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[/] [openmsp430/] [trunk/] [fpga/] [altera_de0_nano_soc/] [rtl/] [verilog/] [openmsp430/] [omsp_dbg_hwbrk.v] - Rev 221
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//---------------------------------------------------------------------------- // Copyright (C) 2009 , Olivier Girard // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // * Neither the name of the authors nor the names of its contributors // may be used to endorse or promote products derived from this software // without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE // ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE // LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, // OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF // SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN // CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF // THE POSSIBILITY OF SUCH DAMAGE // //---------------------------------------------------------------------------- // // *File Name: omsp_dbg_hwbrk.v // // *Module Description: // Hardware Breakpoint / Watchpoint module // // *Author(s): // - Olivier Girard, olgirard@gmail.com // //---------------------------------------------------------------------------- // $Rev$ // $LastChangedBy$ // $LastChangedDate$ //---------------------------------------------------------------------------- `ifdef OMSP_NO_INCLUDE `else `include "openMSP430_defines.v" `endif module omsp_dbg_hwbrk ( // OUTPUTs brk_halt, // Hardware breakpoint command brk_pnd, // Hardware break/watch-point pending brk_dout, // Hardware break/watch-point register data input // INPUTs brk_reg_rd, // Hardware break/watch-point register read select brk_reg_wr, // Hardware break/watch-point register write select dbg_clk, // Debug unit clock dbg_din, // Debug register data input dbg_rst, // Debug unit reset decode_noirq, // Frontend decode instruction eu_mab, // Execution-Unit Memory address bus eu_mb_en, // Execution-Unit Memory bus enable eu_mb_wr, // Execution-Unit Memory bus write transfer pc // Program counter ); // OUTPUTs //========= output brk_halt; // Hardware breakpoint command output brk_pnd; // Hardware break/watch-point pending output [15:0] brk_dout; // Hardware break/watch-point register data input // INPUTs //========= input [3:0] brk_reg_rd; // Hardware break/watch-point register read select input [3:0] brk_reg_wr; // Hardware break/watch-point register write select input dbg_clk; // Debug unit clock input [15:0] dbg_din; // Debug register data input input dbg_rst; // Debug unit reset input decode_noirq; // Frontend decode instruction input [15:0] eu_mab; // Execution-Unit Memory address bus input eu_mb_en; // Execution-Unit Memory bus enable input [1:0] eu_mb_wr; // Execution-Unit Memory bus write transfer input [15:0] pc; // Program counter //============================================================================= // 1) WIRE & PARAMETER DECLARATION //============================================================================= wire range_wr_set; wire range_rd_set; wire addr1_wr_set; wire addr1_rd_set; wire addr0_wr_set; wire addr0_rd_set; parameter BRK_CTL = 0, BRK_STAT = 1, BRK_ADDR0 = 2, BRK_ADDR1 = 3; //============================================================================= // 2) CONFIGURATION REGISTERS //============================================================================= // BRK_CTL Register //----------------------------------------------------------------------------- // 7 6 5 4 3 2 1 0 // Reserved RANGE_MODE INST_EN BREAK_EN ACCESS_MODE // // ACCESS_MODE: - 00 : Disabled // - 01 : Detect read access // - 10 : Detect write access // - 11 : Detect read/write access // NOTE: '10' & '11' modes are not supported on the instruction flow // // BREAK_EN: - 0 : Watchmode enable // - 1 : Break enable // // INST_EN: - 0 : Checks are done on the execution unit (data flow) // - 1 : Checks are done on the frontend (instruction flow) // // RANGE_MODE: - 0 : Address match on BRK_ADDR0 or BRK_ADDR1 // - 1 : Address match on BRK_ADDR0->BRK_ADDR1 range // //----------------------------------------------------------------------------- reg [4:0] brk_ctl; wire brk_ctl_wr = brk_reg_wr[BRK_CTL]; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) brk_ctl <= 5'h00; else if (brk_ctl_wr) brk_ctl <= {`HWBRK_RANGE & dbg_din[4], dbg_din[3:0]}; wire [7:0] brk_ctl_full = {3'b000, brk_ctl}; // BRK_STAT Register //----------------------------------------------------------------------------- // 7 6 5 4 3 2 1 0 // Reserved RANGE_WR RANGE_RD ADDR1_WR ADDR1_RD ADDR0_WR ADDR0_RD //----------------------------------------------------------------------------- reg [5:0] brk_stat; wire brk_stat_wr = brk_reg_wr[BRK_STAT]; wire [5:0] brk_stat_set = {range_wr_set & `HWBRK_RANGE, range_rd_set & `HWBRK_RANGE, addr1_wr_set, addr1_rd_set, addr0_wr_set, addr0_rd_set}; wire [5:0] brk_stat_clr = ~dbg_din[5:0]; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) brk_stat <= 6'h00; else if (brk_stat_wr) brk_stat <= ((brk_stat & brk_stat_clr) | brk_stat_set); else brk_stat <= (brk_stat | brk_stat_set); wire [7:0] brk_stat_full = {2'b00, brk_stat}; wire brk_pnd = |brk_stat; // BRK_ADDR0 Register //----------------------------------------------------------------------------- reg [15:0] brk_addr0; wire brk_addr0_wr = brk_reg_wr[BRK_ADDR0]; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) brk_addr0 <= 16'h0000; else if (brk_addr0_wr) brk_addr0 <= dbg_din; // BRK_ADDR1/DATA0 Register //----------------------------------------------------------------------------- reg [15:0] brk_addr1; wire brk_addr1_wr = brk_reg_wr[BRK_ADDR1]; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) brk_addr1 <= 16'h0000; else if (brk_addr1_wr) brk_addr1 <= dbg_din; //============================================================================ // 3) DATA OUTPUT GENERATION //============================================================================ wire [15:0] brk_ctl_rd = {8'h00, brk_ctl_full} & {16{brk_reg_rd[BRK_CTL]}}; wire [15:0] brk_stat_rd = {8'h00, brk_stat_full} & {16{brk_reg_rd[BRK_STAT]}}; wire [15:0] brk_addr0_rd = brk_addr0 & {16{brk_reg_rd[BRK_ADDR0]}}; wire [15:0] brk_addr1_rd = brk_addr1 & {16{brk_reg_rd[BRK_ADDR1]}}; wire [15:0] brk_dout = brk_ctl_rd | brk_stat_rd | brk_addr0_rd | brk_addr1_rd; //============================================================================ // 4) BREAKPOINT / WATCHPOINT GENERATION //============================================================================ // Comparators //--------------------------- // Note: here the comparison logic is instanciated several times in order // to improve the timings, at the cost of a bit more area. wire equ_d_addr0 = eu_mb_en & (eu_mab==brk_addr0) & ~brk_ctl[`BRK_RANGE]; wire equ_d_addr1 = eu_mb_en & (eu_mab==brk_addr1) & ~brk_ctl[`BRK_RANGE]; wire equ_d_range = eu_mb_en & ((eu_mab>=brk_addr0) & (eu_mab<=brk_addr1)) & brk_ctl[`BRK_RANGE] & `HWBRK_RANGE; wire equ_i_addr0 = decode_noirq & (pc==brk_addr0) & ~brk_ctl[`BRK_RANGE]; wire equ_i_addr1 = decode_noirq & (pc==brk_addr1) & ~brk_ctl[`BRK_RANGE]; wire equ_i_range = decode_noirq & ((pc>=brk_addr0) & (pc<=brk_addr1)) & brk_ctl[`BRK_RANGE] & `HWBRK_RANGE; // Detect accesses //--------------------------- // Detect Instruction read access wire i_addr0_rd = equ_i_addr0 & brk_ctl[`BRK_I_EN]; wire i_addr1_rd = equ_i_addr1 & brk_ctl[`BRK_I_EN]; wire i_range_rd = equ_i_range & brk_ctl[`BRK_I_EN]; // Detect Execution-Unit write access wire d_addr0_wr = equ_d_addr0 & ~brk_ctl[`BRK_I_EN] & |eu_mb_wr; wire d_addr1_wr = equ_d_addr1 & ~brk_ctl[`BRK_I_EN] & |eu_mb_wr; wire d_range_wr = equ_d_range & ~brk_ctl[`BRK_I_EN] & |eu_mb_wr; // Detect DATA read access wire d_addr0_rd = equ_d_addr0 & ~brk_ctl[`BRK_I_EN] & ~|eu_mb_wr; wire d_addr1_rd = equ_d_addr1 & ~brk_ctl[`BRK_I_EN] & ~|eu_mb_wr; wire d_range_rd = equ_d_range & ~brk_ctl[`BRK_I_EN] & ~|eu_mb_wr; // Set flags assign addr0_rd_set = brk_ctl[`BRK_MODE_RD] & (d_addr0_rd | i_addr0_rd); assign addr0_wr_set = brk_ctl[`BRK_MODE_WR] & d_addr0_wr; assign addr1_rd_set = brk_ctl[`BRK_MODE_RD] & (d_addr1_rd | i_addr1_rd); assign addr1_wr_set = brk_ctl[`BRK_MODE_WR] & d_addr1_wr; assign range_rd_set = brk_ctl[`BRK_MODE_RD] & (d_range_rd | i_range_rd); assign range_wr_set = brk_ctl[`BRK_MODE_WR] & d_range_wr; // Break CPU assign brk_halt = brk_ctl[`BRK_EN] & |brk_stat_set; endmodule // omsp_dbg_hwbrk `ifdef OMSP_NO_INCLUDE `else `include "openMSP430_undefines.v" `endif