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////////////////////////////////////////////////////////////////////// //// //// //// dbg_top.v //// //// //// //// //// //// This file is part of the SoC Debug Interface. //// //// http://www.opencores.org/projects/DebugInterface/ //// //// //// //// Author(s): //// //// Igor Mohor (igorm@opencores.org) //// //// //// //// //// //// All additional information is avaliable in the README.txt //// //// file. //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000 - 2004 Authors //// //// //// //// 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: dbg_top.v,v $ // Revision 1.45 2004/04/01 11:56:59 igorm // Port names and defines for the supported CPUs changed. // // Revision 1.44 2004/03/28 20:27:02 igorm // New release of the debug interface (3rd. release). // // Revision 1.43 2004/03/22 16:35:46 igorm // Temp version before changing dbg interface. // // Revision 1.42 2004/01/30 10:24:31 mohor // Defines WISHBONE_SUPPORTED and CPU_SUPPORTED added. By default both are // turned on. // // Revision 1.41 2004/01/25 14:04:18 mohor // All flipflops are reset. // // Revision 1.40 2004/01/20 14:23:47 mohor // Define name changed. // // Revision 1.39 2004/01/19 07:32:41 simons // Reset values width added because of FV, a good sentence changed because some tools can not handle it. // // Revision 1.38 2004/01/18 09:22:47 simons // Sensitivity list updated. // // Revision 1.37 2004/01/17 17:01:14 mohor // Almost finished. // // Revision 1.36 2004/01/16 14:51:33 mohor // cpu registers added. // // Revision 1.35 2004/01/14 22:59:16 mohor // Temp version. // // Revision 1.34 2003/12/23 15:07:34 mohor // New directory structure. New version of the debug interface. // Files that are not needed removed. // // Revision 1.33 2003/10/23 16:17:01 mohor // CRC logic changed. // // Revision 1.32 2003/09/18 14:00:47 simons // Lower two address lines must be always zero. // // Revision 1.31 2003/09/17 14:38:57 simons // WB_CNTL register added, some syncronization fixes. // // Revision 1.30 2003/08/28 13:55:22 simons // Three more chains added for cpu debug access. // // Revision 1.29 2003/07/31 12:19:49 simons // Multiple cpu support added. // // Revision 1.28 2002/11/06 14:22:41 mohor // Trst signal is not inverted here any more. Inverted on higher layer !!!. // // Revision 1.27 2002/10/10 02:42:55 mohor // WISHBONE Scan Chain is changed to reflect state of the WISHBONE access (WBInProgress bit added). // Internal counter is used (counts 256 wb_clk cycles) and when counter exceeds that value, // wb_cyc_o is negated. // // Revision 1.26 2002/05/07 14:43:59 mohor // mon_cntl_o signals that controls monitor mux added. // // Revision 1.25 2002/04/22 12:54:11 mohor // Signal names changed to lower case. // // Revision 1.24 2002/04/17 13:17:01 mohor // Intentional error removed. // // Revision 1.23 2002/04/17 11:16:33 mohor // A block for checking possible simulation/synthesis missmatch added. // // Revision 1.22 2002/03/12 10:31:53 mohor // tap_top and dbg_top modules are put into two separate modules. tap_top // contains only tap state machine and related logic. dbg_top contains all // logic necessery for debugging. // // Revision 1.21 2002/03/08 15:28:16 mohor // Structure changed. Hooks for jtag chain added. // // Revision 