// Copyright lowRISC contributors. // Licensed under the Apache License, Version 2.0, see LICENSE for details. // SPDX-License-Identifier: Apache-2.0 // // Register Top module auto-generated by `reggen` module i2c_reg_top ( input logic clk_i, input logic rst_ni, // To HW output i2c_reg_pkg::i2c_reg2hw_t reg2hw, // Write input i2c_reg_pkg::i2c_hw2reg_t hw2reg, // Read input logic reg_we, input logic reg_re, input logic [31:0] reg_wdata, input logic [ 3:0] reg_be, input logic [31:0] reg_addr, output logic [31:0] reg_rdata ); import i2c_reg_pkg::* ; localparam int AW = 4; localparam int DW = 32; localparam int DBW = DW/8; // Byte Width logic reg_error; logic addrmiss, wr_err; logic [DW-1:0] reg_rdata_next; assign reg_rdata = reg_rdata_next; assign reg_error = wr_err; // Define SW related signals // Format: __{wd|we|qs} // or _{wd|we|qs} if field == 1 or 0 logic ctrl_we; logic ctrl_start_qs; logic ctrl_start_wd; logic ctrl_int_en_qs; logic ctrl_int_en_wd; logic ctrl_int_pending_qs; logic ctrl_int_pending_wd; logic ctrl_mode_qs; logic ctrl_mode_wd; logic ctrl_write_qs; logic ctrl_write_wd; logic ctrl_ack_qs; logic ctrl_error_qs; logic [15:0] ctrl_clk_div_qs; logic [15:0] ctrl_clk_div_wd; logic master_data_we; logic [7:0] master_data_address_qs; logic [7:0] master_data_address_wd; logic [7:0] master_data_regreg_qs; logic [7:0] master_data_regreg_wd; logic [7:0] master_data_data_qs; logic [7:0] master_data_data_wd; logic slave_data_re; logic [7:0] slave_data_qs; // Register instances // R[ctrl]: V(False) // F[start]: 0:0 prim_subreg #( .DW (1), .SWACCESS("RW"), .RESVAL (1'h0) ) u_ctrl_start ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (ctrl_we), .wd (ctrl_start_wd), // from internal hardware .de (hw2reg.ctrl.start.de), .d (hw2reg.ctrl.start.d), // to internal hardware .qe (reg2hw.ctrl.start.qe), .q (reg2hw.ctrl.start.q), // to register interface (read) .qs (ctrl_start_qs) ); // F[int_en]: 1:1 prim_subreg #( .DW (1), .SWACCESS("RW"), .RESVAL (1'h0) ) u_ctrl_int_en ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (ctrl_we), .wd (ctrl_int_en_wd), // from internal hardware .de (hw2reg.ctrl.int_en.de), .d (hw2reg.ctrl.int_en.d), // to internal hardware .qe (reg2hw.ctrl.int_en.qe), .q (reg2hw.ctrl.int_en.q), // to register interface (read) .qs (ctrl_int_en_qs) ); // F[int_pending]: 2:2 prim_subreg #( .DW (1), .SWACCESS("W1C"), .RESVAL (1'h0) ) u_ctrl_int_pending ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (ctrl_we), .wd (ctrl_int_pending_wd), // from internal hardware .de (hw2reg.ctrl.int_pending.de), .d (hw2reg.ctrl.int_pending.d), // to internal hardware .qe (reg2hw.ctrl.int_pending.qe), .q (reg2hw.ctrl.int_pending.q), // to register interface (read) .qs (ctrl_int_pending_qs) ); // F[mode]: 3:3 prim_subreg #( .DW (1), .SWACCESS("RW"), .RESVAL (1'h0) ) u_ctrl_mode ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (ctrl_we), .wd (ctrl_mode_wd), // from internal hardware .de (hw2reg.ctrl.mode.de), .d (hw2reg.ctrl.mode.d), // to internal hardware .qe (reg2hw.ctrl.mode.qe), .q (reg2hw.ctrl.mode.q), // to register interface (read) .qs (ctrl_mode_qs) ); // F[write]: 4:4 prim_subreg #( .DW (1), .SWACCESS("RW"), .RESVAL (1'h0) ) u_ctrl_write ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (ctrl_we), .wd (ctrl_write_wd), // from internal hardware .de (hw2reg.ctrl.write.de), .d (hw2reg.ctrl.write.d), // to internal hardware .qe (reg2hw.ctrl.write.qe), .q (reg2hw.ctrl.write.q), // to register interface (read) .qs (ctrl_write_qs) ); // F[ack]: 5:5 prim_subreg #( .DW (1), .SWACCESS("RO"), .RESVAL (1'h0) ) u_ctrl_ack ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (1'b0), .wd ('0), // from internal hardware .de (hw2reg.ctrl.ack.de), .d (hw2reg.ctrl.ack.d), // to internal hardware .qe (reg2hw.ctrl.ack.qe), .q (reg2hw.ctrl.ack.q), // to register interface (read) .qs (ctrl_ack_qs) ); // F[error]: 6:6 prim_subreg #( .DW (1), .SWACCESS("RO"), .RESVAL (1'h0) ) u_ctrl_error ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (1'b0), .wd ('0), // from internal hardware .de (hw2reg.ctrl.error.de), .d (hw2reg.ctrl.error.d), // to internal hardware .qe (reg2hw.ctrl.error.qe), .q (reg2hw.ctrl.error.q), // to register interface (read) .qs (ctrl_error_qs) ); // F[clk_div]: 31:16 prim_subreg #( .DW (16), .SWACCESS("RW"), .RESVAL (16'h0) ) u_ctrl_clk_div ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (ctrl_we), .wd (ctrl_clk_div_wd), // from internal hardware .de (hw2reg.ctrl.clk_div.de), .d (hw2reg.ctrl.clk_div.d), // to internal hardware .qe (reg2hw.ctrl.clk_div.qe), .q (reg2hw.ctrl.clk_div.q), // to register interface (read) .qs (ctrl_clk_div_qs) ); // R[master_data]: V(False) // F[address]: 7:0 prim_subreg #( .DW (8), .SWACCESS("RW"), .RESVAL (8'h0) ) u_master_data_address ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (master_data_we), .wd (master_data_address_wd), // from internal hardware .de (hw2reg.master_data.address.de), .d (hw2reg.master_data.address.d), // to internal hardware .qe (), .q (reg2hw.master_data.address.q), // to register interface (read) .qs (master_data_address_qs) ); // F[regreg]: 15:8 prim_subreg #( .DW (8), .SWACCESS("RW"), .RESVAL (8'h0) ) u_master_data_regreg ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (master_data_we), .wd (master_data_regreg_wd), // from internal hardware .de (hw2reg.master_data.regreg.de), .d (hw2reg.master_data.regreg.d), // to internal hardware .qe (), .q (reg2hw.master_data.regreg.q), // to register interface (read) .qs (master_data_regreg_qs) ); // F[data]: 23:16 prim_subreg #( .DW (8), .SWACCESS("RW"), .RESVAL (8'h0) ) u_master_data_data ( .clk_i (clk_i), .rst_ni (rst_ni), // from register interface .we (master_data_we), .wd (master_data_data_wd), // from internal hardware .de (hw2reg.master_data.data.de), .d (hw2reg.master_data.data.d), // to internal hardware .qe (), .q (reg2hw.master_data.data.q), // to register interface (read) .qs (master_data_data_qs) ); // R[slave_data]: V(True) prim_subreg_ext #( .DW (8) ) u_slave_data ( .re (slave_data_re), .we (1'b0), .wd ('0), .d (hw2reg.slave_data.d), .qre (reg2hw.slave_data.re), .qe (), .q (reg2hw.slave_data.q), .qs (slave_data_qs) ); logic [2:0] addr_hit; always_comb begin addr_hit = '0; addr_hit[0] = (reg_addr == I2C_CTRL_OFFSET); addr_hit[1] = (reg_addr == I2C_MASTER_DATA_OFFSET); addr_hit[2] = (reg_addr == I2C_SLAVE_DATA_OFFSET); end assign addrmiss = (reg_re || reg_we) ? ~|addr_hit : 1'b0 ; // Check sub-word write is permitted always_comb begin wr_err = (reg_we & ((addr_hit[0] & (|(I2C_PERMIT[0] & ~reg_be))) | (addr_hit[1] & (|(I2C_PERMIT[1] & ~reg_be))) | (addr_hit[2] & (|(I2C_PERMIT[2] & ~reg_be))))); end assign ctrl_we = addr_hit[0] & reg_we & !reg_error; assign ctrl_start_wd = reg_wdata[0]; assign ctrl_int_en_wd = reg_wdata[1]; assign ctrl_int_pending_wd = reg_wdata[2]; assign ctrl_mode_wd = reg_wdata[3]; assign ctrl_write_wd = reg_wdata[4]; assign ctrl_clk_div_wd = reg_wdata[31:16]; assign master_data_we = addr_hit[1] & reg_we & !reg_error; assign master_data_address_wd = reg_wdata[7:0]; assign master_data_regreg_wd = reg_wdata[15:8]; assign master_data_data_wd = reg_wdata[23:16]; assign slave_data_re = addr_hit[2] & reg_re & !reg_error; // Read data return always_comb begin reg_rdata_next = '0; unique case (1'b1) addr_hit[0]: begin reg_rdata_next[0] = ctrl_start_qs; reg_rdata_next[1] = ctrl_int_en_qs; reg_rdata_next[2] = ctrl_int_pending_qs; reg_rdata_next[3] = ctrl_mode_qs; reg_rdata_next[4] = ctrl_write_qs; reg_rdata_next[5] = ctrl_ack_qs; reg_rdata_next[6] = ctrl_error_qs; reg_rdata_next[31:16] = ctrl_clk_div_qs; end addr_hit[1]: begin reg_rdata_next[7:0] = master_data_address_qs; reg_rdata_next[15:8] = master_data_regreg_qs; reg_rdata_next[23:16] = master_data_data_qs; end addr_hit[2]: begin reg_rdata_next[7:0] = slave_data_qs; end default: begin reg_rdata_next = '1; end endcase end // Unused signal tieoff // wdata / byte enable are not always fully used // add a blanket unused statement to handle lint waivers logic unused_wdata; logic unused_be; assign unused_wdata = ^reg_wdata; assign unused_be = ^reg_be; endmodule