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[/] [8051/] [trunk/] [rtl/] [verilog/] [oc8051_int.v] - Rev 46
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////////////////////////////////////////////////////////////////////// //// //// //// 8051 cores interrupt control module //// //// //// //// This file is part of the 8051 cores project //// //// http://www.opencores.org/cores/8051/ //// //// //// //// Description //// //// contains sfr's: tcon, ip, ie; //// //// interrupt handling //// //// //// //// To Do: //// //// Nothing //// //// //// //// Author(s): //// //// - Simon Teran, simont@opencores.org //// //// - Jaka Simsic, jakas@opencores.org //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source is distributed in the hope that it will be //// //// useful, but WITHOUT ANY WARRANTY; without even the implied //// //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// //// PURPOSE. See the GNU Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// ////////////////////////////////////////////////////////////////////// // // CVS Revision History // // $Log: not supported by cvs2svn $ // //clk clock (pin) //rst reset (pin) //wr_addr address for selecting different registers (input) //data_in data input (input) //wr read/write signal (input) //tf0 signal for timer interrupt 0 (input) //tf1 signal for timer interrupt 1 (input) //ie0 signal for external interrupt 0 (input) //ie1 signal for external interrupt 1 (input) //reti return from interrupt signal (input) //int_src describes interrupt source (output) //ip ip register (internal) //ie ie register (internal) //tcon tcon register (internal) `include "oc8051_defines.v" //synopsys translate_off `include "oc8051_timescale.v" //synopsys translate_on module oc0851_int (clk, wr_addr, rd_addr, data_in, bit_in, data_out, bit_out, wr, wr_bit, tf0, tf1, intr, ie0, ie1, rst, reti, int_vec, tr0, tr1, uart, ack); input [7:0] wr_addr, data_in, rd_addr; input wr, tf0, tf1, ie0, ie1, clk, rst, reti, wr_bit, bit_in, uart, ack; output tr0, tr1, intr, bit_out; output [7:0] int_vec, data_out; reg [7:0] ip, ie, int_vec, data_out; reg [3:0] tcon_s; reg tcon_tf1, tcon_tf0, tcon_ie1, tcon_ie0, bit_out; wire [7:0] tcon; // // isrc_cur current interrupt source // isrc_w waiting interrupt source reg [2:0] isrc_cur, isrc_w; // // contains witch level of interrupts is running reg [1:0] int_levl, int_levl_w; // // int_l0 waiting interrupts on level 0 // int_l1 waiting interrupts on level 1 wire [4:0] int_l0, int_l1; wire il0, il1; //reg set_tf0, set_tf1, set_ie0, set_ie1; reg tf0_buff, tf1_buff, ie0_buff, ie1_buff; //reg tf0_ack, tf1_ack, ie0_ack, ie1_ack; assign tcon = {tcon_tf1, tcon_s[3], tcon_tf0, tcon_s[2], tcon_ie1, tcon_s[1], tcon_ie0, tcon_s[0]}; assign tr0 = tcon_s[2]; assign tr1 = tcon_s[3]; assign intr = |int_vec; assign int_l0 = ~ip[4:0] & ie[4:0] & {uart, tcon_tf1, tcon_ie1, tcon_tf0, tcon_ie0}; assign int_l1 = ip[4:0] & ie[4:0] & {uart, tcon_tf1, tcon_ie1, tcon_tf0, tcon_ie0}; assign il0 = |int_l0; assign il1 = |int_l1; always @(posedge clk or posedge rst) begin if (rst) begin ip <=#1 `OC8051_RST_IP; end else if ((wr) & !