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[/] [present/] [trunk/] [PureTesting/] [bench/] [vhdl/] [PresentCommTB.vhd] - Rev 19
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----------------------------------------------------------------------- ---- ---- ---- Present - a lightweight block cipher project ---- ---- ---- ---- This file is part of the Present - a lightweight block ---- ---- cipher project ---- ---- http://www.http://opencores.org/project,present ---- ---- ---- ---- Description: ---- ---- This test bench simulate data transfer between PC and ---- ---- PresentComm core. All test data were generated in another ---- ---- program and textio was used for processing. Test bench is for ---- ---- to distinct data sets. ---- ---- To Do: ---- ---- ---- ---- Author(s): ---- ---- - Krzysztof Gajewski, gajos@opencores.org ---- ---- k.gajewski@gmail.com ---- ---- ---- ----------------------------------------------------------------------- ---- ---- ---- Copyright (C) 2013 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 ---- ---- ---- ----------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE std.textio.all; USE work.txt_util.all; USE ieee.std_logic_textio.all; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values --USE ieee.numeric_std.ALL; ENTITY PresentCommTB IS END PresentCommTB; ARCHITECTURE behavior OF PresentCommTB IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT PresentComm PORT( DATA_RXD : IN std_logic; CLK : IN std_logic; RESET : IN std_logic; DATA_TXD : OUT std_logic ); END COMPONENT; --Inputs signal DATA_RXD : std_logic := '0'; signal CLK : std_logic := '0'; signal RESET : std_logic := '0'; --Outputs signal DATA_TXD : std_logic; -- Clock period definitions -- speed of DIGILENT board and RS-232 core constant CLK_period : time := 20 ns; BEGIN -- Instantiate the Unit Under Test (UUT) uut: PresentComm PORT MAP ( DATA_RXD => DATA_RXD, CLK => CLK, RESET => RESET, DATA_TXD => DATA_TXD ); -- Clock process definitions CLK_process :process begin CLK <= '0'; wait for CLK_period/2; CLK <= '1'; wait for CLK_period/2; end process; -- Stimulus process stim_proc: process -- Variables file txt :text is in "./test/data.txt"; file key :text is in "./test/key.txt"; file txt2 :text is in "./test/data2.txt"; file key2 :text is in "./test/key2.txt"; variable line_in : line; variable line_content : string(1 to 8); variable data : STD_LOGIC; begin DATA_RXD <= '1'; RESET <= '1'; wait for 1000 ns; RESET <= '0'; wait for CLK_period*10; -- All data are sent in direction from LSB to MSB -- Reading first 'data' file each "segment" is one bit of serial data while not (endfile(txt)) loop readline(txt, line_in); -- info line read(line_in, line_content); report line_content; DATA_RXD <= '0'; -- start bit -- this amount is due to estimation of period of time needed for sending -- one bit in RS-232 with 115 200 bps bandwith wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt, line_in); read(line_in, data); DATA_RXD <= data; -- parity bit wait for 8.75 us; report "End of byte"; DATA_RXD <= '1'; -- stop bit wait for 100 us; end loop; -- Reading first 'key' file each "segment" is one bit of serial data while not (endfile(key)) loop readline(key, line_in); -- info line read(line_in, line_content); report line_content; DATA_RXD <= '0'; -- start bit wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key, line_in); read(line_in, data); DATA_RXD <= data; -- parity bit wait for 8.75 us; report "End of byte"; DATA_RXD <= '1'; -- stop bit wait for 100 us; end loop; -- Cipher counting and sending result wait for 2000 us; -- Reading second 'data2' file each "segment" is one bit of serial data while not (endfile(txt2)) loop readline(txt2, line_in); -- info line read(line_in, line_content); report line_content; DATA_RXD <= '0'; -- start bit wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(txt2, line_in); read(line_in, data); DATA_RXD <= data; -- parity bit wait for 8.75 us; report "End of byte"; DATA_RXD <= '1'; -- stop bit wait for 100 us; end loop; -- Reading second 'key2' file each "segment" is one bit of serial data while not (endfile(key2)) loop readline(key2, line_in); -- info line read(line_in, line_content); report line_content; DATA_RXD <= '0'; -- start bit wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; wait for 8.75 us; readline(key2, line_in); read(line_in, data); DATA_RXD <= data; -- parity bit wait for 8.75 us; report "End of byte"; DATA_RXD <= '1'; -- stop bit wait for 100 us; end loop; -- Cipher counting and sending result wait for 2000 us; assert false severity failure; end process; END;
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