From c6dbd00f22876863ce9aeb5c0c7c5e016ca71426 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Joachim=20Stro=CC=88mbergson?= Date: Thu, 27 Nov 2014 15:49:22 +0100 Subject: Adding testbenchs. --- src/tb/tb_aes.v | 553 ++++++++++++++++++++++++++++++++++ src/tb/tb_aes_core.v | 469 +++++++++++++++++++++++++++++ src/tb/tb_aes_decipher_block.v | 411 ++++++++++++++++++++++++++ src/tb/tb_aes_encipher_block.v | 427 +++++++++++++++++++++++++++ src/tb/tb_aes_key_mem.v | 655 +++++++++++++++++++++++++++++++++++++++++ 5 files changed, 2515 insertions(+) create mode 100644 src/tb/tb_aes.v create mode 100644 src/tb/tb_aes_core.v create mode 100644 src/tb/tb_aes_decipher_block.v create mode 100644 src/tb/tb_aes_encipher_block.v create mode 100644 src/tb/tb_aes_key_mem.v (limited to 'src') diff --git a/src/tb/tb_aes.v b/src/tb/tb_aes.v new file mode 100644 index 0000000..4413ded --- /dev/null +++ b/src/tb/tb_aes.v @@ -0,0 +1,553 @@ +//====================================================================== +// +// tb_aes.v +// -------- +// Testbench for the aes top level wrapper. +// +// +// Author: Joachim Strombergson +// Copyright (c) 2014, SUNET +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or +// without modification, are permitted provided that the following +// conditions are met: +// +// 1. Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// +// 2. Redistributions in binary form must reproduce the above copyright +// notice, this list of conditions and the following disclaimer in +// the documentation and/or other materials provided with the +// distribution. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS +// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE +// COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, +// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, +// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, +// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF +// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +// +//====================================================================== + +//------------------------------------------------------------------ +// Simulator directives. +//------------------------------------------------------------------ +`timescale 1ns/100ps + + +//------------------------------------------------------------------ +// Test module. +//------------------------------------------------------------------ +module tb_aes(); + + //---------------------------------------------------------------- + // Internal constant and parameter definitions. + //---------------------------------------------------------------- + parameter DEBUG = 0; + + parameter CLK_HALF_PERIOD = 1; + parameter CLK_PERIOD = 2 * CLK_HALF_PERIOD; + + // The DUT address map. + parameter ADDR_NAME0 = 8'h00; + parameter ADDR_NAME1 = 8'h01; + parameter ADDR_VERSION = 8'h02; + + parameter ADDR_CTRL = 8'h08; + parameter CTRL_INIT_BIT = 0; + parameter CTRL_NEXT_BIT = 1; + parameter CTRL_ENCDEC_BIT = 2; + parameter CTRL_KEYLEN_BIT = 3; + + parameter ADDR_CONFIG = 8'h09; + + parameter ADDR_STATUS = 8'h0a; + parameter STATUS_READY_BIT = 0; + parameter STATUS_VALID_BIT = 1; + + parameter ADDR_KEY0 = 8'h10; + parameter ADDR_KEY1 = 8'h11; + parameter ADDR_KEY2 = 8'h12; + parameter ADDR_KEY3 = 8'h13; + parameter ADDR_KEY4 = 8'h14; + parameter ADDR_KEY5 = 8'h15; + parameter ADDR_KEY6 = 8'h16; + parameter ADDR_KEY7 = 8'h17; + + parameter ADDR_BLOCK0 = 8'h20; + parameter ADDR_BLOCK1 = 8'h21; + parameter ADDR_BLOCK2 = 8'h22; + parameter ADDR_BLOCK3 = 8'h23; + + parameter ADDR_RESULT0 = 8'h30; + parameter ADDR_RESULT1 = 8'h31; + parameter ADDR_RESULT2 = 8'h32; + parameter ADDR_RESULT3 = 8'h33; + + parameter AES_128_BIT_KEY = 0; + parameter AES_256_BIT_KEY = 1; + + parameter AES_DECIPHER = 1'b0; + parameter AES_ENCIPHER = 1'b1; + + + //---------------------------------------------------------------- + // Register and Wire declarations. + //---------------------------------------------------------------- + reg [31 : 0] cycle_ctr; + reg [31 : 0] error_ctr; + reg [31 : 0] tc_ctr; + + reg [31 : 0] read_data; + reg [127 : 0] result_data; + + reg tb_clk; + reg tb_reset_n; + reg tb_cs; + reg tb_we; + reg [7 : 0] tb_address; + reg [31 : 0] tb_write_data; + wire [31 : 0] tb_read_data; + wire tb_error; + + + //---------------------------------------------------------------- + // Device Under Test. + //---------------------------------------------------------------- + aes dut( + .clk(tb_clk), + .reset_n(tb_reset_n), + .cs(tb_cs), + .we(tb_we), + .address(tb_address), + .write_data(tb_write_data), + .read_data(tb_read_data), + .error(tb_error) + ); + + + //---------------------------------------------------------------- + // Concurrent assignments. + //---------------------------------------------------------------- + + + //---------------------------------------------------------------- + // clk_gen + // + // Always running clock generator process. + //---------------------------------------------------------------- + always + begin : clk_gen + #CLK_HALF_PERIOD; + tb_clk = !tb_clk; + end // clk_gen + + + //---------------------------------------------------------------- + // sys_monitor() + // + // An always running process that creates a cycle counter and + // conditionally displays information about the DUT. + //---------------------------------------------------------------- + always + begin : sys_monitor + cycle_ctr = cycle_ctr + 1; + + #(CLK_PERIOD); + + if (DEBUG) + begin + dump_dut_state(); + end + end + + + //---------------------------------------------------------------- + // dump_dut_state() + // + // Dump the state of the dump when needed. + //---------------------------------------------------------------- + task dump_dut_state(); + begin + $display("cycle: 0x%016x", cycle_ctr); + $display("State of DUT"); + $display("------------"); + $display("ctrl_reg: init = 0x%01x, next = 0x%01x", dut.init_reg, dut.next_reg); + $display("config_reg: encdec = 0x%01x, length = 0x%01x ", dut.encdec_reg, dut.keylen_reg); + $display(""); + + $display("block: 0x%08x, 0x%08x, 0x%08x, 0x%08x", + dut.block0_reg, dut.block1_reg, dut.block2_reg, dut.block3_reg); + $display(""); + + end + endtask // dump_dut_state + + + //---------------------------------------------------------------- + // reset_dut() + // + // Toggle reset to put the DUT into a well known state. + //---------------------------------------------------------------- + task reset_dut(); + begin + $display("*** Toggle reset."); + tb_reset_n = 0; + + #(2 * CLK_PERIOD); + tb_reset_n = 1; + $display(""); + end + endtask // reset_dut + + + //---------------------------------------------------------------- + // display_test_results() + // + // Display the accumulated test results. + //---------------------------------------------------------------- + task display_test_results(); + begin + if (error_ctr == 0) + begin + $display("*** All %02d test cases completed successfully", tc_ctr); + end + else + begin + $display("*** %02d tests completed - %02d test cases did not complete successfully.", + tc_ctr, error_ctr); + end + end + endtask // display_test_results + + + //---------------------------------------------------------------- + // init_sim() + // + // Initialize all counters and testbed functionality as well + // as setting the DUT inputs to defined values. + //---------------------------------------------------------------- + task init_sim(); + begin + cycle_ctr = 0; + error_ctr = 0; + tc_ctr = 0; + + tb_clk = 0; + tb_reset_n = 1; + + tb_cs = 0; + tb_we = 0; + tb_address = 8'h00; + tb_write_data = 32'h00000000; + end + endtask // init_sim + + + //---------------------------------------------------------------- + // write_word() + // + // Write the given word to the DUT using the DUT interface. + //---------------------------------------------------------------- + task write_word(input [11 : 0] address, + input [31 : 0] word); + begin + if (DEBUG) + begin + $display("*** Writing 0x%08x to 0x%02x.", word, address); + $display(""); + end + + tb_address = address; + tb_write_data = word; + tb_cs = 1; + tb_we = 1; + #(2 * CLK_PERIOD); + tb_cs = 0; + tb_we = 0; + end + endtask // write_word + + + //---------------------------------------------------------------- + // write_block() + // + // Write the given block to the dut. + //---------------------------------------------------------------- + task write_block(input [127 : 0] block); + begin + write_word(ADDR_BLOCK0, block[127 : 96]); + write_word(ADDR_BLOCK1, block[95 : 