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[/] [xgate/] [trunk/] [rtl/] [verilog/] [xgate_regs.v] - Rev 85

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////////////////////////////////////////////////////////////////////////////////
//
//  Computer Operating Properly - Control registers
//
//  Author: Bob Hayes
//          rehayes@opencores.org
//
//  Downloaded from: http://www.opencores.org/projects/xgate.....
//
////////////////////////////////////////////////////////////////////////////////
// Copyright (c) 2009, Robert Hayes
//
// 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 3 of the License, or
// (at your option) any later version.
//
// Supplemental terms.
//     * Redistributions of source code must retain the above copyright
//       notice, this list of conditions and the following disclaimer.
//     * Neither the name of the <organization> 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 Robert Hayes ''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 Robert Hayes 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.
//
// You should have received a copy of the GNU General Public License
// along with this program.  If not, see <http://www.gnu.org/licenses/>.
////////////////////////////////////////////////////////////////////////////////
// 45678901234567890123456789012345678901234567890123456789012345678901234567890
 
module xgate_regs #(parameter ARST_LVL = 1'b0,    // asynchronous reset level
                    parameter MAX_CHANNEL = 127)  // Max XGATE Interrupt Channel Number
  (
  output reg                  xge,          // XGATE Module Enable
  output reg                  xgfrz,        // Stop XGATE in Freeze Mode
  output reg                  xgdbg_set,    // Enter XGATE Debug Mode
  output reg                  xgdbg_clear,  // Leave XGATE Debug Mode
  output reg                  xgss,         // XGATE Single Step
  output reg                  xgfact,       // XGATE Flag Activity
  output reg                  xgsweif_c,    // Clear XGATE Software Error Interrupt FLag
  output reg                  xgie,         // XGATE Interrupt Enable
  output reg           [15:1] xgvbr,        // XGATE vector Base Address Register
  output reg           [ 7:0] xgswt,        // XGATE Software Trigger Register for host
  output reg                  clear_xgif_7,    // Strobe for decode to clear interrupt flag bank 7
  output reg                  clear_xgif_6,    // Strobe for decode to clear interrupt flag bank 6
  output reg                  clear_xgif_5,    // Strobe for decode to clear interrupt flag bank 5
  output reg                  clear_xgif_4,    // Strobe for decode to clear interrupt flag bank 4
  output reg                  clear_xgif_3,    // Strobe for decode to clear interrupt flag bank 3
  output reg                  clear_xgif_2,    // Strobe for decode to clear interrupt flag bank 2
  output reg                  clear_xgif_1,    // Strobe for decode to clear interrupt flag bank 1
  output reg                  clear_xgif_0,    // Strobe for decode to clear interrupt flag bank 0
  output reg           [15:0] clear_xgif_data, // Data for decode to clear interrupt flag
  output                      semaph_stat,     // Return Status of Semaphore bit
  output reg                  brk_irq_ena,     // Enable BRK instruction to generate interrupt
  output      [MAX_CHANNEL:1] chan_bypass,     // XGATE Interrupt enable or bypass
  output reg          [127:1] irq_bypass,      // Register to hold irq bypass control state
 
  input                       bus_clk,       // Control register bus clock
  input                       async_rst_b,   // Async reset signal
  input                       sync_reset,    // Syncronous reset signal
  input                [15:0] write_bus,     // Write Data Bus
  input                       write_xgmctl,  // Write Strobe for XGMCTL register
  input                [ 1:0] write_xgvbr,   // Write Strobe for XGVBR register
  input                [ 1:0] write_xgif_7,  // Write Strobe for Interrupt Flag Register 7
  input                [ 1:0] write_xgif_6,  // Write Strobe for Interrupt Flag Register 6
  input                [ 1:0] write_xgif_5,  // Write Strobe for Interrupt Flag Register 5
  input                [ 1:0] write_xgif_4,  // Write Strobe for Interrupt Flag Register 4
  input                [ 1:0] write_xgif_3,  // Write Strobe for Interrupt Flag Register 3
  input                [ 1:0] write_xgif_2,  // Write Strobe for Interrupt Flag Register 2
  input                [ 1:0] write_xgif_1,  // Write Strobe for Interrupt Flag Register 1
  input                [ 1:0] write_xgif_0,  // Write Strobe for Interrupt Flag Register 0
  input                [ 1:0] write_irw_en_7, // Write Strobe for Interrupt Bypass Control Register 7
  input                [ 1:0] write_irw_en_6, // Write Strobe for Interrupt Bypass Control Register 6
  input                [ 1:0] write_irw_en_5, // Write Strobe for Interrupt Bypass Control Register 5
  input                [ 1:0] write_irw_en_4, // Write Strobe for Interrupt Bypass Control Register 4
  input                [ 1:0] write_irw_en_3, // Write Strobe for Interrupt Bypass Control Register 3
  input                [ 1:0] write_irw_en_2, // Write Strobe for Interrupt Bypass Control Register 2
  input                [ 1:0] write_irw_en_1, // Write Strobe for Interrupt Bypass Control Register 1
  input                [ 1:0] write_irw_en_0, // Write Strobe for Interrupt Bypass Control Register 0
  input                       write_xgswt,    // Write Strobe for XGSWT register
  input                       debug_ack       // Clear debug register
  );
 