(wr_bit) & (wr_addr==`OC8051_SFR_IP)) begin ip <= #1 data_in; end else if ((wr) & (wr_bit) & (wr_addr[7:3]==`OC8051_SFR_B_IP)) ip[wr_addr[2:0]] <= #1 bit_in; end always @(posedge clk or posedge rst) begin if (rst) begin ie <=#1 `OC8051_RST_IE; end else if ((wr) & !(wr_bit) & (wr_addr==`OC8051_SFR_IE)) begin ie <= #1 data_in; end else if ((wr) & (wr_bit) & (wr_addr[7:3]==`OC8051_SFR_B_IE)) ie[wr_addr[2:0]] <= #1 bit_in; end // // tcon_s // always @(posedge clk or posedge rst) begin if (rst) begin // tcon_s <=#1 {`OC8051_RST_TCON[6], `OC8051_RST_TCON[4], `OC8051_RST_TCON[2], `OC8051_RST_TCON[0]}; tcon_s <=#1 4'b0000; end else if ((wr) & !(wr_bit) & (wr_addr==`OC8051_SFR_TCON)) begin tcon_s <= #1 {data_in[6], data_in[4], data_in[2], data_in[0]}; end else if ((wr) & (wr_bit) & (wr_addr[7:3]==`OC8051_SFR_B_TCON)) begin case (wr_addr[2:0]) 3'b000: tcon_s[0] <= #1 bit_in; 3'b010: tcon_s[1] <= #1 bit_in; 3'b100: tcon_s[2] <= #1 bit_in; 3'b110: tcon_s[3] <= #1 bit_in; endcase end end // // tf1 (tmod.7) // always @(posedge clk or posedge rst) begin if (rst) begin // tcon_tf1 <=#1 `OC8051_RST_TCON[7]; tcon_tf1 <=#1 1'b0; end else if ((wr) & !(wr_bit) & (wr_addr==`OC8051_SFR_TCON)) begin tcon_tf1 <= #1 data_in[7]; end else if ((wr) & (wr_bit) & (wr_addr=={`OC8051_SFR_B_TCON, 3'b111})) begin tcon_tf1 <= #1 bit_in; end else if (!(tf1_buff) & (tf1)) begin tcon_tf1 <= #1 1'b1; end else if (ack & (isrc_cur==`OC8051_ISRC_TF1)) begin tcon_tf1 <= #1 1'b0; end end // // tf0 (tmod.5) // always @(posedge clk or posedge rst) begin if (rst) begin // tcon_tf0 <=#1 `OC8051_RST_TCON[5]; tcon_tf0 <=#1 1'b0; end else if ((wr) & !(wr_bit) & (wr_addr==`OC8051_SFR_TCON)) begin tcon_tf0 <= #1 data_in[5]; end else if ((wr) & (wr_bit) & (wr_addr=={`OC8051_SFR_B_TCON, 3'b101})) begin tcon_tf0 <= #1 bit_in; end else if (!(tf0_buff) & (tf0)) begin tcon_tf0 <= #1 1'b1; end else if (ack & (isrc_cur==`OC8051_ISRC_TF0)) begin tcon_tf0 <= #1 1'b0; end end // // ie0 (tmod.1) // always @(posedge clk or posedge rst) begin if (rst) begin // tcon_ie0 <=#1 `OC8051_RST_TCON[1]; tcon_ie0 <=#1 1'b0; end else if ((wr) & !(wr_bit) & (wr_addr==`OC8051_SFR_TCON)) begin tcon_ie0 <= #1 data_in[1]; end else if ((wr) & (wr_bit) & (wr_addr=={`OC8051_SFR_B_TCON, 3'b001})) begin tcon_ie0 <= #1 bit_in; end else if (((tcon_s[0]) & (ie0_buff) & !(ie0)) | (!(tcon_s[0]) & !(ie0))) begin tcon_ie0 <= #1 1'b1; end else if (ack & (isrc_cur==`OC8051_ISRC_IE0) & (tcon_s[0])) begin tcon_ie0 <= #1 1'b0; end else if (!(tcon_s[0]) & (ie0)) begin tcon_ie0 <= #1 1'b0; end end // // ie1 (tmod.3) // always @(posedge clk or posedge rst) begin if (rst) begin // tcon_ie1 <=#1 `OC8051_RST_TCON[3]; tcon_ie1 <=#1 1'b0; end else if ((wr) & !(wr_bit) & (wr_addr==`OC8051_SFR_TCON)) begin tcon_ie1 <= #1 data_in[3]; end else if ((wr) & (wr_bit) & (wr_addr=={`OC8051_SFR_B_TCON, 3'b011})) begin tcon_ie1 <= #1 bit_in; end else if (((tcon_s[1]) & (ie1_buff) & !