64]); + write_word(ADDR_BLOCK2, block[63 : 32]); + write_word(ADDR_BLOCK3, block[31 : 0]); + end + endtask // write_block + + + //---------------------------------------------------------------- + // read_word() + // + // Read a data word from the given address in the DUT. + // the word read will be available in the global variable + // read_data. + //---------------------------------------------------------------- + task read_word(input [11 : 0] address); + begin + tb_address = address; + tb_cs = 1; + tb_we = 0; + #(CLK_PERIOD); + read_data = tb_read_data; + tb_cs = 0; + + if (DEBUG) + begin + $display("*** Reading 0x%08x from 0x%02x.", read_data, address); + $display(""); + end + end + endtask // read_word + + + //---------------------------------------------------------------- + // read_result() + // + // Read the result block in the dut. + //---------------------------------------------------------------- + task read_result(); + begin + read_word(ADDR_RESULT0); + result_data[127 : 096] = read_data; + read_word(ADDR_RESULT1); + result_data[095 : 064] = read_data; + read_word(ADDR_RESULT2); + result_data[063 : 032] = read_data; + read_word(ADDR_RESULT3); + result_data[031 : 000] = read_data; + end + endtask // read_result + + + //---------------------------------------------------------------- + // init_key() + // + // init the key in the dut by writing the given key and + // key length and then trigger init processing. + //---------------------------------------------------------------- + task init_key(input [255 : 0] key, input key_length); + begin + if (DEBUG) + begin + $display("key length: 0x%01x", key_length); + $display("Initializing key expansion for key: 0x%016x", key); + end + + write_word(ADDR_KEY0, key[255 : 224]); + write_word(ADDR_KEY1, key[223 : 192]); + write_word(ADDR_KEY2, key[191 : 160]); + write_word(ADDR_KEY3, key[159 : 128]); + write_word(ADDR_KEY4, key[127 : 96]); + write_word(ADDR_KEY5, key[95 : 64]); + write_word(ADDR_KEY6, key[63 : 32]); + write_word(ADDR_KEY7, key[31 : 0]); + + if (key_length) + begin + write_word(ADDR_CONFIG, 8'h02); + end + else + begin + write_word(ADDR_CONFIG, 8'h00); + end + + write_word(ADDR_CTRL, 8'h01); + + #(100 * CLK_PERIOD); + end + endtask // init_key + + + //---------------------------------------------------------------- + // ecb_mode_single_block_test() + // + // Perform ECB mode encryption or decryption single block test. + //---------------------------------------------------------------- + task ecb_mode_single_block_test(input [7 : 0] tc_number, + input encdec, + input [255 : 0] key, + input key_length, + input [127 : 0] block, + input [127 : 0] expected); + begin + $display("*** TC %0d ECB mode test started.", tc_number); + tc_ctr = tc_ctr + 1; + + init_key(key, key_length); + write_block(block); + dump_dut_state(); + + write_word(ADDR_CONFIG, (8'h00 + (key_length << 1)+ encdec)); + write_word(ADDR_CTRL, 8'h02); + + #(100 * CLK_PERIOD); + + read_result(); + + if (result_data == expected) + begin + $display("*** TC %0d successful.", tc_number); + $display(""); + end + else + begin + $display("*** ERROR: TC %0d NOT successful.", tc_number); + $display("Expected: 0x%032x", expected); + $display("Got: 0x%032x", result_data); + $display(""); + + error_ctr = error_ctr + 1; + end + end + endtask // ecb_mode_single_block_test + + + //---------------------------------------------------------------- + // aes_test() + // + // Main test task will perform complete NIST test of AES. + //---------------------------------------------------------------- + task aes_test(); + reg [255 : 0] nist_aes128_key; + reg [255 : 0] nist_aes256_key; + + reg [127 : 0] nist_plaintext0; + reg [127 : 0] nist_plaintext1; + reg [127 : 0] nist_plaintext2; + reg [127 : 0] nist_plaintext3; + + reg [127 : 0] nist_ecb_128_enc_expected0; + reg [127 : 0] nist_ecb_128_enc_expected1; + reg [127 : 0] nist_ecb_128_enc_expected2; + reg [127 : 0] nist_ecb_128_enc_expected3; + + reg [127 : 0] nist_ecb_256_enc_expected0; + reg [127 : 0] nist_ecb_256_enc_expected1; + reg [127 : 0] nist_ecb_256_enc_expected2; + reg [127 : 0] nist_ecb_256_enc_expected3; + + begin + nist_aes128_key = 256'h2b7e151628aed2a6abf7158809cf4f3c00000000000000000000000000000000; + nist_aes256_key = 256'h603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4; + + nist_plaintext0 = 128'h6bc1bee22e409f96e93d7e117393172a; + nist_plaintext1 = 128'hae2d8a571e03ac9c9eb76fac45af8e51; + nist_plaintext2 = 128'h30c81c46a35ce411e5fbc1191a0a52ef; + nist_plaintext3 = 128'hf69f2445df4f9b17ad2b417be66c3710; + + nist_ecb_128_enc_expected0 = 128'h3ad77bb40d7a3660a89ecaf32466ef97; + nist_ecb_128_enc_expected1 = 128'hf5d3d58503b9699de785895a96fdbaaf; + nist_ecb_128_enc_expected2 = 128'h43b1cd7f598ece23881b00e3ed030688; + nist_ecb_128_enc_expected3 = 128'h7b0c785e27e8ad3f8223207104725dd4; + + nist_ecb_256_enc_expected0 = 128'hf3eed1bdb5d2a03c064b5a7e3db181f8; + nist_ecb_256_enc_expected1 = 128'h591ccb10d410ed26dc5ba74a31362870; + nist_ecb_256_enc_expected2 = 128'hb6ed21b99ca6f4f9f153e7b1beafed1d; + nist_ecb_256_enc_expected3 = 128'h23304b7a39f9f3ff067d8d8f9e24ecc7; + + + $display("ECB 128 bit key tests"); + $display("---------------------"); + ecb_mode_single_block_test(8'h01, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext0, nist_ecb_128_enc_expected0); + + ecb_mode_single_block_test(8'h02, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext1, nist_ecb_128_enc_expected1); + + ecb_mode_single_block_test(8'h03, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext2, nist_ecb_128_enc_expected2); + + ecb_mode_single_block_test(8'h04, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext3, nist_ecb_128_enc_expected3); + + + ecb_mode_single_block_test(8'h05, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected0, nist_plaintext0); + + ecb_mode_single_block_test(8'h06, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected1, nist_plaintext1); + + ecb_mode_single_block_test(8'h07, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected2, nist_plaintext2); + + ecb_mode_single_block_test(8'h08, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected3, nist_plaintext3); + + + $display(""); + $display("ECB 256 bit key tests"); + $display("---------------------"); + ecb_mode_single_block_test(8'h10, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext0, nist_ecb_256_enc_expected0); + + ecb_mode_single_block_test(8'h11, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext1, nist_ecb_256_enc_expected1); + + ecb_mode_single_block_test(8'h12, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext2, nist_ecb_256_enc_expected2); + + ecb_mode_single_block_test(8'h13, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext3, nist_ecb_256_enc_expected3); + + + ecb_mode_single_block_test(8'h14, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected0, nist_plaintext0); + + ecb_mode_single_block_test(8'h15, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected1, nist_plaintext1); + + ecb_mode_single_block_test(8'h16, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected2, nist_plaintext2); + + ecb_mode_single_block_test(8'h17, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected3, nist_plaintext3); + end + endtask // aes_test + + + //---------------------------------------------------------------- + // main + // + // The main test functionality. + //---------------------------------------------------------------- + initial + begin : main + + $display(" -= Testbench for AES started =-"); + $display(" =============================="); + $display(""); + + init_sim(); + dump_dut_state(); + reset_dut(); + dump_dut_state(); + + aes_test(); + + display_test_results(); + + $display(""); + $display("*** AES simulation done. ***"); + $finish; + end // main +endmodule // tb_aes + +//====================================================================== +// EOF tb_aes.v +//====================================================================== diff --git a/src/tb/tb_aes_core.v b/src/tb/tb_aes_core.v new file mode 100644 index 0000000..426e817 --- /dev/null +++ b/src/tb/tb_aes_core.v @@ -0,0 +1,469 @@ +//====================================================================== +// +// tb_aes_core.v +// ------------- +// Testbench for the AES block cipher core. +// +// +// Author: Joachim Strombergson +// Copyright (c) 2014, SUNET +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or +// without modification, are permitted provided that the following +// conditions are met: +// +// 1. Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// +// 2. Redistributions in binary form must reproduce the above copyright +// notice, this list of conditions and the following disclaimer in +// the documentation and/or other materials provided with the +// distribution. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS +// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE +// COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, +// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, +// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, +// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF +// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +// +//====================================================================== + +//------------------------------------------------------------------ +// Simulator directives. +//------------------------------------------------------------------ +`timescale 1ns/100ps + + +//------------------------------------------------------------------ +// Test module. +//------------------------------------------------------------------ +module tb_aes_core(); + + //---------------------------------------------------------------- + // Internal constant and parameter definitions. + //---------------------------------------------------------------- + parameter DEBUG = 0; + parameter DUMP_WAIT = 0; + + parameter CLK_HALF_PERIOD = 1; + parameter CLK_PERIOD = 2 * CLK_HALF_PERIOD; + + parameter AES_128_BIT_KEY = 0; + parameter AES_256_BIT_KEY = 1; + + parameter AES_DECIPHER = 1'b0; + parameter AES_ENCIPHER = 1'b1; + + + //---------------------------------------------------------------- + // Register and Wire declarations. + //---------------------------------------------------------------- + reg [31 : 0] cycle_ctr; + reg [31 : 0] error_ctr; + reg [31 : 0] tc_ctr; + + reg tb_clk; + reg tb_reset_n; + reg tb_encdec; + reg tb_init; + reg tb_next; + wire tb_ready; + reg [255 : 0] tb_key; + reg tb_keylen; + reg [127 : 0] tb_block; + wire [127 : 0] tb_result; + wire tb_result_valid; + + + //---------------------------------------------------------------- + // Device Under Test. + //---------------------------------------------------------------- + aes_core dut( + .clk(tb_clk), + .reset_n(tb_reset_n), + + .encdec(tb_encdec), + .init(tb_init), + .next(tb_next), + .ready(tb_ready), + + .key(tb_key), + .keylen(tb_keylen), + + .block(tb_block), + .result(tb_result) + ); + + + //---------------------------------------------------------------- + // clk_gen + // + // Always running clock generator process. + //---------------------------------------------------------------- + always + begin : clk_gen + #CLK_HALF_PERIOD; + tb_clk = !tb_clk; + end // clk_gen + + + //---------------------------------------------------------------- + // sys_monitor() + // + // An always running process that creates a cycle counter and + // conditionally displays information about the DUT. + //---------------------------------------------------------------- + always + begin : sys_monitor + cycle_ctr = cycle_ctr + 1; + #(CLK_PERIOD); + if (DEBUG) + begin + dump_dut_state(); + end + end + + + //---------------------------------------------------------------- + // dump_dut_state() + // + // Dump the state of the dump when needed. + //---------------------------------------------------------------- + task dump_dut_state(); + begin + $display("State of DUT"); + $display("------------"); + $display("Inputs and outputs:"); + $display("encdec = 0x%01x, init = 0x%01x, next = 0x%01x", + dut.encdec, dut.init, dut.next); + $display("keylen = 0x%01x, key = 0x%032x ", dut.keylen, dut.key); + $display("block = 0x%032x", dut.block); + $display(""); + $display("ready = 0x%01x", dut.ready); + $display("result_valid = 0x%01x, result = 0x%032x", + dut.result_valid, dut.result); + $display(""); + $display("Encipher state::"); + $display("enc_ctrl = 0x%01x, round_ctr = 0x%01x", + dut.enc_block.enc_ctrl_reg, dut.enc_block.round_ctr_reg); + $display(""); + end + endtask // dump_dut_state + + + //---------------------------------------------------------------- + // dump_keys() + // + // Dump the keys in the key memory of the dut. + //---------------------------------------------------------------- + task dump_keys(); + begin + $display("State of key memory in DUT:"); + $display("key[00] = 0x%016x", dut.keymem.key_mem[00]); + $display("key[01] = 0x%016x", dut.keymem.key_mem[01]); + $display("key[02] = 0x%016x", dut.keymem.key_mem[02]); + $display("key[03] = 0x%016x", dut.keymem.key_mem[03]); + $display("key[04] = 0x%016x", dut.keymem.key_mem[04]); + $display("key[05] = 0x%016x", dut.keymem.key_mem[05]); + $display("key[06] = 0x%016x", dut.keymem.key_mem[06]); + $display("key[07] = 0x%016x", dut.keymem.key_mem[07]); + $display("key[08] = 0x%016x", dut.keymem.key_mem[08]); + $display("key[09] = 0x%016x", dut.keymem.key_mem[09]); + $display("key[10] = 0x%016x", dut.keymem.key_mem[10]); + $display("key[11] = 0x%016x", dut.keymem.key_mem[11]); + $display("key[12] = 0x%016x", dut.keymem.key_mem[12]); + $display("key[13] = 0x%016x", dut.keymem.key_mem[13]); + $display("key[14] = 0x%016x", dut.keymem.key_mem[14]); + $display(""); + end + endtask // dump_keys + + + //---------------------------------------------------------------- + // reset_dut() + // + // Toggle reset to put the DUT into a well known state. + //---------------------------------------------------------------- + task reset_dut(); + begin + $display("*** Toggle reset."); + tb_reset_n = 0; + #(2 * CLK_PERIOD); + tb_reset_n = 1; + end + endtask // reset_dut + + + //---------------------------------------------------------------- + // init_sim() + // + // Initialize all counters and testbed functionality as well + // as setting the DUT inputs to defined values. + //---------------------------------------------------------------- + task init_sim(); + begin + cycle_ctr = 0; + error_ctr = 0; + tc_ctr = 0; + + tb_clk = 0; + tb_reset_n = 1; + tb_encdec = 0; + tb_init = 0; + tb_next = 0; + tb_key = {8{32'h00000000}}; + tb_keylen = 0; + + tb_block = {4{32'h00000000}}; + end + endtask // init_sim + + + //---------------------------------------------------------------- + // display_test_result() + // + // Display the accumulated test results. + //---------------------------------------------------------------- + task display_test_result(); + begin + if (error_ctr == 0) + begin + $display("*** All %02d test cases completed successfully", tc_ctr); + end + else + begin + $display("*** %02d tests completed - %02d test cases did not complete successfully.", + tc_ctr, error_ctr); + end + end + endtask // display_test_result + + + //---------------------------------------------------------------- + // wait_ready() + // + // Wait for the ready flag in the dut to be set. + // + // Note: It is the callers responsibility to call the function + // when the dut is actively processing and will in fact at some + // point set the flag. + //---------------------------------------------------------------- + task wait_ready(); + begin + while (!tb_ready) + begin + #(CLK_PERIOD); + if (DUMP_WAIT) + begin + dump_dut_state(); + end + end + end + endtask // wait_ready + + + //---------------------------------------------------------------- + // wait_valid() + // + // Wait for the result_valid flag in the dut to be set. + // + // Note: It is the callers responsibility to call the function + // when the dut is actively processing a block and will in fact + // at some point set the flag. + //---------------------------------------------------------------- + task wait_valid(); + begin + while (!tb_result_valid) + begin + #(CLK_PERIOD); + end + end + endtask // wait_valid + + + //---------------------------------------------------------------- + // ecb_mode_single_block_test() + // + // Perform ECB mode encryption or decryption single block test. + //---------------------------------------------------------------- + task ecb_mode_single_block_test(input [7 : 0] tc_number, + input encdec, + input [255 : 0] key, + input key_length, + input [127 : 0] block, + input [127 : 0] expected); + begin + $display("*** TC %0d ECB mode test started.", tc_number); + tc_ctr = tc_ctr + 1; + + // Init the cipher with the given key and length. + tb_key = key; + tb_keylen = key_length; + tb_init = 1; + #(2 * CLK_PERIOD); + tb_init = 0; + wait_ready(); + + $display("Key expansion done"); + $display(""); + + dump_keys(); + + + // Perform encipher och decipher operation on the block. + tb_encdec = encdec; + tb_block = block; + tb_next = 1; + #(2 * CLK_PERIOD); + tb_next = 0; + wait_ready(); + + if (tb_result == expected) + begin + $display("*** TC %0d successful.", tc_number); + $display(""); + end + else + begin + $display("*** ERROR: TC %0d NOT successful.", tc_number); + $display("Expected: 0x%032x", expected); + $display("Got: 0x%032x", tb_result); + $display(""); + + error_ctr = error_ctr + 1; + end + end + endtask // ecb_mode_single_block_test + + + //---------------------------------------------------------------- + // aes_core_test + // The main test functionality. + // + // Test cases taken from NIST SP 800-38A: + // http://csrc.nist.gov/publications/nistpubs/800-38a/sp800-38a.pdf + //---------------------------------------------------------------- + initial + begin : aes_core_test + reg [255 : 0] nist_aes128_key; + reg [255 : 0] nist_aes256_key; + + reg [127 : 0] nist_plaintext0; + reg [127 : 0] nist_plaintext1; + reg [127 : 0] nist_plaintext2; + reg [127 : 0] nist_plaintext3; + + reg [127 : 0] nist_ecb_128_enc_expected0; + reg [127 : 0] nist_ecb_128_enc_expected1; + reg [127 : 0] nist_ecb_128_enc_expected2; + reg [127 : 0] nist_ecb_128_enc_expected3; + + reg [127 : 0] nist_ecb_256_enc_expected0; + reg [127 : 0] nist_ecb_256_enc_expected1; + reg [127 : 0] nist_ecb_256_enc_expected2; + reg [127 : 0] nist_ecb_256_enc_expected3; + + nist_aes128_key = 256'h2b7e151628aed2a6abf7158809cf4f3c00000000000000000000000000000000; + nist_aes256_key = 256'h603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4; + + nist_plaintext0 = 128'h6bc1bee22e409f96e93d7e117393172a; + nist_plaintext1 = 128'hae2d8a571e03ac9c9eb76fac45af8e51; + nist_plaintext2 = 128'h30c81c46a35ce411e5fbc1191a0a52ef; + nist_plaintext3 = 128'hf69f2445df4f9b17ad2b417be66c3710; + + nist_ecb_128_enc_expected0 = 128'h3ad77bb40d7a3660a89ecaf32466ef97; + nist_ecb_128_enc_expected1 = 128'hf5d3d58503b9699de785895a96fdbaaf; + nist_ecb_128_enc_expected2 = 128'h43b1cd7f598ece23881b00e3ed030688; + nist_ecb_128_enc_expected3 = 128'h7b0c785e27e8ad3f8223207104725dd4; + + nist_ecb_256_enc_expected0 = 128'hf3eed1bdb5d2a03c064b5a7e3db181f8; + nist_ecb_256_enc_expected1 = 128'h591ccb10d410ed26dc5ba74a31362870; + nist_ecb_256_enc_expected2 = 128'hb6ed21b99ca6f4f9f153e7b1beafed1d; + nist_ecb_256_enc_expected3 = 128'h23304b7a39f9f3ff067d8d8f9e24ecc7; + + + $display(" -= Testbench for aes core started =-"); + $display(" ================================"); + $display(""); + + init_sim(); + dump_dut_state(); + reset_dut(); + dump_dut_state(); + + + $display("ECB 128 bit key tests"); + $display("---------------------"); + ecb_mode_single_block_test(8'h01, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext0, nist_ecb_128_enc_expected0); + + ecb_mode_single_block_test(8'h02, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext1, nist_ecb_128_enc_expected1); + + ecb_mode_single_block_test(8'h03, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext2, nist_ecb_128_enc_expected2); + + ecb_mode_single_block_test(8'h04, AES_ENCIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_plaintext3, nist_ecb_128_enc_expected3); + + + ecb_mode_single_block_test(8'h05, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected0, nist_plaintext0); + + ecb_mode_single_block_test(8'h06, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected1, nist_plaintext1); + + ecb_mode_single_block_test(8'h07, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected2, nist_plaintext2); + + ecb_mode_single_block_test(8'h08, AES_DECIPHER, nist_aes128_key, AES_128_BIT_KEY, + nist_ecb_128_enc_expected3, nist_plaintext3); + + + $display(""); + $display("ECB 256 bit key tests"); + $display("---------------------"); + ecb_mode_single_block_test(8'h10, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext0, nist_ecb_256_enc_expected0); + + ecb_mode_single_block_test(8'h11, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext1, nist_ecb_256_enc_expected1); + + ecb_mode_single_block_test(8'h12, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext2, nist_ecb_256_enc_expected2); + + ecb_mode_single_block_test(8'h13, AES_ENCIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_plaintext3, nist_ecb_256_enc_expected3); + + + ecb_mode_single_block_test(8'h14, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected0, nist_plaintext0); + + ecb_mode_single_block_test(8'h15, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected1, nist_plaintext1); + + ecb_mode_single_block_test(8'h16, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected2, nist_plaintext2); + + ecb_mode_single_block_test(8'h17, AES_DECIPHER, nist_aes256_key, AES_256_BIT_KEY, + nist_ecb_256_enc_expected3, nist_plaintext3); + + + display_test_result(); + $display(""); + $display("*** AES core simulation done. ***"); + $finish; + end // aes_core_test +endmodule // tb_aes_core + +//====================================================================== +// EOF tb_aes_core.v +//====================================================================== diff --git a/src/tb/tb_aes_decipher_block.v b/src/tb/tb_aes_decipher_block.v new file mode 100644 index 0000000..5a89102 --- /dev/null +++ b/src/tb/tb_aes_decipher_block.v @@ -0,0 +1,411 @@ +//====================================================================== +// +// tb_aes_decipher_block.v +// ----------------------- +// Testbench for the AES decipher block module. +// +// +// Author: Joachim Strombergson +// Copyright (c) 2014, SUNET +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or +// without modification, are permitted provided that the following +// conditions are met: +// +// 1. Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// +// 2. Redistributions in binary form must reproduce the above copyright +// notice, this list of conditions and the following disclaimer in +// the documentation and/or other materials provided with the +// distribution. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS +// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE +// COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, +// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, +// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, +// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF +// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +// +//====================================================================== + +//------------------------------------------------------------------ +// Simulator directives. +//------------------------------------------------------------------ +`timescale 1ns/100ps + + +//------------------------------------------------------------------ +// Test module. +//------------------------------------------------------------------ +module tb_aes_decipher_block(); + + //---------------------------------------------------------------- + // Internal constant and parameter definitions. + //---------------------------------------------------------------- + parameter DEBUG = 1; + parameter DUMP_WAIT = 0; + + parameter CLK_HALF_PERIOD = 1; + parameter CLK_PERIOD = 2 * CLK_HALF_PERIOD; + + parameter AES_128_BIT_KEY = 0; + parameter AES_256_BIT_KEY = 1; + + parameter AES_DECIPHER = 1'b0; + parameter AES_ENCIPHER = 1'b1; + + + //---------------------------------------------------------------- + // Register and Wire declarations. + //---------------------------------------------------------------- + reg [31 : 0] cycle_ctr; + reg [31 : 0] error_ctr; + reg [31 : 0] tc_ctr; + + reg tb_clk; + reg tb_reset_n; + + reg tb_next; + reg tb_keylen; + wire tb_ready; + wire [3 : 0] tb_round; + wire [127 : 0] tb_round_key; + + reg [127 : 0] tb_block; + wire [127 : 0] tb_new_block; + + reg [127 : 0] key_mem [0 : 14]; + + + //---------------------------------------------------------------- + // Assignments. + //---------------------------------------------------------------- + assign tb_round_key = key_mem[tb_round]; + + + //---------------------------------------------------------------- + // Device Under Test. + //---------------------------------------------------------------- + aes_decipher_block dut( + .clk(tb_clk), + .reset_n(tb_reset_n), + + .next(tb_next), + + .keylen(tb_keylen), + .round(tb_round), + .round_key(tb_round_key), + + .block(tb_block), + .new_block(tb_new_block), + .ready(tb_ready) + ); + + + //---------------------------------------------------------------- + // clk_gen + // + // Always running clock generator process. + //---------------------------------------------------------------- + always + begin : clk_gen + #CLK_HALF_PERIOD; + tb_clk = !tb_clk; + end // clk_gen + + + //---------------------------------------------------------------- + // sys_monitor() + // + // An always running process that creates a cycle counter and + // conditionally displays information about the DUT. + //---------------------------------------------------------------- + always + begin : sys_monitor + cycle_ctr = cycle_ctr + 1; + #(CLK_PERIOD); + if (DEBUG) + begin + dump_dut_state(); + end + end + + + //---------------------------------------------------------------- + // dump_dut_state() + // + // Dump the state of the dump when needed. + //---------------------------------------------------------------- + task dump_dut_state(); + begin + $display("State of DUT"); + $display("------------"); + $display("Interfaces"); + $display("ready = 0x%01x, next = 0x%01x, keylen = 0x%01x", + dut.ready, dut.next, dut.keylen); + $display("block = 0x%032x", dut.block); + $display("new_block = 0x%032x", dut.new_block); + $display(""); + + $display("Control states"); + $display("round = 0x%01x", dut.round); + $display("dec_ctrl = 0x%01x, update_type = 0x%01x, sword_ctr = 0x%01x, round_ctr = 0x%01x", + dut.dec_ctrl_reg, dut.update_type, dut.sword_ctr_reg, dut.round_ctr_reg); + $display(""); + + $display("Internal data values"); + $display("round_key = 0x%016x", dut.round_key); + $display("sboxw = 0x%08x, new_sboxw = 0x%08x", dut.tmp_sboxw, dut.new_sboxw); + $display("block_w0_reg = 0x%08x, block_w1_reg = 0x%08x, block_w2_reg = 0x%08x, block_w3_reg = 0x%08x", + dut.block_w0_reg, dut.block_w1_reg, dut.block_w2_reg, dut.block_w3_reg); + $display(""); + $display("old_block = 0x%08x", dut.round_logic.old_block); + $display("inv_shiftrows_block = 0x%08x", dut.round_logic.inv_shiftrows_block); + $display("inv_mixcolumns_block = 0x%08x", dut.round_logic.inv_mixcolumns_block); + $display("addkey_block = 0x%08x", dut.round_logic.addkey_block); + $display("block_w0_new = 0x%08x, block_w1_new = 0x%08x, block_w2_new = 0x%08x, block_w3_new = 0x%08x", + dut.block_new[127 : 096], dut.block_new[095 : 064], + dut.block_new[063 : 032], dut.block_new[031 : 000]); + $display(""); + end + endtask // dump_dut_state + + + //---------------------------------------------------------------- + // reset_dut() + // + // Toggle reset to put the DUT into a well known state. + //---------------------------------------------------------------- + task reset_dut(); + begin + $display("*** Toggle reset."); + tb_reset_n = 0; + #(2 * CLK_PERIOD); + tb_reset_n = 1; + end + endtask // reset_dut + + + //---------------------------------------------------------------- + // init_sim() + // + // Initialize all counters and testbed functionality as well + // as setting the DUT inputs to defined values. + //---------------------------------------------------------------- + task init_sim(); + begin + cycle_ctr = 0; + error_ctr = 0; + tc_ctr = 0; + + tb_clk = 0; + tb_reset_n = 1; + + tb_next = 0; + tb_keylen = 0; + + tb_block = {4{32'h00000000}}; + end + endtask // init_sim + + + //---------------------------------------------------------------- + // display_test_result() + // + // Display the accumulated test results. + //---------------------------------------------------------------- + task display_test_result(); + begin + if (error_ctr == 0) + begin + $display("*** All %02d test cases completed successfully", tc_ctr); + end + else + begin + $display("*** %02d tests completed - %02d test cases did not complete successfully.", + tc_ctr, error_ctr); + end + end + endtask // display_test_result + + + //---------------------------------------------------------------- + // wait_ready() + // + // Wait for the ready flag in the dut to be set. + // + // Note: It is the callers responsibility to call the function + // when the dut is actively processing and will in fact at some + // point set the flag. + //---------------------------------------------------------------- + task wait_ready(); + begin + while (!tb_ready) + begin + #(CLK_PERIOD); + if (DUMP_WAIT) + begin + dump_dut_state(); + end + end + end + endtask // wait_ready + + + //---------------------------------------------------------------- + // test_ecb_de() + // + // Perform ECB mode encryption test. + //---------------------------------------------------------------- + task test_ecb_dec( + input key_length, + input [127 : 0] block, + input [127 : 0] expected); + begin + $display("*** TC %0d ECB mode test started.", tc_ctr); + + // Init the cipher with the given key and length. + tb_keylen = key_length; + + // Perform decipher operation on the block. + tb_block = block; + tb_next = 1; + #(2 * CLK_PERIOD); + tb_next = 0; + #(2 * CLK_PERIOD); + + wait_ready(); + + if (tb_new_block == expected) + begin + $display("*** TC %0d successful.", tc_ctr); + $display(""); + end + else + begin + $display("*** ERROR: TC %0d NOT successful.", tc_ctr); + $display("Expected: 0x%032x", expected); + $display("Got: 0x%032x", tb_new_block); + $display(""); + + error_ctr = error_ctr + 1; + end + tc_ctr = tc_ctr + 1; + end + endtask // ecb_mode_single_block_test + + + //---------------------------------------------------------------- + // tb_aes_decipher_block + // The main test functionality. + // + // Test cases taken from NIST SP 800-38A: + // http://csrc.nist.gov/publications/nistpubs/800-38a/sp800-38a.pdf + //---------------------------------------------------------------- + initial + begin : tb_aes_decipher_block + reg [127 : 0] nist_plaintext0; + reg [127 : 0] nist_plaintext1; + reg [127 : 0] nist_plaintext2; + reg [127 : 0] nist_plaintext3; + + reg [127 : 0] nist_ecb_128_dec_ciphertext0; + reg [127 : 0] nist_ecb_128_dec_ciphertext1; + reg [127 : 0] nist_ecb_128_dec_ciphertext2; + reg [127 : 0] nist_ecb_128_dec_ciphertext3; + + reg [127 : 0] nist_ecb_256_dec_ciphertext0; + reg [127 : 0] nist_ecb_256_dec_ciphertext1; + reg [127 : 0] nist_ecb_256_dec_ciphertext2; + reg [127 : 0] nist_ecb_256_dec_ciphertext3; + + nist_plaintext0 = 128'h6bc1bee22e409f96e93d7e117393172a; + nist_plaintext1 = 128'hae2d8a571e03ac9c9eb76fac45af8e51; + nist_plaintext2 = 128'h30c81c46a35ce411e5fbc1191a0a52ef; + nist_plaintext3 = 128'hf69f2445df4f9b17ad2b417be66c3710; + + nist_ecb_128_dec_ciphertext0 = 128'h3ad77bb40d7a3660a89ecaf32466ef97; + nist_ecb_128_dec_ciphertext1 = 128'hf5d3d58503b9699de785895a96fdbaaf; + nist_ecb_128_dec_ciphertext2 = 128'h43b1cd7f598ece23881b00e3ed030688; + nist_ecb_128_dec_ciphertext3 = 128'h7b0c785e27e8ad3f8223207104725dd4; + + nist_ecb_256_dec_ciphertext0 = 255'hf3eed1bdb5d2a03c064b5a7e3db181f8; + nist_ecb_256_dec_ciphertext1 = 255'h591ccb10d410ed26dc5ba74a31362870; + nist_ecb_256_dec_ciphertext2 = 255'hb6ed21b99ca6f4f9f153e7b1beafed1d; + nist_ecb_256_dec_ciphertext3 = 255'h23304b7a39f9f3ff067d8d8f9e24ecc7; + + + $display(" -= Testbench for aes decipher block started =-"); + $display(" ============================================"); + $display(""); + + init_sim(); + dump_dut_state(); + reset_dut(); + dump_dut_state(); + + + // NIST 128 bit ECB tests. + key_mem[00] = 128'h2b7e151628aed2a6abf7158809cf4f3c; + key_mem[01] = 128'ha0fafe1788542cb123a339392a6c7605; + key_mem[02] = 128'hf2c295f27a96b9435935807a7359f67f; + key_mem[03] = 128'h3d80477d4716fe3e1e237e446d7a883b; + key_mem[04] = 128'hef44a541a8525b7fb671253bdb0bad00; + key_mem[05] = 128'hd4d1c6f87c839d87caf2b8bc11f915bc; + key_mem[06] = 128'h6d88a37a110b3efddbf98641ca0093fd; + key_mem[07] = 128'h4e54f70e5f5fc9f384a64fb24ea6dc4f; + key_mem[08] = 128'head27321b58dbad2312bf5607f8d292f; + key_mem[09] = 128'hac7766f319fadc2128d12941575c006e; + key_mem[10] = 128'hd014f9a8c9ee2589e13f0cc8b6630ca6; + key_mem[11] = 128'h00000000000000000000000000000000; + key_mem[12] = 128'h00000000000000000000000000000000; + key_mem[13] = 128'h00000000000000000000000000000000; + key_mem[14] = 128'h00000000000000000000000000000000; + + test_ecb_dec(AES_128_BIT_KEY, nist_ecb_128_dec_ciphertext0, nist_plaintext0); + test_ecb_dec(AES_128_BIT_KEY, nist_ecb_128_dec_ciphertext1, nist_plaintext1); + test_ecb_dec(AES_128_BIT_KEY, nist_ecb_128_dec_ciphertext2, nist_plaintext2); + test_ecb_dec(AES_128_BIT_KEY, nist_ecb_128_dec_ciphertext3, nist_plaintext3); + + + // NIST 256 bit ECB tests. + key_mem[00] = 128'h603deb1015ca71be2b73aef0857d7781; + key_mem[01] = 128'h1f352c073b6108d72d9810a30914dff4; + key_mem[02] = 128'h9ba354118e6925afa51a8b5f2067fcde; + key_mem[03] = 128'ha8b09c1a93d194cdbe49846eb75d5b9a; + key_mem[04] = 128'hd59aecb85bf3c917fee94248de8ebe96; + key_mem[05] = 128'hb5a9328a2678a647983122292f6c79b3; + key_mem[06] = 