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[/] [amber/] [trunk/] [hw/] [vlog/] [system/] [interrupt_controller.v] - Rev 17
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////////////////////////////////////////////////////////////////// // // // Interrupt Controller for Amber // // // // This file is part of the Amber project // // http://www.opencores.org/project,amber // // // // Description // // Wishbone slave module that arbitrates between a number of // // interrupt sources. // // // Author(s): // // - Conor Santifort, csantifort.amber@gmail.com // // // ////////////////////////////////////////////////////////////////// // // // Copyright (C) 2010 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 interrupt_controller ( input i_clk, input [31:0] i_wb_adr, input [3:0] i_wb_sel, input i_wb_we, output [31:0] o_wb_dat, input [31:0] i_wb_dat, input i_wb_cyc, input i_wb_stb, output o_wb_ack, output o_wb_err, output o_irq, output o_firq, input i_uart0_int, input i_uart1_int, input i_ethmac_int, input i_test_reg_irq, input i_test_reg_firq, input [2:0] i_tm_timer_int ); `include "register_addresses.v" // Wishbone registers reg [31:0] irq0_enable_reg = 'd0; reg [31:0] firq0_enable_reg = 'd0; reg [31:0] irq1_enable_reg = 'd0; reg [31:0] firq1_enable_reg = 'd0; reg softint_0_reg = 'd0; reg softint_1_reg = 'd0; wire [31:0] raw_interrupts; wire [31:0] irq0_interrupts; wire [31:0] firq0_interrupts; wire [31:0] irq1_interrupts; wire [31:0] firq1_interrupts; wire irq_0; wire firq_0; wire irq_1; wire firq_1; // Wishbone interface reg [31:0] wb_rdata = 'd0; wire wb_start_write; wire wb_start_read; reg wb_start_read_d1 = 'd0; // ====================================================== // Wishbone Interface // ====================================================== // Can't start a write while a read is completing. The ack for the read cycle // needs to be sent first assign wb_start_write = i_wb_stb && i_wb_we && !wb_start_read_d1; assign wb_start_read = i_wb_stb && !i_wb_we && !o_wb_ack; always @( posedge i_clk ) wb_start_read_d1 <= wb_start_read; assign o_wb_dat = wb_rdata; assign o_wb_err = 1'd0; assign o_wb_ack = i_wb_stb && ( wb_start_write || wb_start_read_d1 ); // ====================================== // Interrupts // ====================================== assign raw_interrupts = {23'd0, i_ethmac_int, // 8: Ethernet MAC interrupt i_tm_timer_int[2], // 7: Timer Module Interrupt 2 i_tm_timer_int[1], // 6: Timer Module Interrupt 1 i_tm_timer_int[0], // 5: Timer Module Interrupt 0 1'd0, 1'd0, i_uart1_int, // 2: Uart 1 interrupt i_uart0_int, // 1: Uart 0 interrupt 1'd0 // 0: Software interrupt not }; // here because its not maskable assign irq0_interrupts = {raw_interrupts[31:1], softint_0_reg} & irq0_enable_reg; assign firq0_interrupts = raw_interrupts & firq0_enable_reg; assign irq1_interrupts = {raw_interrupts[31:1], softint_1_reg} & irq1_enable_reg; assign firq1_interrupts = raw_interrupts & firq1_enable_reg; // The interrupts from the test registers module are not masked, // just to keep their usage really simple assign irq_0 = |{irq0_interrupts, i_test_reg_irq}; assign firq_0 = |{firq0_interrupts, i_test_reg_firq}; assign irq_1 = |irq1_interrupts; assign firq_1 = |firq1_interrupts; assign o_irq = irq_0 | irq_1; assign o_firq = firq_0 | firq_1; // ======================================================== // Register Writes // ======================================================== always @( posedge i_clk ) if ( wb_start_write ) case ( i_wb_adr[15:0] ) AMBER_IC_IRQ0_ENABLESET: irq0_enable_reg <= irq0_enable_reg | ( i_wb_dat); AMBER_IC_IRQ0_ENABLECLR: irq0_enable_reg <= irq0_enable_reg & (~i_wb_dat); AMBER_IC_FIRQ0_ENABLESET: firq0_enable_reg <= firq0_enable_reg | ( i_wb_dat); AMBER_IC_FIRQ0_ENABLECLR: firq0_enable_reg <= firq0_enable_reg & (~i_wb_dat); AMBER_IC_INT_SOFTSET_0: softint_0_reg <= softint_0_reg | ( i_wb_dat[0]); AMBER_IC_INT_SOFTCLEAR_0: softint_0_reg <= softint_0_reg & (~i_wb_dat[0]); AMBER_IC_IRQ1_ENABLESET: irq1_enable_reg <= irq1_enable_reg | ( i_wb_dat); AMBER_IC_IRQ1_ENABLECLR: irq1_enable_reg <= irq1_enable_reg & (~i_wb_dat); AMBER_IC_FIRQ1_ENABLESET: firq1_enable_reg <= firq1_enable_reg | ( i_wb_dat); AMBER_IC_FIRQ1_ENABLECLR: firq1_enable_reg <= firq1_enable_reg & (~i_wb_dat); AMBER_IC_INT_SOFTSET_1: softint_1_reg <= softint_1_reg | ( i_wb_dat[0]); AMBER_IC_INT_SOFTCLEAR_1: softint_1_reg <= softint_1_reg & (~i_wb_dat[0]); endcase // ======================================================== // Register Reads // ======================================================== always @( posedge i_clk ) if ( wb_start_read ) case ( i_wb_adr[15:0] ) AMBER_IC_IRQ0_ENABLESET: wb_rdata <= irq0_enable_reg; AMBER_IC_FIRQ0_ENABLESET: wb_rdata <= firq0_enable_reg; AMBER_IC_IRQ0_RAWSTAT: wb_rdata <= raw_interrupts; AMBER_IC_IRQ0_STATUS: wb_rdata <= irq0_interrupts; AMBER_IC_FIRQ0_RAWSTAT: wb_rdata <= raw_interrupts; AMBER_IC_FIRQ0_STATUS: wb_rdata <= firq0_interrupts; AMBER_IC_INT_SOFTSET_0: wb_rdata <= {31'd0, softint_0_reg}; AMBER_IC_INT_SOFTCLEAR_0: wb_rdata <= {31'd0, softint_0_reg}; AMBER_IC_IRQ1_ENABLESET: wb_rdata <= irq1_enable_reg; AMBER_IC_FIRQ1_ENABLESET: wb_rdata <= firq1_enable_reg; AMBER_IC_IRQ1_RAWSTAT: wb_rdata <= raw_interrupts; AMBER_IC_IRQ1_STATUS: wb_rdata <= irq1_interrupts; AMBER_IC_FIRQ1_RAWSTAT: wb_rdata <= raw_interrupts; AMBER_IC_FIRQ1_STATUS: wb_rdata <= firq1_interrupts; AMBER_IC_INT_SOFTSET_1: wb_rdata <= {31'd0, softint_1_reg}; AMBER_IC_INT_SOFTCLEAR_1: wb_rdata <= {31'd0, softint_1_reg}; default: wb_rdata <= 32'h22334455; endcase // ======================================================================================= // ======================================================================================= // ======================================================================================= // Non-synthesizable debug code // ======================================================================================= //synopsys translate_off `ifdef AMBER_IC_DEBUG wire wb_read_ack = i_wb_stb && ( wb_start_write || wb_start_read_d1 ); // ----------------------------------------------- // Report Interrupt Controller Register accesses // ----------------------------------------------- always @(posedge i_clk) if ( wb_read_ack || wb_start_write ) begin `TB_DEBUG_MESSAGE if ( wb_start_write ) $write("Write 0x%08x to ", i_wb_dat); else $write("Read 0x%08x from ", o_wb_dat); case ( i_wb_adr[15:0] ) AMBER_IC_IRQ0_STATUS: $write(" Interrupt Controller module IRQ0 Status"); AMBER_IC_IRQ0_RAWSTAT: $write(" Interrupt Controller module IRQ0 Raw Status"); AMBER_IC_IRQ0_ENABLESET: $write(" Interrupt Controller module IRQ0 Enable Set"); AMBER_IC_IRQ0_ENABLECLR: $write(" Interrupt Controller module IRQ0 Enable Clear"); AMBER_IC_FIRQ0_STATUS: $write(" Interrupt Controller module FIRQ0 Status"); AMBER_IC_FIRQ0_RAWSTAT: $write(" Interrupt Controller module FIRQ0 Raw Status"); AMBER_IC_FIRQ0_ENABLESET: $write(" Interrupt Controller module FIRQ0 Enable set"); AMBER_IC_FIRQ0_ENABLECLR: $write(" Interrupt Controller module FIRQ0 Enable Clear"); AMBER_IC_INT_SOFTSET_0: $write(" Interrupt Controller module SoftInt 0 Set"); AMBER_IC_INT_SOFTCLEAR_0: $write(" Interrupt Controller module SoftInt 0 Clear"); AMBER_IC_IRQ1_STATUS: $write(" Interrupt Controller module IRQ1 Status"); AMBER_IC_IRQ1_RAWSTAT: $write(" Interrupt Controller module IRQ1 Raw Status"); AMBER_IC_IRQ1_ENABLESET: $write(" Interrupt Controller module IRQ1 Enable Set"); AMBER_IC_IRQ1_ENABLECLR: $write(" Interrupt Controller module IRQ1 Enable Clear"); AMBER_IC_FIRQ1_STATUS: $write(" Interrupt Controller module FIRQ1 Status"); AMBER_IC_FIRQ1_RAWSTAT: $write(" Interrupt Controller module FIRQ1 Raw Status"); AMBER_IC_FIRQ1_ENABLESET: $write(" Interrupt Controller module FIRQ1 Enable set"); AMBER_IC_FIRQ1_ENABLECLR: $write(" Interrupt Controller module FIRQ1 Enable Clear"); AMBER_IC_INT_SOFTSET_1: $write(" Interrupt Controller module SoftInt 1 Set"); AMBER_IC_INT_SOFTCLEAR_1: $write(" Interrupt Controller module SoftInt 1 Clear"); default: begin $write(" unknown Amber IC Register region"); $write(", Address 0x%08h\n", i_wb_adr); `TB_ERROR_MESSAGE end endcase $write(", Address 0x%08h\n", i_wb_adr); end `endif //synopsys translate_on endmodule
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