1.20 2002/02/06 12:23:09 mohor // latched_jtag_ir used when muxing TDO instead of JTAG_IR. // // Revision 1.19 2002/02/05 13:34:51 mohor // Stupid bug that was entered by previous update fixed. // // Revision 1.18 2002/02/05 12:41:01 mohor // trst synchronization is not needed and was removed. // // Revision 1.17 2002/01/25 07:58:35 mohor // IDCODE bug fixed, chains reused to decreas size of core. Data is shifted-in // not filled-in. Tested in hw. // // Revision 1.16 2001/12/20 11:17:26 mohor // TDO and TDO Enable signal are separated into two signals. // // Revision 1.15 2001/12/05 13:28:21 mohor // trst signal is synchronized to wb_clk_i. // // Revision 1.14 2001/11/28 09:36:15 mohor // Register length fixed. // // Revision 1.13 2001/11/27 13:37:43 mohor // CRC is returned when chain selection data is transmitted. // // Revision 1.12 2001/11/26 10:47:09 mohor // Crc generation is different for read or write commands. Small synthesys fixes. // // Revision 1.11 2001/11/14 10:10:41 mohor // Wishbone data latched on wb_clk_i instead of risc_clk. // // Revision 1.10 2001/11/12 01:11:27 mohor // Reset signals are not combined any more. // // Revision 1.9 2001/10/19 11:40:01 mohor // dbg_timescale.v changed to timescale.v This is done for the simulation of // few different cores in a single project. // // Revision 1.8 2001/10/17 10:39:03 mohor // bs_chain_o added. // // Revision 1.7 2001/10/16 10:09:56 mohor // Signal names changed to lowercase. // // // Revision 1.6 2001/10/15 09:55:47 mohor // Wishbone interface added, few fixes for better performance, // hooks for boundary scan testing added. // // Revision 1.5 2001/09/24 14:06:42 mohor // Changes connected to the OpenRISC access (SPR read, SPR write). // // Revision 1.4 2001/09/20 10:11:25 mohor // Working version. Few bugs fixed, comments added. // // Revision 1.3 2001/09/19 11:55:13 mohor // Asynchronous set/reset not used in trace any more. // // Revision 1.2 2001/09/18 14:13:47 mohor // Trace fixed. Some registers changed, trace simplified. // // Revision 1.1.1.1 2001/09/13 13:49:19 mohor // Initial official release. // // Revision 1.3 2001/06/01 22:22:35 mohor // This is a backup. It is not a fully working version. Not for use, yet. // // Revision 1.2 2001/05/18 13:10:00 mohor // Headers changed. All additional information is now avaliable in the README.txt file. // // Revision 1.1.1.1 2001/05/18 06:35:02 mohor // Initial release // // // synopsys translate_off `include "timescale.v" // synopsys translate_on `include "dbg_defines.v" `include "dbg_cpu_defines.v" // Top module //module dbg_top( module dbg_if( // Renamed by julius // JTAG signals tck_i, tdi_i, tdo_o, rst_i, // TAP states shift_dr_i, pause_dr_i, update_dr_i, // Instructions debug_select_i `ifdef DBG_WISHBONE_SUPPORTED // WISHBONE common signals , wb_clk_i, // WISHBONE master interface wb_adr_o, wb_dat_o, wb_dat_i, wb_cyc_o, wb_stb_o, wb_sel_o, wb_we_o, wb_ack_i, wb_cab_o, wb_err_i, wb_cti_o, wb_bte_o `endif `ifdef DBG_CPU0_SUPPORTED // CPU signals , cpu0_clk_i, cpu0_addr_o, cpu0_data_i, cpu0_data_o, cpu0_bp_i, cpu0_stall_o, cpu0_stb_o, cpu0_we_o, cpu0_ack_i, cpu0_rst_o `endif `ifdef DBG_CPU1_SUPPORTED // CPU signals , cpu1_clk_i, cpu1_addr_o, cpu1_data_i, cpu1_data_o, cpu1_bp_i, cpu1_stall_o, cpu1_stb_o, cpu1_we_o, cpu1_ack_i, cpu1_rst_o `endif ); // JTAG signals input tck_i; input tdi_i; output tdo_o; input rst_i; // TAP states input shift_dr_i; input pause_dr_i; input update_dr_i; // Instructions input debug_select_i; `ifdef DBG_WISHBONE_SUPPORTED input wb_clk_i; output [31:0] wb_adr_o; output [31:0] wb_dat_o; input [31:0] wb_dat_i; output wb_cyc_o; output wb_stb_o; output [3:0] wb_sel_o; output wb_we_o; input wb_ack_i; output wb_cab_o; input wb_err_i; output [2:0] wb_cti_o; output [1:0] wb_bte_o; reg wishbone_module; reg wishbone_ce; wire tdi_wb; wire tdo_wb; wire crc_en_wb; wire shift_crc_wb; `else wire crc_en_wb = 1'b0; wire shift_crc_wb = 1'b0; `endif `ifdef DBG_CPU0_SUPPORTED // CPU signals input cpu0_clk_i; output [31:0] cpu0_addr_o; input [31:0] cpu0_data_i; output [31:0] cpu0_data_o; input cpu0_bp_i; output cpu0_stall_o; output cpu0_stb_o; output cpu0_we_o; input cpu0_ack_i; output cpu0_rst_o; reg cpu0_debug_module; reg cpu0_ce; wire cpu0_tdi; wire cpu0_tdo; wire cpu0_crc_en; wire cpu0_shift_crc; `else wire cpu0_crc_en = 1'b0; wire cpu0_shift_crc = 1'b0; `endif `ifdef DBG_CPU1_SUPPORTED input cpu1_clk_i; output [31:0] cpu1_addr_o; input [31:0] cpu1_data_i; output [31:0] cpu1_data_o; input cpu1_bp_i; output cpu1_stall_o; output cpu1_stb_o; output cpu1_we_o; input cpu1_ack_i; output cpu1_rst_o; reg cpu1_debug_module; reg cpu1_ce; wire cpu1_tdi; wire cpu1_tdo; wire cpu1_crc_en; wire cpu1_shift_crc; `else wire cpu1_crc_en = 1'b0; wire cpu1_shift_crc = 1'b0; `endif reg [`DBG_TOP_DATA_CNT -1:0] data_cnt; reg [`DBG_TOP_CRC_CNT -1:0] crc_cnt; reg [`DBG_TOP_STATUS_CNT_WIDTH -1:0] status_cnt; reg [`DBG_TOP_MODULE_DATA_LEN -1:0] module_dr; reg [`DBG_TOP_MODULE_ID_LENGTH -1:0] module_id; wire module_latch_en; wire data_cnt_end; wire crc_cnt_end; wire status_cnt_end; reg crc_cnt_end_q; reg module_select; reg module_select_error; wire crc_out; wire crc_match; wire data_shift_en; wire selecting_command; reg tdo_o; wire shift_crc; // data counter always @ (posedge tck_i or posedge rst_i) begin if (rst_i) data_cnt <= {`DBG_TOP_DATA_CNT{1'b0}}; else if(shift_dr_i & (~data_cnt_end)) data_cnt <= data_cnt + 1; else if (update_dr_i) data_cnt <= {`DBG_TOP_DATA_CNT{1'b0}}; end assign data_cnt_end = data_cnt == `DBG_TOP_MODULE_DATA_LEN; // crc counter always @ (posedge tck_i or posedge rst_i) begin if (rst_i) crc_cnt <= {`DBG_TOP_CRC_CNT{1'b0}}; else if(shift_dr_i & data_cnt_end & (~crc_cnt_end) & module_select) crc_cnt <= crc_cnt + 1; else if (update_dr_i) crc_cnt <= {`DBG_TOP_CRC_CNT{1'b0}}; end assign crc_cnt_end = crc_cnt == `DBG_TOP_CRC_LEN; always @ (posedge tck_i or posedge rst_i) begin if (rst_i) crc_cnt_end_q <= 1'b0; else crc_cnt_end_q <= crc_cnt_end; end // status counter always @ (posedge tck_i or posedge rst_i) begin if (rst_i) status_cnt <= {`DBG_TOP_STATUS_CNT_WIDTH{1'b0}}; else if(shift_dr_i & crc_cnt_end & (~status_cnt_end)) status_cnt <= status_cnt + 1; else if (update_dr_i) status_cnt <= {`DBG_TOP_STATUS_CNT_WIDTH{1'b0}}; end assign status_cnt_end = status_cnt == `DBG_TOP_STATUS_LEN; assign selecting_command = shift_dr_i & (data_cnt == `DBG_TOP_DATA_CNT'h0) & debug_select_i; always @ (posedge tck_i or posedge rst_i) begin if (rst_i) module_select <= 1'b0; else if(selecting_command & tdi_i) // Chain select module_select <= 1'b1; else if (update_dr_i) module_select <= 1'b0; end /* verilator lint_off COMBDLY */ always @ (module_id) begin `ifdef DBG_CPU0_SUPPORTED cpu0_debug_module <= 1'b0; `endif `ifdef DBG_CPU1_SUPPORTED cpu1_debug_module <= 1'b0; `endif `ifdef DBG_WISHBONE_SUPPORTED wishbone_module <= 1'b0; `endif module_select_error <= 1'b0; case (module_id) /* synthesis parallel_case */ `ifdef DBG_CPU0_SUPPORTED `DBG_TOP_CPU0_DEBUG_MODULE : cpu0_debug_module <= 1'b1; `endif `ifdef DBG_CPU1_SUPPORTED `DBG_TOP_CPU1_DEBUG_MODULE : cpu1_debug_module <= 1'b1; `endif `ifdef DBG_WISHBONE_SUPPORTED `DBG_TOP_WISHBONE_DEBUG_MODULE : wishbone_module <= 1'b1; `endif default : module_select_error <= 1'b1; endcase end /* verilator lint_on COMBDLY */ assign module_latch_en = module_select & crc_cnt_end & (~crc_cnt_end_q); always @ (posedge tck_i or posedge rst_i) begin if (rst_i) module_id <= {`DBG_TOP_MODULE_ID_LENGTH{1'b1}}; else if(module_latch_en & crc_match) module_id <= module_dr[`DBG_TOP_MODULE_DATA_LEN -2:0]; end assign data_shift_en = shift_dr_i & (~data_cnt_end); always @ (posedge tck_i or posedge rst_i) begin if (rst_i) module_dr <= 0; else if (data_shift_en) module_dr[`DBG_TOP_MODULE_DATA_LEN -1:0] <= {module_dr[`DBG_TOP_MODULE_DATA_LEN -2:0], tdi_i}; end // Calculating crc for input data dbg_crc32_d1 i_dbg_crc32_d1_in ( .data (tdi_i), .enable (shift_dr_i), .shift (1'b0), .rst (rst_i), .sync_rst (update_dr_i), .crc_out (), .clk (tck_i), .crc_match (crc_match) ); reg tdo_module_select; wire crc_en; wire crc_en_dbg; reg crc_started; assign crc_en = crc_en_dbg | crc_en_wb | cpu1_crc_en | cpu0_crc_en; assign crc_en_dbg = shift_dr_i & crc_cnt_end & (~status_cnt_end); always @ (posedge tck_i or posedge rst_i) begin if (rst_i) crc_started <= 1'b0; else if (crc_en) crc_started <= 1'b1; else if (update_dr_i) crc_started <= 1'b0; end reg tdo_tmp; // Calculating crc for input data dbg_crc32_d1 i_dbg_crc32_d1_out ( .data (tdo_tmp), .enable (crc_en), // enable has priority // .shift (1'b0), .shift (shift_dr_i & crc_started & (~crc_en)), .rst (rst_i), .sync_rst (update_dr_i), .crc_out (crc_out), .clk (tck_i), .crc_match () ); // Following status is shifted out: // 1. bit: 0 if crc is OK, else 1 // 2. bit: 0 if existing module_id is selected, 1 if non-existing module_id is selected // 3. bit: 0 (always) // 4. bit: 0 (always) always @ (status_cnt or crc_match or module_select_error or crc_out) begin case (status_cnt) /* synthesis full_case parallel_case */ `DBG_TOP_STATUS_CNT_WIDTH'd0 : begin tdo_module_select = ~crc_match; end `DBG_TOP_STATUS_CNT_WIDTH'd1 : begin tdo_module_select = module_select_error; end `DBG_TOP_STATUS_CNT_WIDTH'd2 : begin tdo_module_select = 1'b0; end `DBG_TOP_STATUS_CNT_WIDTH'd3 : begin tdo_module_select = 1'b0; end `DBG_TOP_STATUS_CNT_WIDTH'd4 : begin tdo_module_select = crc_out; end default : begin tdo_module_select = 1'b0; end //me added endcase end assign shift_crc = shift_crc_wb | cpu1_shift_crc | cpu0_shift_crc; always @ (shift_crc or crc_out or tdo_module_select `ifdef DBG_WISHBONE_SUPPORTED or wishbone_ce or tdo_wb `endif `ifdef DBG_CPU0_SUPPORTED or cpu0_ce or cpu0_tdo `endif `ifdef DBG_CPU1_SUPPORTED or cpu1_ce or cpu1_tdo `endif ) begin if (shift_crc) // shifting crc tdo_tmp = crc_out; `ifdef DBG_WISHBONE_SUPPORTED else if (wishbone_ce) // shifting data from wb tdo_tmp = tdo_wb; `endif `ifdef DBG_CPU0_SUPPORTED else if (cpu0_ce) // shifting data from cpu tdo_tmp = cpu0_tdo; `endif `ifdef DBG_CPU1_SUPPORTED else if (cpu1_ce) // shifting data from cpu tdo_tmp = cpu1_tdo; `endif else tdo_tmp = tdo_module_select; end always @ (negedge tck_i) begin tdo_o <= tdo_tmp; end // Signals for WISHBONE module always @ (posedge tck_i or posedge rst_i) begin if (rst_i) begin `ifdef DBG_WISHBONE_SUPPORTED wishbone_ce <= 1'b0; `endif `ifdef DBG_CPU0_SUPPORTED cpu0_ce <= 1'b0; `endif `ifdef DBG_CPU1_SUPPORTED cpu1_ce <= 1'b0; `endif end else if(selecting_command & (~tdi_i)) begin `ifdef DBG_WISHBONE_SUPPORTED if (wishbone_module) // wishbone CE wishbone_ce <= 1'b1; `endif `ifdef DBG_CPU0_SUPPORTED if (cpu0_debug_module) // CPU CE cpu0_ce <= 1'b1; `endif `ifdef DBG_CPU1_SUPPORTED if (cpu1_debug_module) // CPU CE cpu1_ce <= 1'b1; `endif end else if (update_dr_i) begin `ifdef DBG_WISHBONE_SUPPORTED wishbone_ce <= 1'b0; `endif `ifdef DBG_CPU0_SUPPORTED cpu0_ce <= 1'b0; `endif `ifdef DBG_CPU1_SUPPORTED cpu1_ce <= 1'b0; `endif end end `ifdef DBG_WISHBONE_SUPPORTED assign tdi_wb = wishbone_ce & tdi_i; `endif `ifdef DBG_CPU0_SUPPORTED assign cpu0_tdi = cpu0_ce & tdi_i; `endif `ifdef DBG_CPU1_SUPPORTED assign cpu1_tdi = cpu1_ce & tdi_i; `endif `ifdef DBG_WISHBONE_SUPPORTED // Connecting wishbone module dbg_wb i_dbg_wb ( // JTAG signals .tck_i (tck_i), .tdi_i (tdi_wb), .tdo_o (tdo_wb), // TAP states .shift_dr_i (shift_dr_i), .pause_dr_i (pause_dr_i), .update_dr_i (update_dr_i), .wishbone_ce_i (wishbone_ce), .crc_match_i (crc_match), .crc_en_o (crc_en_wb), .shift_crc_o (shift_crc_wb), .rst_i (rst_i), // WISHBONE common signals .wb_clk_i (wb_clk_i), // WISHBONE master interface .wb_adr_o (wb_adr_o), .wb_dat_o (wb_dat_o), .wb_dat_i (wb_dat_i), .wb_cyc_o (wb_cyc_o), .wb_stb_o (wb_stb_o), .wb_sel_o (wb_sel_o), .wb_we_o (wb_we_o), .wb_ack_i (wb_ack_i), .wb_cab_o (wb_cab_o), .wb_err_i (wb_err_i), .wb_cti_o (wb_cti_o), .wb_bte_o (wb_bte_o) ); `endif `ifdef DBG_CPU0_SUPPORTED dbg_cpu i_dbg_cpu_or1k ( // JTAG signals .tck_i (tck_i), .tdi_i (cpu0_tdi), .tdo_o (cpu0_tdo), // TAP states .shift_dr_i (shift_dr_i), .pause_dr_i (pause_dr_i), .update_dr_i (update_dr_i), .cpu_ce_i (cpu0_ce), .crc_match_i (crc_match), .crc_en_o (cpu0_crc_en), .shift_crc_o (cpu0_shift_crc), .rst_i (rst_i), // CPU signals .cpu_clk_i (cpu0_clk_i), .cpu_addr_o (cpu0_addr_o), .cpu_data_i (cpu0_data_i), .cpu_data_o (cpu0_data_o), .cpu_bp_i (cpu0_bp_i), .cpu_stall_o (cpu0_stall_o), .cpu_stb_o (cpu0_stb_o), .cpu_we_o (cpu0_we_o), .cpu_ack_i (cpu0_ack_i), .cpu_rst_o (cpu0_rst_o) ); `endif // DBG_CPU0_SUPPORTED `ifdef DBG_CPU1_SUPPORTED // Connecting cpu module dbg_cpu i_dbg_cpu_8051 ( // JTAG signals .tck_i (tck_i), .tdi_i (cpu1_tdi), .tdo_o (cpu1_tdo), // TAP states .shift_dr_i (shift_dr_i), .pause_dr_i (pause_dr_i), .update_dr_i (update_dr_i), .cpu_ce_i (cpu1_ce), .crc_match_i (crc_match), .crc_en_o (cpu1_crc_en), .shift_crc_o (cpu1_shift_crc), .rst_i (rst_i), // CPU signals .cpu_clk_i (cpu1_clk_i), .cpu_addr_o (cpu1_addr_o), .cpu_data_i (cpu1_data_i), .cpu_data_o (cpu1_data_o), .cpu_bp_i (cpu1_bp_i), .cpu_stall_o (cpu1_stall_o), .cpu_stb_o (cpu1_stb_o), .cpu_we_o (cpu1_we_o), .cpu_ack_i (cpu1_ack_i), .cpu_rst_o (cpu1_rst_o) ); `endif endmodule
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