128'h812c81addadf48ba24360af2fab8b464; + key_mem[07] = 128'h98c5bfc9bebd198e268c3ba709e04214; + key_mem[08] = 128'h68007bacb2df331696e939e46c518d80; + key_mem[09] = 128'hc814e20476a9fb8a5025c02d59c58239; + key_mem[10] = 128'hde1369676ccc5a71fa2563959674ee15; + key_mem[11] = 128'h5886ca5d2e2f31d77e0af1fa27cf73c3; + key_mem[12] = 128'h749c47ab18501ddae2757e4f7401905a; + key_mem[13] = 128'hcafaaae3e4d59b349adf6acebd10190d; + key_mem[14] = 128'hfe4890d1e6188d0b046df344706c631e; + + test_ecb_dec(AES_256_BIT_KEY, nist_ecb_256_dec_ciphertext0, nist_plaintext0); + test_ecb_dec(AES_256_BIT_KEY, nist_ecb_256_dec_ciphertext1, nist_plaintext1); + test_ecb_dec(AES_256_BIT_KEY, nist_ecb_256_dec_ciphertext2, nist_plaintext2); + test_ecb_dec(AES_256_BIT_KEY, nist_ecb_256_dec_ciphertext3, nist_plaintext3); + + + display_test_result(); + $display(""); + $display("*** AES decipher block module simulation done. ***"); + $finish; + end // aes_core_test +endmodule // tb_aes_decipher_block + +//====================================================================== +// EOF tb_aes_decipher_block.v +//====================================================================== diff --git a/src/tb/tb_aes_encipher_block.v b/src/tb/tb_aes_encipher_block.v new file mode 100644 index 0000000..39d7c26 --- /dev/null +++ b/src/tb/tb_aes_encipher_block.v @@ -0,0 +1,427 @@ +//====================================================================== +// +// tb_aes_encipher_block.v +// ----------------------- +// Testbench for the AES encipher block module. +// +// +// Author: Joachim Strombergson +// Copyright (c) 2014, SUNET +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or +// without modification, are permitted provided that the following +// conditions are met: +// +// 1. Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// +// 2. Redistributions in binary form must reproduce the above copyright +// notice, this list of conditions and the following disclaimer in +// the documentation and/or other materials provided with the +// distribution. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS +// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE +// COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, +// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, +// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, +// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF +// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +// +//====================================================================== + +//------------------------------------------------------------------ +// Simulator directives. +//------------------------------------------------------------------ +`timescale 1ns/100ps + + +//------------------------------------------------------------------ +// Test module. +//------------------------------------------------------------------ +module tb_aes_encipher_block(); + + //---------------------------------------------------------------- + // Internal constant and parameter definitions. + //---------------------------------------------------------------- + parameter DEBUG = 1; + parameter DUMP_WAIT = 0; + + parameter CLK_HALF_PERIOD = 1; + parameter CLK_PERIOD = 2 * CLK_HALF_PERIOD; + + parameter AES_128_BIT_KEY = 0; + parameter AES_256_BIT_KEY = 1; + + parameter AES_DECIPHER = 1'b0; + parameter AES_ENCIPHER = 1'b1; + + + //---------------------------------------------------------------- + // Register and Wire declarations. + //---------------------------------------------------------------- + reg [31 : 0] cycle_ctr; + reg [31 : 0] error_ctr; + reg [31 : 0] tc_ctr; + + reg tb_clk; + reg tb_reset_n; + + reg tb_next; + reg tb_keylen; + wire tb_ready; + wire [3 : 0] tb_round; + wire [127 : 0] tb_round_key; + + wire [31 : 0] tb_sboxw; + wire [31 : 0] tb_new_sboxw; + + reg [127 : 0] tb_block; + wire [127 : 0] tb_new_block; + + reg [127 : 0] key_mem [0 : 14]; + + + //---------------------------------------------------------------- + // Assignments. + //---------------------------------------------------------------- + assign tb_round_key = key_mem[tb_round]; + + + //---------------------------------------------------------------- + // Device Under Test. + //---------------------------------------------------------------- + // We need an sbox for the tests. + aes_sbox sbox( + .sboxw(tb_sboxw), + .new_sboxw(tb_new_sboxw) + ); + + + // The device under test. + aes_encipher_block dut( + .clk(tb_clk), + .reset_n(tb_reset_n), + + .next(tb_next), + + .keylen(tb_keylen), + .round(tb_round), + .round_key(tb_round_key), + + .sboxw(tb_sboxw), + .new_sboxw(tb_new_sboxw), + + .block(tb_block), + .new_block(tb_new_block), + .ready(tb_ready) + ); + + + //---------------------------------------------------------------- + // clk_gen + // + // Always running clock generator process. + //---------------------------------------------------------------- + always + begin : clk_gen + #CLK_HALF_PERIOD; + tb_clk = !tb_clk; + end // clk_gen + + + //---------------------------------------------------------------- + // sys_monitor() + // + // An always running process that creates a cycle counter and + // conditionally displays information about the DUT. + //---------------------------------------------------------------- + always + begin : sys_monitor + cycle_ctr = cycle_ctr + 1; + #(CLK_PERIOD); + if (DEBUG) + begin + dump_dut_state(); + end + end + + + //---------------------------------------------------------------- + // dump_dut_state() + // + // Dump the state of the dump when needed. + //---------------------------------------------------------------- + task dump_dut_state(); + begin + $display("State of DUT"); + $display("------------"); + $display("Interfaces"); + $display("ready = 0x%01x, next = 0x%01x, keylen = 0x%01x", + dut.ready, dut.next, dut.keylen); + $display("block = 0x%032x", dut.block); + $display("new_block = 0x%032x", dut.new_block); + $display(""); + + $display("Control states"); + $display("round = 0x%01x", dut.round); + $display("enc_ctrl = 0x%01x, update_type = 0x%01x, sword_ctr = 0x%01x, round_ctr = 0x%01x", + dut.enc_ctrl_reg, dut.update_type, dut.sword_ctr_reg, dut.round_ctr_reg); + $display(""); + + $display("Internal data values"); + $display("round_key = 0x%016x", dut.round_key); + $display("sboxw = 0x%08x, new_sboxw = 0x%08x", dut.sboxw, dut.new_sboxw); + $display("block_w0_reg = 0x%08x, block_w1_reg = 0x%08x, block_w2_reg = 0x%08x, block_w3_reg = 0x%08x", + dut.block_w0_reg, dut.block_w1_reg, dut.block_w2_reg, dut.block_w3_reg); + $display(""); + $display("old_block = 0x%08x", dut.round_logic.old_block); + $display("shiftrows_block = 0x%08x", dut.round_logic.shiftrows_block); + $display("mixcolumns_block = 0x%08x", dut.round_logic.mixcolumns_block); + $display("addkey_init_block = 0x%08x", dut.round_logic.addkey_init_block); + $display("addkey_main_block = 0x%08x", dut.round_logic.addkey_main_block); + $display("addkey_final_block = 0x%08x", dut.round_logic.addkey_final_block); + $display("block_w0_new = 0x%08x, block_w1_new = 0x%08x, block_w2_new = 0x%08x, block_w3_new = 0x%08x", + dut.block_new[127 : 096], dut.block_new[095 : 064], + dut.block_new[063 : 032], dut.block_new[031 : 000]); + $display(""); + end + endtask // dump_dut_state + + + //---------------------------------------------------------------- + // reset_dut() + // + // Toggle reset to put the DUT into a well known state. + //---------------------------------------------------------------- + task reset_dut(); + begin + $display("*** Toggle reset."); + tb_reset_n = 0; + #(2 * CLK_PERIOD); + tb_reset_n = 1; + end + endtask // reset_dut + + + //---------------------------------------------------------------- + // init_sim() + // + // Initialize all counters and testbed functionality as well + // as setting the DUT inputs to defined values. + //---------------------------------------------------------------- + task init_sim(); + begin + cycle_ctr = 0; + error_ctr = 0; + tc_ctr = 0; + + tb_clk = 0; + tb_reset_n = 1; + + tb_next = 0; + tb_keylen = 0; + + tb_block = {4{32'h00000000}}; + end + endtask // init_sim + + + //---------------------------------------------------------------- + // display_test_result() + // + // Display the accumulated test results. + //---------------------------------------------------------------- + task display_test_result(); + begin + if (error_ctr == 0) + begin + $display("*** All %02d test cases completed successfully", tc_ctr); + end + else + begin + $display("*** %02d tests completed - %02d