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decode.sv
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module decode (
input logic clk,
input logic reset,
//pipeline control
input logic next_ready_i,
output logic self_ready_o,
input logic prev_valid_i,
output logic self_valid_o,
//contorl unit signal
input logic stall_i,
//unit function signal
input logic [31:0] instr_i,
input core_package::machine_mode_e machine_mode_i,
input logic [31:0] misa_i,
output core_package::opcode_e opcode_o,
output core_package::alu_op_e alu_op_o,
output core_package::instr_type_e instr_type_o,
output logic illegal_instr_o,
output logic [4:0] rd_o,
output logic [4:0] rs1_o,
output logic [4:0] rs2_o,
output logic [2:0] funct3_o,
output logic [6:0] funct7_o,
output logic [31:0] imm_o,
output logic [3:0] fence_pred_o,
output logic [3:0] fence_succ_o,
output core_package::csr_e csr_o,
output logic [31:0] shamt_o,
output logic [31:0] zimm_o
);
import core_package::*;
logic illegal_instr = 1'b0;
opcode_e opcode;
alu_op_e alu_op;
instr_type_e i_type;
logic [31:0] instr;
logic [4:0] rd;
logic [2:0] funct3;
logic [4:0] rs1;
logic [4:0] rs2;
logic [6:0] funct7;
logic [31:0] imm;
logic [3:0] fence_pred;
logic [3:0] fence_succ;
csr_e csr_val;
logic [31:0] shamt;
logic [31:0] zimm;
csr_e csr;
logic illegal_csr;
logic valid;
logic prev_valid;
assign self_ready_o = !stall_i;
assign illegal_instr_o = illegal_instr || illegal_csr;
assign opcode = opcode_e'(instr[6:0]);
assign rd = instr[11:7];
assign funct3 = instr[14:12];
assign rs1 = instr[19:15];
assign rs2 = instr[24:20];
assign funct7 = instr[31:25];
assign fence_pred = instr[27:24];
assign fence_succ = instr[23:20];
assign shamt = { {27{instr[24]}} ,instr[24:20]} ;
assign zimm = {27'b0, instr[19:15]};
assign csr_val = csr_e'(instr[31:20]);
// get the bit field of the instruction
always_comb begin : partition
unique case (opcode)
OPCODE_LOAD: begin
imm = { {12{instr[31]}}, instr[31:12] };
i_type = INSTR_TYPE_I;
end
OPCODE_MISC_MEM: begin
imm = 32'b0;
i_type = INSTR_TYPE_SYSTEM;
end
OPCODE_OP_IMM: begin
imm = { {20{instr[31]}}, instr[31:20] };
i_type = INSTR_TYPE_I;
end
OPCODE_AUIPC: begin
imm = {instr[31:12], 12'b0};
i_type = INSTR_TYPE_U;
end
OPCODE_STORE: begin
imm = { {20{instr[31]}}, instr[31:25], instr[11:7] };
i_type = INSTR_TYPE_S;
end
OPCODE_OP: begin
imm = 32'b0;
i_type = INSTR_TYPE_R;
end
OPCODE_LUI: begin
imm = {instr[31:12], 12'b0};
i_type = INSTR_TYPE_U;
end
OPCODE_BRANCH: begin
imm = { {20{instr[31]}}, instr[31], instr[7], instr[30:25], instr[11:8] };
i_type = INSTR_TYPE_B;
end
OPCODE_JALR: begin
