module serv_decode ( input clk, input [31:0] i_wb_rdt, input i_wb_en, output o_ibus_active, output o_ctrl_en, output o_ctrl_jump, output o_ctrl_jalr, output o_ctrl_auipc, output o_rf_rd_en, output reg [4:0] o_rf_rd_addr, output o_rf_rs_en, output reg [4:0] o_rf_rs1_addr, output reg [4:0] o_rf_rs2_addr, output o_alu_en, output o_alu_init, output o_alu_sub, output reg o_alu_cmp_sel, output o_alu_cmp_neg, output reg o_alu_cmp_uns, input i_alu_cmp, output o_alu_shamt_en, output o_alu_sh_signed, output o_alu_sh_right, output reg [2:0] o_alu_rd_sel, output o_mem_en, output o_mem_cmd, output o_mem_init, output reg o_mem_dat_valid, input i_mem_busy, output reg [2:0] o_funct3, output reg o_imm, output o_offset_source, output o_op_b_source, output [1:0] o_rd_source); `include "serv_params.vh" localparam [2:0] IDLE = 3'd0, COMPARE = 3'd1, SH_INIT = 3'd2, MEM_INIT = 3'd3, MEM_WAIT = 3'd4, RUN = 3'd5; localparam [4:0] OP_LOAD = 5'b00000, OP_STORE = 5'b01000, OP_OPIMM = 5'b00100, OP_AUIPC = 5'b00101, OP_OP = 5'b01100, OP_LUI = 5'b01101, OP_BRANCH = 5'b11000, OP_JALR = 5'b11001, OP_JAL = 5'b11011; reg [2:0] state = IDLE; reg [4:0] cnt = 5'd0; wire running; wire mem_op; wire shift_op; reg signbit; assign o_ibus_active = (state == IDLE); assign mem_op = (opcode == OP_LOAD) | (opcode == OP_STORE); assign shift_op = ((opcode == OP_OPIMM) & (o_funct3[1:0] == 2'b01)) | ((opcode == OP_OP ) & (o_funct3[1:0] == 2'b01)); assign o_ctrl_en = running; assign o_ctrl_jump = (opcode == OP_JAL) | (opcode == OP_JALR) | ((opcode == OP_BRANCH) & i_alu_cmp); assign o_ctrl_jalr = (opcode == OP_JALR); assign o_ctrl_auipc = (opcode == OP_AUIPC); assign o_rf_rd_en = running & (opcode != OP_STORE) & (opcode != OP_BRANCH); assign o_rf_rs_en = cnt_en /*(running & (opcode == OP_OPIMM)) | (state == SH_INIT) | (state == MEM_INIT)*/; //FIXME: Change for addi? assign o_alu_en = cnt_en; assign o_alu_init = (state == COMPARE) | (state == SH_INIT); assign o_alu_sub = (opcode == OP_OP) ? signbit /* ? 1'b1*/ : ((opcode == OP_BRANCH) & (o_funct3 == 3'b100)) ? 1'b1 : ((opcode == OP_BRANCH) & (o_funct3 == 3'b101)) ? 1'b1 : ((opcode == OP_BRANCH) & (o_funct3 == 3'b110)) ? 1'b1 : ((opcode == OP_OPIMM) & (o_funct3 == 3'b000)) ? 1'b0 : 1'bx; assign o_alu_cmp_neg = (opcode == OP_BRANCH) & o_funct3[0]; always @(o_funct3) begin casez (o_funct3) 3'b00? : o_alu_cmp_sel = ALU_CMP_EQ; 3'b01? : o_alu_cmp_sel = ALU_CMP_LT; 3'b1?? : o_alu_cmp_sel = ALU_CMP_LT; default : o_alu_cmp_sel = 1'bx; endcase casez (o_funct3) 3'b00? : o_alu_cmp_uns = 1'b0; 3'b010 : o_alu_cmp_uns = 1'b0; 3'b011 : o_alu_cmp_uns = 1'b1; 3'b10? : o_alu_cmp_uns = 1'b0; 3'b11? : o_alu_cmp_uns = 1'b1; default : o_alu_cmp_uns = 1'bx; endcase casez(o_funct3) 3'b000 : o_alu_rd_sel = ALU_RESULT_ADD; 3'b001 : o_alu_rd_sel = ALU_RESULT_SR; 3'b01? : o_alu_rd_sel = ALU_RESULT_LT; 3'b100 : o_alu_rd_sel = ALU_RESULT_XOR; 3'b101 : o_alu_rd_sel = ALU_RESULT_SR; 3'b110 : o_alu_rd_sel = ALU_RESULT_OR; 3'b111 : o_alu_rd_sel = ALU_RESULT_AND; default : o_alu_rd_sel = 3'bxx; endcase end assign