test cases did not complete successfully.", + tc_ctr, error_ctr); + end + end + endtask // display_test_result + + + //---------------------------------------------------------------- + // wait_ready() + // + // Wait for the ready flag in the dut to be set. + // + // Note: It is the callers responsibility to call the function + // when the dut is actively processing and will in fact at some + // point set the flag. + //---------------------------------------------------------------- + task wait_ready(); + begin + while (!tb_ready) + begin + #(CLK_PERIOD); + if (DUMP_WAIT) + begin + dump_dut_state(); + end + end + end + endtask // wait_ready + + + //---------------------------------------------------------------- + // test_ecb_enc() + // + // Perform ECB mode encryption test. + //---------------------------------------------------------------- + task test_ecb_enc( + input key_length, + input [127 : 0] block, + input [127 : 0] expected); + begin + $display("*** TC %0d ECB mode test started.", tc_ctr); + + // Init the cipher with the given key and length. + tb_keylen = key_length; + + // Perform encipher operation on the block. + tb_block = block; + tb_next = 1; + #(2 * CLK_PERIOD); + tb_next = 0; + #(2 * CLK_PERIOD); + + wait_ready(); + + if (tb_new_block == expected) + begin + $display("*** TC %0d successful.", tc_ctr); + $display(""); + end + else + begin + $display("*** ERROR: TC %0d NOT successful.", tc_ctr); + $display("Expected: 0x%032x", expected); + $display("Got: 0x%032x", tb_new_block); + $display(""); + + error_ctr = error_ctr + 1; + end + tc_ctr = tc_ctr + 1; + end + endtask // ecb_mode_single_block_test + + + //---------------------------------------------------------------- + // tb_aes_encipher_block + // The main test functionality. + // + // Test cases taken from NIST SP 800-38A: + // http://csrc.nist.gov/publications/nistpubs/800-38a/sp800-38a.pdf + //---------------------------------------------------------------- + initial + begin : tb_aes_encipher_block + reg [127 : 0] nist_plaintext0; + reg [127 : 0] nist_plaintext1; + reg [127 : 0] nist_plaintext2; + reg [127 : 0] nist_plaintext3; + + reg [127 : 0] nist_ecb_128_enc_expected0; + reg [127 : 0] nist_ecb_128_enc_expected1; + reg [127 : 0] nist_ecb_128_enc_expected2; + reg [127 : 0] nist_ecb_128_enc_expected3; + + reg [127 : 0] nist_ecb_256_enc_expected0; + reg [127 : 0] nist_ecb_256_enc_expected1; + reg [127 : 0] nist_ecb_256_enc_expected2; + reg [127 : 0] nist_ecb_256_enc_expected3; + + nist_plaintext0 = 128'h6bc1bee22e409f96e93d7e117393172a; + nist_plaintext1 = 128'hae2d8a571e03ac9c9eb76fac45af8e51; + nist_plaintext2 = 128'h30c81c46a35ce411e5fbc1191a0a52ef; + nist_plaintext3 = 128'hf69f2445df4f9b17ad2b417be66c3710; + + nist_ecb_128_enc_expected0 = 128'h3ad77bb40d7a3660a89ecaf32466ef97; + nist_ecb_128_enc_expected1 = 128'hf5d3d58503b9699de785895a96fdbaaf; + nist_ecb_128_enc_expected2 = 128'h43b1cd7f598ece23881b00e3ed030688; + nist_ecb_128_enc_expected3 = 128'h7b0c785e27e8ad3f8223207104725dd4; + + nist_ecb_256_enc_expected0 = 255'hf3eed1bdb5d2a03c064b5a7e3db181f8; + nist_ecb_256_enc_expected1 = 255'h591ccb10d410ed26dc5ba74a31362870; + nist_ecb_256_enc_expected2 = 255'hb6ed21b99ca6f4f9f153e7b1beafed1d; + nist_ecb_256_enc_expected3 = 255'h23304b7a39f9f3ff067d8d8f9e24ecc7; + + + $display(" -= Testbench for aes encipher block started =-"); + $display(" ============================================"); + $display(""); + + init_sim(); + dump_dut_state(); + reset_dut(); + dump_dut_state(); + + + // NIST 128 bit ECB tests. + key_mem[00] = 128'h2b7e151628aed2a6abf7158809cf4f3c; + key_mem[01] = 128'ha0fafe1788542cb123a339392a6c7605; + key_mem[02] = 128'hf2c295f27a96b9435935807a7359f67f; + key_mem[03] = 128'h3d80477d4716fe3e1e237e446d7a883b; + key_mem[04] = 128'hef44a541a8525b7fb671253bdb0bad00; + key_mem[05] = 128'hd4d1c6f87c839d87caf2b8bc11f915bc; + key_mem[06] = 128'h6d88a37a110b3efddbf98641ca0093fd; + key_mem[07] = 128'h4e54f70e5f5fc9f384a64fb24ea6dc4f; + key_mem[08] = 128'head27321b58dbad2312bf5607f8d292f; + key_mem[09] = 128'hac7766f319fadc2128d12941575c006e; + key_mem[10] = 128'hd014f9a8c9ee2589e13f0cc8b6630ca6; + key_mem[11] = 128'h00000000000000000000000000000000; + key_mem[12] = 128'h00000000000000000000000000000000; + key_mem[13] = 128'h00000000000000000000000000000000; + key_mem[14] = 128'h00000000000000000000000000000000; + + test_ecb_enc(AES_128_BIT_KEY, nist_plaintext0, nist_ecb_128_enc_expected0); + test_ecb_enc(AES_128_BIT_KEY, nist_plaintext1, nist_ecb_128_enc_expected1); + test_ecb_enc(AES_128_BIT_KEY, nist_plaintext2, nist_ecb_128_enc_expected2); + test_ecb_enc(AES_128_BIT_KEY, nist_plaintext3, nist_ecb_128_enc_expected3); + + + // NIST 256 bit ECB tests. + key_mem[00] = 128'h603deb1015ca71be2b73aef0857d7781; + key_mem[01] = 128'h1f352c073b6108d72d9810a30914dff4; + key_mem[02] = 128'h9ba354118e6925afa51a8b5f2067fcde; + key_mem[03] = 128'ha8b09c1a93d194cdbe49846eb75d5b9a; + key_mem[04] = 128'hd59aecb85bf3c917fee94248de8ebe96; + key_mem[05] = 128'hb5a9328a2678a647983122292f6c79b3; + key_mem[06] = 128'h812c81addadf48ba24360af2fab8b464; + key_mem[07] = 128'h98c5bfc9bebd198e268c3ba709e04214; + key_mem[08] = 128'h68007bacb2df331696e939e46c518d80; + key_mem[09] = 128'hc814e20476a9fb8a5025c02d59c58239; + key_mem[10] = 128'hde1369676ccc5a71fa2563959674ee15; + key_mem[11] = 128'h5886ca5d2e2f31d77e0af1fa27cf73c3; + key_mem[12] = 128'h749c47ab18501ddae2757e4f7401905a; + key_mem[13] = 128'hcafaaae3e4d59b349adf6acebd10190d; + key_mem[14] = 128'hfe4890d1e6188d0b046df344706c631e; + + test_ecb_enc(AES_256_BIT_KEY, nist_plaintext0, nist_ecb_256_enc_expected0); + test_ecb_enc(AES_256_BIT_KEY, nist_plaintext1, nist_ecb_256_enc_expected1); + test_ecb_enc(AES_256_BIT_KEY, nist_plaintext2, nist_ecb_256_enc_expected2); + test_ecb_enc(AES_256_BIT_KEY, nist_plaintext3, nist_ecb_256_enc_expected3); + + + display_test_result(); + $display(""); + $display("*** AES encipher block module simulation done. ***"); + $finish; + end // aes_core_test +endmodule // tb_aes_encipher_block + +//====================================================================== +// EOF tb_aes_encipher_block.v +//====================================================================== diff --git a/src/tb/tb_aes_key_mem.v b/src/tb/tb_aes_key_mem.v new file mode 100644 index 0000000..748ae3f --- /dev/null +++ b/src/tb/tb_aes_key_mem.v @@ -0,0 +1,655 @@ +//====================================================================== +// +// tb_aes_key_mem.v +// ---------------- +// Testbench for the AES key memory module. +// +// +// Author: Joachim Strombergson +// Copyright (c) 2014, SUNET +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or +// without modification, are permitted provided that the following +// conditions are met: +// +// 1. Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// +// 2. Redistributions in binary form must reproduce the above copyright +// notice, this list of conditions and the following disclaimer in +// the documentation and/or other materials provided with the +// distribution. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS +// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE +// COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, +// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, +// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, +// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF +// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +// +//====================================================================== + +//------------------------------------------------------------------ +// Simulator directives. +//------------------------------------------------------------------ +`timescale 1ns/100ps + + +//------------------------------------------------------------------ +// Test module. +//------------------------------------------------------------------ +module tb_aes_key_mem(); + + //---------------------------------------------------------------- + // Internal constant and parameter definitions. + //---------------------------------------------------------------- + parameter DEBUG = 1; + parameter SHOW_SBOX = 0; + + parameter CLK_HALF_PERIOD = 1; + parameter CLK_PERIOD = 2 * CLK_HALF_PERIOD; + + parameter AES_128_BIT_KEY = 0; + parameter AES_256_BIT_KEY = 1; + + parameter AES_128_NUM_ROUNDS = 10; + parameter AES_192_NUM_ROUNDS = 12; + parameter AES_256_NUM_ROUNDS = 14; + + parameter AES_DECIPHER = 1'b0; + parameter AES_ENCIPHER = 1'b1; + + + //---------------------------------------------------------------- + // Register