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[/] [amber/] [trunk/] [hw/] [vlog/] [amber23/] [a23_wishbone.v] - Rev 64
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////////////////////////////////////////////////////////////////// // // // Wishbone master interface for the Amber core // // // // This file is part of the Amber project // // http://www.opencores.org/project,amber // // // // Description // // Turns memory access requests from the execute stage and // // cache into wishbone bus cycles. For 4-word read requests // // from the cache and swap accesses ( read followed by write // // to the same address) from the execute stage, // // a block transfer is done. All other requests result in // // single word transfers. // // // // Write accesses can be done in a single clock cycle on // // the wishbone bus, is the destination allows it. The // // next transfer will begin immediately on the // // next cycle on the bus. This looks like a block transfer // // and does hold ownership of the wishbone bus, preventing // // the other master ( the ethernet MAC) from gaining // // ownership between those two cycles. But otherwise it would // // be necessary to insert a wait cycle after every write, // // slowing down the performance of the core by around 5 to // // 10%. // // // // 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 a23_wishbone ( input i_clk, // Core Accesses to Wishbone bus input i_select, input [31:0] i_write_data, input i_write_enable, input [3:0] i_byte_enable, // valid for writes only input i_data_access, input i_exclusive, // high for read part of swap access input [31:0] i_address, output o_stall, // Cache Accesses to Wishbone bus input i_cache_req, // Wishbone Bus output reg [31:0] o_wb_adr = 'd0, output reg [3:0] o_wb_sel = 'd0, output reg o_wb_we = 'd0, input [31:0] i_wb_dat, output reg [31:0] o_wb_dat = 'd0, output reg o_wb_cyc = 'd0, output reg o_wb_stb = 'd0, input i_wb_ack, input i_wb_err ); localparam [3:0] WB_IDLE = 3'd0, WB_BURST1 = 3'd1, WB_BURST2 = 3'd2, WB_BURST3 = 3'd3, WB_WAIT_ACK = 3'd4; reg [2:0] wishbone_st = WB_IDLE; wire core_read_request; wire core_write_request; wire cache_read_request; wire cache_write_request; wire start_access; reg servicing_cache = 'd0; wire [3:0] byte_enable; reg exclusive_access = 'd0; wire read_ack; wire wait_write_ack; wire wb_wait; // Write buffer reg [31:0] wbuf_addr_r = 'd0; reg [3:0] wbuf_sel_r = 'd0; reg wbuf_busy_r = 'd0; assign read_ack = !o_wb_we && i_wb_ack; assign o_stall = ( core_read_request && !read_ack ) || ( core_read_request && servicing_cache ) || ( core_write_request && servicing_cache ) || ( core_write_request && wishbone_st == WB_WAIT_ACK) || ( cache_write_request && wishbone_st == WB_WAIT_ACK) || wbuf_busy_r; // Don't stall on writes // Wishbone is doing burst read so make core wait to execute the write // ( core_write_request && !i_wb_ack ) ; assign core_read_request = i_select && !i_write_enable; assign core_write_request = i_select && i_write_enable; assign cache_read_request = i_cache_req && !i_write_enable; assign cache_write_request = i_cache_req && i_write_enable; assign wb_wait = o_wb_stb && !i_wb_ack; assign start_access = (core_read_request || core_write_request || i_cache_req) && !wb_wait ; // For writes the byte enable is always 4'hf assign byte_enable = wbuf_busy_r ? wbuf_sel_r : ( core_write_request || cache_write_request ) ? i_byte_enable : 4'hf ; // ====================================== // Write buffer // ====================================== always @( posedge i_clk ) if ( wb_wait && !wbuf_busy_r && (core_write_request || cache_write_request) ) begin wbuf_addr_r <= i_address; wbuf_sel_r <= i_byte_enable; wbuf_busy_r <= 1'd1; end else if (!o_wb_stb) wbuf_busy_r <= 1'd0; // ====================================== // Register Accesses // ====================================== always @( posedge i_clk ) if ( start_access ) o_wb_dat <= i_write_data; assign wait_write_ack = o_wb_stb && o_wb_we && !i_wb_ack; always @( posedge i_clk ) case ( wishbone_st ) WB_IDLE : begin if ( start_access ) begin o_wb_stb <= 1'd1; o_wb_cyc <= 1'd1; o_wb_sel <= byte_enable; end else if ( !wait_write_ack ) begin o_wb_stb <= 1'd0; // Hold cyc high after an exclusive access // to hold ownership of the wishbone bus o_wb_cyc <= exclusive_access; end // cache has priority over the core servicing_cache <= cache_read_request && !wait_write_ack; if ( wait_write_ack ) begin // still waiting for last (write) access to complete wishbone_st <= WB_WAIT_ACK; end // do a burst of 4 read to fill a cache line else if ( cache_read_request ) begin wishbone_st <= WB_BURST1; exclusive_access <= 1'd0; end else if ( core_read_request ) begin wishbone_st <= WB_WAIT_ACK; exclusive_access <= i_exclusive; end // The core does not currently issue exclusive write requests // but there's no reason why this might not be added some // time in the future so allow for it here else if ( core_write_request ) exclusive_access <= i_exclusive; if ( start_access ) begin if (wbuf_busy_r) begin o_wb_we <= 1'd1; o_wb_adr[31:2] <= wbuf_addr_r[31:2]; end else begin o_wb_we <= core_write_request || cache_write_request; // only update these on new wb access to make debug easier o_wb_adr[31:2] <= i_address[31:2]; end o_wb_adr[1:0] <= byte_enable == 4'b0001 ? 2'd0 : byte_enable == 4'b0010 ? 2'd1 : byte_enable == 4'b0100 ? 2'd2 : byte_enable == 4'b1000 ? 2'd3 : byte_enable == 4'b0011 ? 2'd0 : byte_enable == 4'b1100 ? 2'd2 : 2'd0 ; end end // Read burst, wait for first ack WB_BURST1: if ( i_wb_ack ) begin // burst of 4 that wraps o_wb_adr[3:2] <= o_wb_adr[3:2] + 1'd1; wishbone_st <= WB_BURST2; end // Read burst, wait for second ack WB_BURST2: if ( i_wb_ack ) begin // burst of 4 that wraps o_wb_adr[3:2] <= o_wb_adr[3:2] + 1'd1; wishbone_st <= WB_BURST3; end // Read burst, wait for third ack WB_BURST3: if ( i_wb_ack ) begin // burst of 4 that wraps o_wb_adr[3:2] <= o_wb_adr[3:2] + 1'd1; wishbone_st <= WB_WAIT_ACK; end // Wait for the wishbone ack to be asserted WB_WAIT_ACK: if ( i_wb_ack ) begin wishbone_st <= WB_IDLE; o_wb_stb <= 1'd0; o_wb_cyc <= exclusive_access; o_wb_we <= 1'd0; servicing_cache <= 1'd0; end endcase // ======================================================== // Debug Wishbone bus - not synthesizable // ======================================================== //synopsys translate_off wire [(14*8)-1:0] xAS_STATE; assign xAS_STATE = wishbone_st == WB_IDLE ? "WB_IDLE" : wishbone_st == WB_BURST1 ? "WB_BURST1" : wishbone_st == WB_BURST2 ? "WB_BURST2" : wishbone_st == WB_BURST3 ? "WB_BURST3" : wishbone_st == WB_WAIT_ACK ? "WB_WAIT_ACK" : "UNKNOWN" ; //synopsys translate_on endmodule
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