o_alu_shamt_en = (state == SH_INIT) & (cnt < 5); assign o_alu_sh_signed = signbit; assign o_alu_sh_right = o_funct3[2]; assign o_mem_en = mem_op & cnt_en; assign o_mem_cmd = (opcode == OP_STORE); assign o_mem_init = (state == MEM_INIT); reg [4:0] opcode; reg [31:0] imm; always @(posedge clk) begin if (i_wb_en) begin o_rf_rd_addr <= i_wb_rdt[11:7]; o_rf_rs1_addr <= i_wb_rdt[19:15]; o_rf_rs2_addr <= i_wb_rdt[24:20]; o_funct3 <= i_wb_rdt[14:12]; signbit <= i_wb_rdt[30]; opcode <= i_wb_rdt[6:2]; imm <= i_wb_rdt; end end assign o_offset_source = (opcode == OP_JAL) ? OFFSET_SOURCE_IMM : (opcode == OP_AUIPC) ? OFFSET_SOURCE_IMM : (opcode == OP_BRANCH) ? OFFSET_SOURCE_IMM : (opcode == OP_JALR) ? OFFSET_SOURCE_IMM : 1'bx; assign o_op_b_source = (opcode == OP_OPIMM) ? OP_B_SOURCE_IMM : (opcode == OP_BRANCH) ? OP_B_SOURCE_RS2 : (opcode == OP_OP) ? OP_B_SOURCE_RS2 : 1'bx; always @(o_funct3, cnt, o_mem_init) if (o_mem_init) o_mem_dat_valid = 1'bx; else casez(o_funct3[1:0]) 2'b00 : o_mem_dat_valid = (cnt < 8); 2'b01 : o_mem_dat_valid = (cnt < 16); 2'b10 : o_mem_dat_valid = 1'b1; default: o_mem_dat_valid = 1'bx; endcase assign o_rd_source = (opcode == OP_JAL) ? RD_SOURCE_CTRL : (opcode == OP_OPIMM) ? RD_SOURCE_ALU : (opcode == OP_OP) ? RD_SOURCE_ALU : (opcode == OP_LUI) ? RD_SOURCE_IMM : (opcode == OP_AUIPC) ? RD_SOURCE_CTRL : (opcode == OP_JALR) ? RD_SOURCE_CTRL : (opcode == OP_LOAD) ? RD_SOURCE_MEM : 2'bxx; always @(cnt, opcode, imm) begin o_imm = 1'bx; if (opcode == OP_JAL) if (cnt > 19) o_imm = imm[31]; else if (cnt > 11) o_imm = imm[cnt]; else if (cnt > 10) o_imm = imm[20]; else if (cnt > 0) o_imm = imm[cnt+20]; else o_imm = 1'b0; else if ((opcode == OP_OPIMM) | (opcode == OP_JALR)) if (cnt > 10) o_imm = imm[31]; else o_imm = imm[cnt+20]; else if ((opcode == OP_LUI) | (opcode == OP_AUIPC)) if (cnt > 11) o_imm = imm[cnt]; else o_imm = 1'b0; else if (opcode == OP_LOAD) if (cnt > 10) o_imm = imm[31]; else o_imm = imm[cnt+20]; else if (opcode == OP_BRANCH) if (cnt > 11) o_imm = imm[31]; else if (cnt > 10) o_imm = imm[7]; else if (cnt > 4) o_imm = imm[cnt+20]; else if (cnt > 0) o_imm = imm[cnt+7]; else o_imm = 1'b0; else if (opcode == OP_STORE) if (cnt > 10) o_imm = imm[31]; else if (cnt > 4) o_imm = imm[cnt+20]; else o_imm = imm[cnt+7]; end reg go = 1'b0; always @(posedge clk) go <= i_wb_en; wire cnt_en = (state == RUN) | (state == COMPARE) | (state == SH_INIT) | (state == MEM_INIT); wire cnt_done = cnt == 31; assign running = (state == RUN); always @(posedge clk) begin state <= state; case (state) IDLE : begin if (go) state <= (opcode == OP_BRANCH) ? COMPARE : (((opcode == OP_OPIMM) | (opcode == OP_OP))& (o_funct3[2:1] == 2'b01)) ? COMPARE : mem_op ? MEM_INIT : shift_op ? SH_INIT : RUN; end SH_INIT : begin if (cnt_done) state <= RUN; end COMPARE : begin if (cnt_done) state <= RUN; end MEM_INIT : if (cnt_done) state <= MEM_WAIT; MEM_WAIT : if (!i_mem_busy) state <= RUN; RUN : begin if (cnt_done) state <= IDLE; end default : state <= 3'bxxx; endcase cnt <= cnt + {4'd0,cnt_en}; end endmodule