(ie1)) | (!(tcon_s[1]) & !(ie1))) begin tcon_ie1 <= #1 1'b1; end else if (ack & (isrc_cur==`OC8051_ISRC_IE1) & (tcon_s[1])) begin tcon_ie1 <= #1 1'b0; end else if (!(tcon_s[1]) & (ie1)) begin tcon_ie1 <= #1 1'b0; end end always @(posedge clk or posedge rst) begin if (rst) begin int_vec <= #1 8'h00; isrc_cur <= #1 `OC8051_ISRC_NO; isrc_w <= #1 `OC8051_ISRC_NO; int_levl <= #1 `OC8051_ILEV_NO; int_levl_w <= #1 `OC8051_ILEV_NO; end else if (reti) begin // return from interrupt isrc_cur <= #1 isrc_w; int_levl <= #1 int_levl_w; end else if ((ie[7]) & (int_levl!=`OC8051_ILEV_L1) & (il1)) begin // interrupt on level 1 isrc_w <= #1 isrc_cur; int_levl <= #1 `OC8051_ILEV_L1; int_levl_w <= #1 int_levl; if (int_l1[0]) begin int_vec <= #1 `OC8051_INT_X0; isrc_cur <= #1 `OC8051_ISRC_IE0; end else if (int_l1[1]) begin int_vec <= #1 `OC8051_INT_T0; isrc_cur <= #1 `OC8051_ISRC_TF0; end else if (int_l1[2]) begin int_vec <= #1 `OC8051_INT_X1; isrc_cur <= #1 `OC8051_ISRC_IE1; end else if (int_l1[3]) begin int_vec <= #1 `OC8051_INT_T1; isrc_cur <= #1 `OC8051_ISRC_TF1; end else if (int_l1[4]) begin int_vec <= #1 `OC8051_INT_UART; isrc_cur <= #1 `OC8051_ISRC_UART; end end else if ((ie[7]) & (int_levl==`OC8051_ILEV_NO) & (il0)) begin // interrupt on level 0 int_levl <= #1 `OC8051_ILEV_L0; if (int_l0[0]) begin int_vec <= #1 `OC8051_INT_X0; isrc_cur <= #1 `OC8051_ISRC_IE0; end else if (int_l0[1]) begin int_vec <= #1 `OC8051_INT_T0; isrc_cur <= #1 `OC8051_ISRC_TF0; end else if (int_l0[2]) begin int_vec <= #1 `OC8051_INT_X1; isrc_cur <= #1 `OC8051_ISRC_IE1; end else if (int_l0[3]) begin int_vec <= #1 `OC8051_INT_T1; isrc_cur <= #1 `OC8051_ISRC_TF1; end else if (int_l0[4]) begin int_vec <= #1 `OC8051_INT_UART; isrc_cur <= #1 `OC8051_ISRC_UART; end end else begin int_vec <= #1 8'h00; end end always @(posedge clk or posedge rst) begin if (rst) data_out <= #1 8'h0; else if (wr & !wr_bit & (wr_addr==rd_addr) & ( (wr_addr==`OC8051_SFR_IP) | (wr_addr==`OC8051_SFR_IE) | (wr_addr==`OC8051_SFR_TCON))) begin data_out <= #1 data_in; end else begin case (rd_addr) `OC8051_SFR_IP: data_out <= #1 ip; `OC8051_SFR_IE: data_out <= #1 ie; default: data_out <= #1 tcon; endcase end end always @(posedge clk or posedge rst) if (rst) begin tf0_buff <= #1 1'b0; tf1_buff <= #1 1'b0; ie0_buff <= #1 1'b0; ie1_buff <= #1 1'b0; end else begin tf0_buff <= #1 tf0; tf1_buff <= #1 tf1; ie0_buff <= #1 ie0; ie1_buff <= #1 ie1; end always @(posedge clk or posedge rst) begin if (rst) bit_out <= #1 1'b0; else if (wr & wr_bit & (wr_addr==rd_addr)) begin bit_out <= #1 bit_in; end else if ((rd_addr[7:3]==wr_addr[7:3]) & wr & !wr_bit) begin bit_out <= #1 data_in[rd_addr[2:0]]; end else begin case (rd_addr[7:3]) `OC8051_SFR_B_IP: bit_out <= #1 ip[rd_addr[2:0]]; `OC8051_SFR_B_IE: bit_out <= #1 ie[rd_addr[2:0]]; default: bit_out <= #1 tcon[rd_addr[2:0]]; endcase end end endmodule
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