$display("debugasm %x %x %s", dbg_insn_addr, dbg_insn_opcode, dbg_ascii_instr ? dbg_ascii_instr : "*");
end
end
`endif
`ifdef DEBUG
always @(posedge clk) begin
if (dbg_next) begin
if (&dbg_insn_opcode[1:0])
$display("DECODE: 0x%08x 0x%08x %-0s", dbg_insn_addr, dbg_insn_opcode, dbg_ascii_instr ? dbg_ascii_instr : "UNKNOWN");
else
$display("DECODE: 0x%08x 0x%04x %-0s", dbg_insn_addr, dbg_insn_opcode[15:0], dbg_ascii_instr ? dbg_ascii_instr : "UNKNOWN");
end
end
`endif
always @(posedge clk) begin
is_lui_auipc_jal <= |{instr_lui, instr_auipc, instr_jal};
is_lui_auipc_jal_jalr_addi_add_sub <= |{instr_lui, instr_auipc, instr_jal, instr_jalr, instr_addi, instr_add, instr_sub};
is_slti_blt_slt <= |{instr_slti, instr_blt, instr_slt};
is_sltiu_bltu_sltu <= |{instr_sltiu, instr_bltu, instr_sltu};
is_lbu_lhu_lw <= |{instr_lbu, instr_lhu, instr_lw};
is_compare <= |{is_beq_bne_blt_bge_bltu_bgeu, instr_slti, instr_slt, instr_sltiu, instr_sltu};
if (mem_do_rinst && mem_done) begin
instr_lui <= mem_rdata_latched[6:0] == 7'b0110111;
instr_auipc <= mem_rdata_latched[6:0] == 7'b0010111;
instr_jal <= mem_rdata_latched[6:0] == 7'b1101111;
instr_jalr <= mem_rdata_latched[6:0] == 7'b1100111 && mem_rdata_latched[14:12] == 3'b000;
instr_retirq <= mem_rdata_latched[6:0] == 7'b0001011 && mem_rdata_latched[31:25] == 7'b0000010 && ENABLE_IRQ;
instr_waitirq <= mem_rdata_latched[6:0] == 7'b0001011 && mem_rdata_latched[31:25] == 7'b0000100 && ENABLE_IRQ;
is_beq_bne_blt_bge_bltu_bgeu <= mem_rdata_latched[6:0] == 7'b1100011;
is_lb_lh_lw_lbu_lhu <= mem_rdata_latched[6:0] == 7'b0000011;
is_sb_sh_sw <= mem_rdata_latched[6:0] == 7'b0100011;
is_alu_reg_imm <= mem_rdata_latched[6:0] == 7'b0010011;
is_alu_reg_reg <= mem_rdata_latched[6:0] == 7'b0110011;
{ decoded_imm_j[31:20], decoded_imm_j[10:1], decoded_imm_j[11], decoded_imm_j[19:12], decoded_imm_j[0] } <= $signed({mem_rdata_latched[31:12], 1'b0});
decoded_rd <= mem_rdata_latched[11:7];
decoded_rs1 <= mem_rdata_latched[19:15];
decoded_rs2 <= mem_rdata_latched[24:20];
if (mem_rdata_latched[6:0] == 7'b0001011 && mem_rdata_latched[31:25] == 7'b0000000 && ENABLE_IRQ && ENABLE_IRQ_QREGS)
decoded_rs1[regindex_bits-1] <= 1; // instr_getq
if (mem_rdata_latched[6:0] == 7'b0001011 && mem_rdata_latched[31:25] == 7'b0000010 && ENABLE_IRQ)
decoded_rs1 <= ENABLE_IRQ_QREGS ? irqregs_offset : 3; // instr_retirq
compressed_instr <= 0;
if (COMPRESSED_ISA && mem_rdata_latched[1:0] != 2'b11) begin
compressed_instr <= 1;
decoded_rd <= 0;
decoded_rs1 <= 0;
decoded_rs2 <= 0;
{ decoded_imm_j[31:11], decoded_imm_j[4], decoded_imm_j[9:8], decoded_imm_j[10], decoded_imm_j[6],
