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[/] [xulalx25soc/] [trunk/] [rtl/] [wbureadcw.v] - Rev 44
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/////////////////////////////////////////////////////////////////////////// // // Filename: wbureadcw.v // // Project: XuLA2 board // // Purpose: Read bytes from a serial port (i.e. the jtagser) and translate // those bytes into a 6-byte codeword. This codeword may specify // a number of values to be read, the value to be written, or an address // to read/write from, or perhaps the end of a write sequence. // // See the encoding documentation file for more information. // // // Creator: Dan Gisselquist, Ph.D. // Gisselquist Technology, LLC // /////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2015, Gisselquist Technology, LLC // // This program is free software (firmware): you can redistribute it and/or // modify it under the terms of the GNU General Public License as published // by the Free Software Foundation, either version 3 of the License, or (at // your option) any later version. // // This program is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // License: GPL, v3, as defined and found on www.gnu.org, // http://www.gnu.org/licenses/gpl.html // // /////////////////////////////////////////////////////////////////////////// // // // Goal: single clock pipeline, 50 slices or less // module wbureadcw(i_clk, i_stb, i_valid, i_hexbits, o_stb, o_codword); input i_clk, i_stb, i_valid; input [5:0] i_hexbits; output reg o_stb; output reg [35:0] o_codword; // Timing: // Clock 0: i_stb is high, i_valid is low // Clock 1: shiftreg[5:0] is valid, cw_len is valid // r_len = 1 // Clock 2: o_stb = 1, for cw_len = 1; // o_codword is 1-byte valid // i_stb may go high again on this clock as well. // Clock 3: o_stb = 0 (cw_len=1), // cw_len = 0, // r_len = 0 (unless i_stb) // Ready for next word reg [2:0] r_len, cw_len; wire w_stb; assign w_stb = ((r_len == cw_len)&&(cw_len != 0)) ||((i_stb)&&(~i_valid)&&(lastcw == 2'b01)); // r_len is the length of the codeword as it exists // in our register initial r_len = 3'h0; always @(posedge i_clk) if ((i_stb)&&(~i_valid)) // Newline reset r_len <= 0; else if (w_stb) // reset/restart w/o newline r_len <= (i_stb)? 3'h1:3'h0; else if (i_stb) //in middle of word r_len <= r_len + 3'h1; reg [35:0] shiftreg; always @(posedge i_clk) if (w_stb) shiftreg[35:30] <= i_hexbits; else if (i_stb) case(r_len) 3'b000: shiftreg[35:30] <= i_hexbits; 3'b001: shiftreg[29:24] <= i_hexbits; 3'b010: shiftreg[23:18] <= i_hexbits; 3'b011: shiftreg[17:12] <= i_hexbits; 3'b100: shiftreg[11: 6] <= i_hexbits; 3'b101: shiftreg[ 5: 0] <= i_hexbits; default: begin end endcase reg [1:0] lastcw; always @(posedge i_clk) if (o_stb) lastcw <= o_codword[35:34]; always @(posedge i_clk) if ((i_stb)&&(~i_valid)&&(lastcw == 2'b01)) o_codword[35:30] <= 6'h2e; else o_codword <= shiftreg; // How long do we expect this codeword to be? initial cw_len = 3'b000; always @(posedge i_clk) if ((i_stb)&&(~i_valid)) cw_len <= 0; else if ((i_stb)&&((cw_len == 0)||(w_stb))) begin if (i_hexbits[5:4] == 2'b11) // 2b vector read cw_len <= 3'h2; else if (i_hexbits[5:4] == 2'b10) // 1b vector read cw_len <= 3'h1; else if (i_hexbits[5:3] == 3'b010) // 2b compressed wr cw_len <= 3'h2; else if (i_hexbits[5:3] == 3'b001) // 2b compressed addr cw_len <= 3'b010 + { 1'b0, i_hexbits[2:1] }; else // long write or set address cw_len <= 3'h6; end else if (w_stb) cw_len <= 0; always @(posedge i_clk) o_stb <= w_stb; endmodule
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