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[/] [amber/] [trunk/] [hw/] [vlog/] [amber25/] [a25_coprocessor.v] - Rev 42
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////////////////////////////////////////////////////////////////// // // // Co-processor module for Amber 25 Core // // // // This file is part of the Amber project // // http://www.opencores.org/project,amber // // // // Description // // Co_processor 15 registers and control signals // // Author(s): // // - Conor Santifort, csantifort.amber@gmail.com // // // ////////////////////////////////////////////////////////////////// // // // Copyright (C) 2011 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 // // // ////////////////////////////////////////////////////////////////// module a25_coprocessor ( input i_clk, input i_core_stall, // stall all stages of the Amber core at the same time input [2:0] i_copro_opcode1, input [2:0] i_copro_opcode2, input [3:0] i_copro_crn, // Register Number input [3:0] i_copro_crm, input [3:0] i_copro_num, input [1:0] i_copro_operation, input [31:0] i_copro_write_data, input i_fault, // high to latch the fault address and status input [7:0] i_fault_status, input [31:0] i_fault_address, // the address that caused the fault output reg [31:0] o_copro_read_data, output o_cache_enable, output o_cache_flush, output [31:0] o_cacheable_area ); // Bit 0 - Cache on(1)/off // Bit 1 - Shared (1) or seperate User/Supervisor address space // Bit 2 - address monitor mode(1) reg [2:0] cache_control = 3'b000; // Bit 0 - 2MB memory from 0 to 0x01fffff cacheable(1)/not cachable // Bit 1 - next 2MB region etc. reg [31:0] cacheable_area = 32'h0; // Marks memory regions as read only so writes are ignored by the cache // Bit 0 - 2MB memory from 0 to 0x01fffff updateable(1)/not updateable // Bit 1 - next 2MB region etc. reg [31:0] updateable_area = 32'h0; // Accesses to a region with a flag set in this register cause the // cache to flush // Bit 0 - 2MB memory from 0 to 0x01fffff // Bit 1 - next 2MB region etc. reg [31:0] disruptive_area = 32'h0; reg [7:0] fault_status = 'd0; reg [31:0] fault_address = 'd0; // the address that caused the fault wire copro15_reg1_write; // --------------------------- // Outputs // --------------------------- assign o_cache_enable = cache_control[0]; assign o_cache_flush = copro15_reg1_write; assign o_cacheable_area = cacheable_area; // --------------------------- // Capture an access fault address and status // --------------------------- always @ ( posedge i_clk ) if ( !i_core_stall ) begin if ( i_fault ) begin `ifdef A25_COPRO15_DEBUG $display ("Fault status set to 0x%08x", i_fault_status); $display ("Fault address set to 0x%08x", i_fault_address); `endif fault_status <= i_fault_status; fault_address <= i_fault_address; end end // --------------------------- // Register Writes // --------------------------- always @ ( posedge i_clk ) if ( !i_core_stall ) begin if ( i_copro_operation == 2'd2 ) case ( i_copro_crn ) 4'd2: cache_control <= i_copro_write_data[2:0]; 4'd3: cacheable_area <= i_copro_write_data[31:0]; 4'd4: updateable_area <= i_copro_write_data[31:0]; 4'd5: disruptive_area <= i_copro_write_data[31:0]; endcase end // Flush the cache assign copro15_reg1_write = !i_core_stall && i_copro_operation == 2'd2 && i_copro_crn == 4'd1; // --------------------------- // Register Reads // --------------------------- always @ ( posedge i_clk ) if ( !i_core_stall ) case ( i_copro_crn ) // ID Register - [31:24] Company id, [23:16] Manuf id, [15:8] Part type, [7:0] revision 4'd0: o_copro_read_data <= 32'h4156_0300; 4'd2: o_copro_read_data <= {29'd0, cache_control}; 4'd3: o_copro_read_data <= cacheable_area; 4'd4: o_copro_read_data <= updateable_area; 4'd5: o_copro_read_data <= disruptive_area; 4'd6: o_copro_read_data <= {24'd0, fault_status }; 4'd7: o_copro_read_data <= fault_address; default: o_copro_read_data <= 32'd0; endcase // ======================================================== // Debug code - not synthesizable // ======================================================== `ifdef A25_COPRO15_DEBUG //synopsys translate_off reg [1:0] copro_operation_d1; reg [3:0] copro_crn_d1; always @( posedge i_clk ) if ( !i_core_stall ) begin copro_operation_d1 <= i_copro_operation; copro_crn_d1 <= i_copro_crn; end always @( posedge i_clk ) if ( !i_core_stall ) begin if ( i_copro_operation == 2'd2 ) // mcr case ( i_copro_crn ) 4'd 1: begin `TB_DEBUG_MESSAGE $display ("Write 0x%08h to Co-Pro 15 #1, Flush Cache", i_copro_write_data); end 4'd 2: begin `TB_DEBUG_MESSAGE $display ("Write 0x%08h to Co-Pro 15 #2, Cache Control", i_copro_write_data); end 4'd 3: begin `TB_DEBUG_MESSAGE $display ("Write 0x%08h to Co-Pro 15 #3, Cacheable area", i_copro_write_data); end 4'd 4: begin `TB_DEBUG_MESSAGE $display ("Write 0x%08h to Co-Pro 15 #4, Updateable area", i_copro_write_data); end 4'd 5: begin `TB_DEBUG_MESSAGE $display ("Write 0x%08h to Co-Pro 15 #5, Disruptive area", i_copro_write_data); end endcase if ( copro_operation_d1 == 2'd1 ) // mrc case ( copro_crn_d1 ) 4'd 0: begin `TB_DEBUG_MESSAGE $display ("Read 0x%08h from Co-Pro 15 #0, ID Register", o_copro_read_data); end 4'd 2: begin `TB_DEBUG_MESSAGE $display ("Read 0x%08h from Co-Pro 15 #2, Cache control", o_copro_read_data); end 4'd 3: begin `TB_DEBUG_MESSAGE $display ("Read 0x%08h from Co-Pro 15 #3, Cacheable area", o_copro_read_data); end 4'd 4: begin `TB_DEBUG_MESSAGE $display ("Read 0x%08h from Co-Pro 15 #4, Updateable area", o_copro_read_data); end 4'd 5: begin `TB_DEBUG_MESSAGE $display ("Read 0x%08h from Co-Pro 15 #4, Disruptive area", o_copro_read_data); end 4'd 6: begin `TB_DEBUG_MESSAGE $display ("Read 0x%08h from Co-Pro 15 #6, Fault Status Register", o_copro_read_data); end 4'd 7: begin `TB_DEBUG_MESSAGE $display ("Read 0x%08h from Co-Pro 15 #7, Fault Address Register", o_copro_read_data); end endcase end //synopsys translate_on `endif endmodule
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