decoded_imm_j[7], decoded_imm_j[3:1], decoded_imm_j[5], decoded_imm_j[0] } <= $signed({mem_rdata_latched[12:2], 1'b0});
case (mem_rdata_latched[1:0])
2'b00: begin // Quadrant 0
case (mem_rdata_latched[15:13])
3'b000: begin // C.ADDI4SPN
is_alu_reg_imm <= |mem_rdata_latched[12:5];
decoded_rs1 <= 2;
decoded_rd <= 8 + mem_rdata_latched[4:2];
end
3'b010: begin // C.LW
is_lb_lh_lw_lbu_lhu <= 1;
decoded_rs1 <= 8 + mem_rdata_latched[9:7];
decoded_rd <= 8 + mem_rdata_latched[4:2];
end
3'b110: begin // C.SW
is_sb_sh_sw <= 1;
decoded_rs1 <= 8 + mem_rdata_latched[9:7];
decoded_rs2 <= 8 + mem_rdata_latched[4:2];
end
endcase
end
2'b01: begin // Quadrant 1
case (mem_rdata_latched[15:13])
3'b000: begin // C.NOP / C.ADDI
is_alu_reg_imm <= 1;
decoded_rd <= mem_rdata_latched[11:7];
decoded_rs1 <= mem_rdata_latched[11:7];
end
3'b001: begin // C.JAL
instr_jal <= 1;
decoded_rd <= 1;
end
3'b 010: begin // C.LI
is_alu_reg_imm <= 1;
decoded_rd <= mem_rdata_latched[11:7];
decoded_rs1 <= 0;
end
3'b 011: begin
if (mem_rdata_latched[12] || mem_rdata_latched[6:2]) begin
if (mem_rdata_latched[11:7] == 2) begin // C.ADDI16SP
is_alu_reg_imm <= 1;
decoded_rd <= mem_rdata_latched[11:7];
decoded_rs1 <= mem_rdata_latched[11:7];
end else begin // C.LUI
instr_lui <= 1;
decoded_rd <= mem_rdata_latched[11:7];
decoded_rs1 <= 0;
end
end
end
3'b100: begin
if (!mem_rdata_latched[11] && !mem_rdata_latched[12]) begin // C.SRLI, C.SRAI
is_alu_reg_imm <= 1;
decoded_rd <= 8 + mem_rdata_latched[9:7];
decoded_rs1 <= 8 + mem_rdata_latched[9:7];
decoded_rs2 <= {mem_rdata_latched[12], mem_rdata_latched[6:2]};
end
if (mem_rdata_latched[11:10] == 2'b10) begin // C.ANDI
is_alu_reg_imm <= 1;
decoded_rd <= 8 + mem_rdata_latched[9:7];
decoded_rs1 <= 8 + mem_rdata_latched[9:7];
end
if (mem_rdata_latched[12:10] == 3'b011) begin // C.SUB, C.XOR, C.OR, C.AND
is_alu_reg_reg <= 1;
decoded_rd <= 8 + mem_rdata_latched[9:7];
decoded_rs1 <= 8 + mem_rdata_latched[9:7];
decoded_rs2 <= 8 + mem_rdata_latched[4:2];
end
end
3'b101: begin // C.J
instr_jal <= 1;
end
3'b110: begin // C.BEQZ
is_beq_bne_blt_bge_bltu_bgeu <= 1;
decoded_rs1 <= 8 + mem_rdata_latched[9:7];
decoded_rs2 <= 0;
end
3'b111: begin // C.BNEZ
is_beq_bne_blt_bge_bltu_bgeu <= 1;
decoded_rs1 <= 8 + mem_rdata_latched[9:7];
decoded_rs2 <= 0;
end
endcase
end
2'b10: begin // Quadrant 2
case (mem_rdata_latched[15:13])
3'b000: begin // C.SLLI
if (!mem_rdata_latched[12]) begin
is_alu_reg_imm <= 1;
decoded_rd <= mem_rdata_latched[11:7];
decoded_rs1 <= mem_rdata_latched[11:7];
decoded_rs2 <= {mem_rdata_latched[12], mem_rdata_latched[6:2]};
end
end
3'b010: begin // C.LWSP
if (mem_rdata_latched[11:7]) begin
is_lb_lh_lw_lbu_lhu <= 1;
decoded_rd <= mem_rdata_latched[11:7];
decoded_rs1 <= 2;
end