 
  integer j;     // Loop counter for channel bypass counter assigments
  integer k;     // Loop counter for channel bypass counter assigments
 
  // registers
  reg [127:1] irq_bypass_d; // Pseudo regester for routing address and data to irq bypass register
 
  // Wires
  wire [ 1:0] write_any_xgif;
 
  //
  // module body
  //
 
 
  // generate wishbone write registers
  // XGMCTL Register
  always @(posedge bus_clk or negedge async_rst_b)
    if (!async_rst_b)
      begin
        xge         <= 1'b0;
        xgfrz       <= 1'b0;
        xgdbg_set   <= 1'b0;
        xgdbg_clear <= 1'b0;
        xgss        <= 1'b0;
        xgfact      <= 1'b0;
        brk_irq_ena <= 1'b0;
        xgsweif_c   <= 1'b0;
        xgie        <= 1'b0;
       end
    else if (sync_reset)
      begin
        xge         <= 1'b0;
        xgfrz       <= 1'b0;
        xgdbg_set   <= 1'b0;
        xgdbg_clear <= 1'b0;
        xgss        <= 1'b0;
        xgfact      <= 1'b0;
        brk_irq_ena <= 1'b0;
        xgsweif_c   <= 1'b0;
        xgie        <= 1'b0;
     end
    else if (write_xgmctl)
      begin
        xge         <= write_bus[15] ? write_bus[7] : xge;
        xgfrz       <= write_bus[14] ? write_bus[6] : xgfrz;
        xgdbg_set   <= write_bus[13] && write_bus[5];
        xgdbg_clear <= write_bus[13] && !write_bus[5];
        xgss        <= write_bus[12] && write_bus[4];
        xgfact      <= write_bus[11] ? write_bus[3] : xgfact;
        brk_irq_ena <= write_bus[10] ? write_bus[2] : brk_irq_ena;
        xgsweif_c   <= write_bus[ 9] && write_bus[1];
        xgie        <= write_bus[ 8] ? write_bus[0] : xgie;
      end
    else
      begin
        xgss        <= 1'b0;
        xgsweif_c   <= 1'b0;
        xgdbg_set   <= xgdbg_set && !debug_ack;
        xgdbg_clear <= 1'b0;
      end
 
  // XGVBR Register
  always @(posedge bus_clk or negedge async_rst_b)
    if (!async_rst_b)
      begin
        xgvbr  <= 15'b1111_1110_0000_000;
       end
    else if (sync_reset)
      begin
        xgvbr  <= 15'b1111_1110_0000_000;
      end
    else if (|write_xgvbr && !xge)
      begin
        xgvbr[15:8]  <= write_xgvbr[1] ? write_bus[15:8] : xgvbr[15:8];
        xgvbr[ 7:1]  <= write_xgvbr[0] ? write_bus[ 7:1] : xgvbr[ 7:1];
      end
 
  // XGIF 7-0 Registers
  assign write_any_xgif = write_xgif_7 | write_xgif_6 | write_xgif_5 | write_xgif_4 |
                          write_xgif_3 | write_xgif_2 | write_xgif_1 | write_xgif_0;
 