imm = { {20{instr[31]}}, instr[31:20]};
i_type = INSTR_TYPE_I;
end
OPCODE_JAL: begin
imm = { {11{instr[31]}}, instr[31], instr[19:12], instr[20], instr[30:21], 1'b0 };
i_type = INSTR_TYPE_J;
end
OPCODE_SYSTEM: begin
imm = 32'b0;
i_type = INSTR_TYPE_SYSTEM;
end
default: begin
imm = 32'bx;
i_type = INSTR_TYPE_UNKNOWN;
end
endcase
end
always_comb begin : funcitonOutput
unique case (opcode)
OPCODE_OP_IMM: begin
unique case (funct3)
ADDI: alu_op = ALU_ADD;
SLTI: alu_op = ALU_SLT;
SLTIU: alu_op = ALU_SLTU;
XORI: alu_op = ALU_XOR;
ORI: alu_op = ALU_OR;
ANDI: alu_op = ALU_AND;
SLLI: alu_op = ALU_SLL;
SR_LA_I: unique case (funct7)
7'b0000000: alu_op = ALU_SRL;
7'b0100000: alu_op = ALU_SRA;
default: alu_op = ALU_ADD;
endcase
endcase
end
OPCODE_OP: begin
unique case (funct3)
ADD_SUB: unique case (funct7)
7'b0000000: alu_op = ALU_ADD;
7'b0100000: alu_op = ALU_SUB;
default: alu_op = ALU_ADD;
endcase
SLL: alu_op = ALU_SLL;
SLT: alu_op = ALU_SLT;
SLTU: alu_op = ALU_SLTU;
XOR: alu_op = ALU_XOR;
SR_LA: unique case (funct7)
7'b0000000: alu_op = ALU_SRL;
7'b0100000: alu_op = ALU_SRA;
default: alu_op = ALU_ADD;
endcase
OR: alu_op = ALU_OR;
AND: alu_op = ALU_AND;
endcase
end
OPCODE_JALR:alu_op = ALU_JALR;
default:
alu_op = ALU_ADD;
endcase
end
// for illegal instruction
csr_e csr_enum;
always_comb begin : illegal_instrustion
unique case (opcode)
OPCODE_LOAD:
illegal_instr = (funct3 == 3'b011) ||
(funct3 == 3'b110) ||
(funct3 == 3'b111);
OPCODE_MISC_MEM:
illegal_instr = !((funct3 == 3'b000) ||
(funct3 == 3'b001) ) ||
(rs1 != 5'b00000) ||
(instr[31:28] != 4'b0000) ||
(funct3 == FENCE_I &&
fence_pred != 4'b0000 &&
fence_succ != 4'b0000);
OPCODE_OP_IMM:
illegal_instr = (funct3 == SLLI && funct7 != 7'b0000000) ||
(funct3 == SR_LA_I &&
(funct7 != 7'b0100000 || funct7 != 7'b0000000));
OPCODE_AUIPC:
illegal_instr = 1'b0;
OPCODE_STORE:
illegal_instr = !((funct3 == 3'b000) ||
(funct3 == 3'b001) ||
(funct3 == 3'b010) );
OPCODE_OP:
illegal_instr = (funct7 != 7'b0000000) ||
(funct7 != 7'b0100000);
OPCODE_LUI:
illegal_instr = 1'b0;
OPCODE_BRANCH:
illegal_instr = (funct3 == 3'b010) ||
(funct3 == 3'b011);
OPCODE_JALR:
illegal_instr = !(funct3 == 3'b000);
OPCODE_JAL:
illegal_instr = 1'b0;
OPCODE_SYSTEM:
begin
illegal_instr = (funct3 == 3'b100) ||
(funct3 == 3'b000 && (csr != 12'b0 || csr == 12'b1)) ||
// !(csr_val inside {csr_enum}) ||
(funct3 == CSRRW && csr[11:10] == 2'b11) ||
(funct3 == CSRRS && csr[11:10] == 2'b11 && rs1 != 5'b0) ||
(funct3 == CSRRC && csr[11:10] == 2'b11 && rs1 != 5'b0) ||
(funct3 == CSRRWI && csr[11:10] == 2'b11) ||