  // Registers to clear the interrupt flags. Decode a specific interrupt to
  //  clear by ANDing the clear_xgif_x signal with the clear_xgif_data.
  always @(posedge bus_clk or negedge async_rst_b)
    if (!async_rst_b)
      begin
        clear_xgif_7    <= 1'b0;
        clear_xgif_6    <= 1'b0;
        clear_xgif_5    <= 1'b0;
        clear_xgif_4    <= 1'b0;
        clear_xgif_3    <= 1'b0;
        clear_xgif_2    <= 1'b0;
        clear_xgif_1    <= 1'b0;
        clear_xgif_0    <= 1'b0;
        clear_xgif_data <= 16'b0;
      end
    else if (sync_reset)
      begin
        clear_xgif_7    <= 1'b0;
        clear_xgif_6    <= 1'b0;
        clear_xgif_5    <= 1'b0;
        clear_xgif_4    <= 1'b0;
        clear_xgif_3    <= 1'b0;
        clear_xgif_2    <= 1'b0;
        clear_xgif_1    <= 1'b0;
        clear_xgif_0    <= 1'b0;
        clear_xgif_data <= 16'b0;
      end
    else
      begin
        clear_xgif_7    <= |write_xgif_7 && (MAX_CHANNEL > 111);
        clear_xgif_6    <= |write_xgif_6 && (MAX_CHANNEL > 95);
        clear_xgif_5    <= |write_xgif_5 && (MAX_CHANNEL > 79);
        clear_xgif_4    <= |write_xgif_4 && (MAX_CHANNEL > 63);
        clear_xgif_3    <= |write_xgif_3 && (MAX_CHANNEL > 47);
        clear_xgif_2    <= |write_xgif_2 && (MAX_CHANNEL > 31);
        clear_xgif_1    <= |write_xgif_1 && (MAX_CHANNEL > 15);
        clear_xgif_0    <= |write_xgif_0;
        clear_xgif_data[15:8] <= write_any_xgif[1] ? write_bus[15:8] : 8'b0;
        clear_xgif_data[ 7:0] <= write_any_xgif[0] ? write_bus[ 7:0] : 8'b0;
      end
 
 
  // XGSWT - XGATE Software Trigger Register
  always @(posedge bus_clk or negedge async_rst_b)
    if (!async_rst_b)
      xgswt <= 8'h00;
    else if (sync_reset)
      xgswt <= 8'h00;
    else if (write_xgswt)
      xgswt <= (write_bus[15:8] & write_bus[7:0]) | (~write_bus[15:8] & xgswt[7:0]);
 
 
  // Channel Bypass Register input bits
  always @*
    begin
      k = 1;   // WISHBONE Bus bit counter [15:0]
      for (j = 1; j <= 127; j = j + 1)
	begin
	  if (j <= MAX_CHANNEL)
	    begin
	      if ((j >= 0) && (j < 8))
		irq_bypass_d[j] = write_irw_en_0[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 8) && (j < 16))
		irq_bypass_d[j] = write_irw_en_0[1] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 16) && (j < 24))
		irq_bypass_d[j] = write_irw_en_1[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 24) && (j < 32))
		irq_bypass_d[j] = write_irw_en_1[1] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 32) && (j < 40))
		irq_bypass_d[j] = write_irw_en_2[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 40) && (j < 48))
		irq_bypass_d[j] = write_irw_en_2[1] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 48) && (j < 56))
		irq_bypass_d[j] = write_irw_en_3[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 56) && (j < 64))
		irq_bypass_d[j] = write_irw_en_3[1] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 64) && (j < 72))
		irq_bypass_d[j] = write_irw_en_4[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 72) && (j < 80))
		irq_bypass_d[j] = write_irw_en_4[1] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 80) && (j < 88))
		irq_bypass_d[j] = write_irw_en_5[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 88) && (j < 96))
		irq_bypass_d[j] = write_irw_en_5[1] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 96) && (j < 104))
		irq_bypass_d[j] = write_irw_en_6[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 104) && (j < 112))
		irq_bypass_d[j] = write_irw_en_6[1] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 112) && (j < 120))
		irq_bypass_d[j] = write_irw_en_7[0] ? write_bus[k] : irq_bypass[j];
	      if ((j >= 120) && (j < 128))
		irq_bypass_d[j] = write_irw_en_7[1] ? write_bus[k] : irq_bypass[j];
	    end
	  else
	    irq_bypass_d[j]  = 1'b0;
	k = k + 1;
	if (k > 15)
	  k = 0;
      end
    end
 
  //  Channel Bypass Registers
  //   Synthesys should eliminate bits that with D input tied to zero
  always @(posedge bus_clk or negedge async_rst_b)
    if ( !async_rst_b )
      irq_bypass  <= {127{1'b1}};
    else
      irq_bypass  <= irq_bypass_d;
 
  // Alias the register name to the output pin name so only the used bit are carried out
  assign chan_bypass = irq_bypass[MAX_CHANNEL:1]; 
 
endmodule  // xgate_regs
 
 
 

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