(funct3 == CSRRSI && csr[11:10] == 2'b11 && rs1 != 5'b0) ||
(funct3 == CSRRCI && csr[11:10] == 2'b11 && rs1 != 5'b0) ||
(machine_mode_i <= csr[9:8]);
end
default:
illegal_instr = 1'b1;
endcase
end
//illegal csr check
always_comb begin : csr_check
if (opcode == OPCODE_SYSTEM)
unique case (csr)
cycle : illegal_csr = 1'b0;
utime : illegal_csr = 1'b0;
instret : illegal_csr = 1'b0;
cycleh : illegal_csr = 1'b0;
timeh : illegal_csr = 1'b0;
instreth: illegal_csr = 1'b0;
sstatus : illegal_csr = 1'b0;
stvec : illegal_csr = 1'b0;
sscratch: illegal_csr = 1'b0;
sepc : illegal_csr = 1'b0;
scause : illegal_csr = 1'b0;
stval : illegal_csr = 1'b0;
sip : illegal_csr = 1'b0;
satp : illegal_csr = 1'b0;
scontext: illegal_csr = 1'b0;
mvenderid: illegal_csr = 1'b0;
marchid : illegal_csr = 1'b0;
mimpid : illegal_csr = 1'b0;
mhartid : illegal_csr = 1'b0;
mconfigptr: illegal_csr = 1'b0;
mstatus : illegal_csr = 1'b0;
misa : illegal_csr = 1'b0;
medeleg : illegal_csr = 1'b0;
mideleg : illegal_csr = 1'b0;
mie : illegal_csr = 1'b0;
mtvec : illegal_csr = 1'b0;
mcounteren: illegal_csr = 1'b0;
mscratch : illegal_csr = 1'b0;
mepc : illegal_csr = 1'b0;
mcause : illegal_csr = 1'b0;
mtval : illegal_csr = 1'b0;
mip : illegal_csr = 1'b0;
menvcfg : illegal_csr = 1'b0;
menvcfgh : illegal_csr = 1'b0;
mseccfg : illegal_csr = 1'b0;
mseccfgh : illegal_csr = 1'b0;
pmpcfg_start: illegal_csr = 1'b0;
pmpaddr_start: illegal_csr = 1'b0;
mcycle : illegal_csr = 1'b0;
minstret : illegal_csr = 1'b0;
mcycleh : illegal_csr = 1'b0;
minstreth: illegal_csr = 1'b0;
mcountinhibit: illegal_csr = 1'b0;
tselect : illegal_csr = 1'b0;
tdata1 : illegal_csr = 1'b0;
tdata2 : illegal_csr = 1'b0;
tdata3 : illegal_csr = 1'b0;
mcontext: illegal_csr = 1'b0;
dcsr : illegal_csr = 1'b0;
dpc : illegal_csr = 1'b0;
dscratch: illegal_csr = 1'b0;
dscratch1: illegal_csr = 1'b0;
default : illegal_csr = 1'b1;
endcase
else
illegal_csr = 1'b0;
end
assign valid = !stall_i && prev_valid_i;
always_ff @(posedge clk, posedge reset) begin
if (reset)
begin
alu_op_o <= ALU_ADD;
opcode_o <= OPCODE_OP;
rd_o <= 5'b0;
funct3_o <= 3'b0;
rs1_o <= 5'b0;
rs2_o <= 5'b0;
funct7_o <= 7'b0;
imm_o <= 32'b0;
fence_pred_o <= 4'b0;
fence_succ_o <= 4'b0;
csr_o <= 12'b0;
shamt_o <= 32'b0;
zimm_o <= 32'b0;
end
else
begin
self_valid_o <= valid;
instr <= instr_i;
if (valid && next_ready_i)
begin
opcode_o <= opcode;
alu_op_o <= alu_op;
instr_type_o <= i_type;
rd_o <= rd;
funct3_o <= funct3;
rs1_o <= rs1;
rs2_o <= rs2;
funct7_o <= funct7;
imm_o <= imm;
fence_pred_o <= fence_pred;
fence_succ_o <= fence_succ;
csr_o <= csr_val;
shamt_o <= shamt;
zimm_o <= zimm;
end
end
end
endmodule