and Wire declarations. + //---------------------------------------------------------------- + reg [31 : 0] cycle_ctr; + reg [31 : 0] error_ctr; + reg [31 : 0] tc_ctr; + + reg tb_clk; + reg tb_reset_n; + reg [255 : 0] tb_key; + reg tb_keylen; + reg tb_init; + reg [3 : 0] tb_round; + wire [127 : 0] tb_round_key; + wire tb_ready; + + wire [31 : 0] tb_sboxw; + wire [31 : 0] tb_new_sboxw; + + + //---------------------------------------------------------------- + // Device Under Test. + //---------------------------------------------------------------- + aes_key_mem dut( + .clk(tb_clk), + .reset_n(tb_reset_n), + + .key(tb_key), + .keylen(tb_keylen), + .init(tb_init), + + .round(tb_round), + .round_key(tb_round_key), + .ready(tb_ready), + + .sboxw(tb_sboxw), + .new_sboxw(tb_new_sboxw) + ); + + // The DUT requirees Sboxes. + aes_sbox sbox(.sboxw(tb_sboxw), .new_sboxw(tb_new_sboxw)); + + + //---------------------------------------------------------------- + // clk_gen + // + // Always running clock generator process. + //---------------------------------------------------------------- + always + begin : clk_gen + #CLK_HALF_PERIOD; + tb_clk = !tb_clk; + end // clk_gen + + + //---------------------------------------------------------------- + // sys_monitor() + // + // An always running process that creates a cycle counter and + // conditionally displays information about the DUT. + //---------------------------------------------------------------- + always + begin : sys_monitor + cycle_ctr = cycle_ctr + 1; + #(CLK_PERIOD); + if (DEBUG) + begin + dump_dut_state(); + end + end + + + //---------------------------------------------------------------- + // dump_dut_state() + // + // Dump the state of the dump when needed. + //---------------------------------------------------------------- + task dump_dut_state(); + begin + $display("State of DUT"); + $display("------------"); + $display("Inputs and outputs:"); + $display("key = 0x%032x", dut.key); + $display("keylen = 0x%01x, init = 0x%01x, ready = 0x%01x", + dut.keylen, dut.init, dut.ready); + $display("round = 0x%02x", dut.round); + $display("round_key = 0x%016x", dut.round_key); + $display(""); + + $display("Internal states:"); + $display("key_mem_ctrl = 0x%01x, round_key_update = 0x%01x, round_ctr_reg = 0x%01x, rcon_reg = 0x%01x", + dut.key_mem_ctrl_reg, dut.round_key_update, dut.round_ctr_reg, dut.rcon_reg); + + $display("prev_key0_reg = 0x%016x, prev_key0_new = 0x%016x, prev_key0_we = 0x%01x", + dut.prev_key0_reg, dut.prev_key0_new, dut.prev_key0_we); + $display("prev_key1_reg = 0x%016x, prev_key1_new = 0x%016x, prev_key1_we = 0x%01x", + dut.prev_key1_reg, dut.prev_key1_new, dut.prev_key1_we); + + $display("w0 = 0x%04x, w1 = 0x%04x, w2 = 0x%04x, w3 = 0x%04x", + dut.round_key_gen.w0, dut.round_key_gen.w1, + dut.round_key_gen.w2, dut.round_key_gen.w3); + $display("w4 = 0x%04x, w5 = 0x%04x, w6 = 0x%04x, w7 = 0x%04x", + dut.round_key_gen.w4, dut.round_key_gen.w5, + dut.round_key_gen.w6, dut.round_key_gen.w7); + $display("sboxw = 0x%04x, new_sboxw = 0x%04x, rconw = 0x%04x", + dut.sboxw, dut.new_sboxw, dut.round_key_gen.rconw); + $display("tw = 0x%04x, trw = 0x%04x", dut.round_key_gen.tw, dut.round_key_gen.trw); + $display("key_mem_new = 0x%016x, key_mem_we = 0x%01x", + dut.key_mem_new, dut.key_mem_we); + $display(""); + + if (SHOW_SBOX) + begin + $display("Sbox functionality:"); + $display("sboxw = 0x%08x", sbox.sboxw); + $display("tmp_new_sbox0 = 0x%02x, tmp_new_sbox1 = 0x%02x, tmp_new_sbox2 = 0x%02x, tmp_new_sbox3", + sbox.tmp_new_sbox0, sbox.tmp_new_sbox1, sbox.tmp_new_sbox2, sbox.tmp_new_sbox3); + $display("new_sboxw = 0x%08x", sbox.new_sboxw); + $display(""); + end + end + endtask // dump_dut_state + + + //---------------------------------------------------------------- + // reset_dut() + // + // Toggle reset to put the DUT into a well known state. + //---------------------------------------------------------------- + task reset_dut(); + begin + $display("*** Toggle reset."); + tb_reset_n = 0; + #(2 * CLK_PERIOD); + tb_reset_n = 1; + end + endtask // reset_dut + + + //---------------------------------------------------------------- + // init_sim() + // + // Initialize all counters and testbed functionality as well + // as setting the DUT inputs to defined values. + //---------------------------------------------------------------- + task init_sim(); + begin + cycle_ctr = 0; + error_ctr = 0; + tc_ctr = 0; + + tb_clk = 0; + tb_reset_n = 1; + tb_key = {8{32'h00000000}}; + tb_keylen = 0; + tb_init = 0; + tb_round = 4'h0; + end + endtask // init_sim + + + //---------------------------------------------------------------- + // wait_ready() + // + // Wait for the ready flag in the dut to be set. + // + // Note: It is the callers responsibility to call the function + // when the dut is actively processing and will in fact at some + // point set the flag. + //---------------------------------------------------------------- + task wait_ready(); + begin + while (!tb_ready) + begin + #(CLK_PERIOD); + end + end + endtask // wait_ready + + + //---------------------------------------------------------------- + // check_key() + // + // Check a given key in the dut key memory against a given + // expected key. + //---------------------------------------------------------------- + task check_key(input [3 : 0] key_nr, input [127 : 0] expected); + begin + tb_round = key_nr; + #(CLK_PERIOD); + if (tb_round_key == expected) + begin + $display("** key 0x%01x matched expected round key.", key_nr); + $display("** Got: 0x%016x **", tb_round_key); + end + else + begin + $display("** Error: key 0x%01x did not match expected round key. **", key_nr); + $display("** Expected: 0x%016x **", expected); + $display("** Got: 0x%016x **", tb_round_key); + error_ctr = error_ctr + 1; + end + $display(""); + end + endtask // check_key + + + //---------------------------------------------------------------- + // test_key_128() + // + // Test 128 bit keys. Due to array problems, the result check + // is fairly ugly. + //---------------------------------------------------------------- + task test_key_128(input [255 : 0] key, + input [127 : 0] expected00, + input [127 : 0] expected01, + input [127 : 0] expected02, + input [127 : 0] expected03, + input [127 : 0] expected04, + input [127 : 0] expected05, + input [127 : 0] expected06, + input [127 : 0] expected07, + input [127 : 0] expected08, + input [127 : 0] expected09, + input [127 : 0] expected10 + ); + begin + $display("** Testing with 128-bit key 0x%16x", key[255 : 128]); + $display(""); + + tb_key = key; + tb_keylen = AES_128_BIT_KEY; + tb_init = 1; + #(2 * CLK_PERIOD); + tb_init = 0; + wait_ready(); + + check_key(4'h0, expected00); + check_key(4'h1, expected01); + check_key(4'h2, expected02); + check_key(4'h3, expected03); + check_key(4'h4, expected04); + check_key(4'h5, expected05); + check_key(4'h6, expected06); + check_key(4'h7, expected07); + check_key(4'h8, expected08); + check_key(4'h9, expected09); + check_key(4'ha, expected10); + + tc_ctr = tc_ctr + 1; + end + endtask // test_key_128 + + + //---------------------------------------------------------------- + // test_key_256() + // + // Test 256 bit keys. Due to array problems, the result check + // is fairly ugly. + //---------------------------------------------------------------- + task test_key_256(input [255 : 0] key, + input [127 : 0] expected00, + input [127 : 0] expected01, + input [127 : 0] expected02, + input [127 : 0] expected03, + input [127 : 0] expected04, + input [127 : 0] expected05, + input [127 : 0] expected06, + input [127 : 0] expected07, + input [127 : 0] expected08, + input [127 : 0] expected09, + input [127 : 0] expected10, + input [127 : 0] expected11, + input [127 : 0] expected12, + input [127 : 0] expected13, + input [127 : 0] expected14 + ); + begin + $display("** Testing with 256-bit key 0x%32x", key[255 : 000]); + $display(""); + + tb_key = key; + tb_keylen = AES_256_BIT_KEY; + tb_init = 1; + #(2 * CLK_PERIOD); + tb_init = 0; + + wait_ready(); + + check_key(4'h0, expected00); + check_key(4'h1, expected01); + check_key(4'h2, expected02); + check_key(4'h3, expected03); + check_key(4'h4, expected04); + check_key(4'h5, expected05); + check_key(4'h6, expected06); + check_key(4'h7, expected07); + check_key(4'h8, expected08); + check_key(4'h9, expected09); + check_key(4'ha, expected10); + check_key(4'hb, expected11); + check_key(4'hc, expected12); + check_key(4'hd, expected13); + check_key(4'he, expected14); + + tc_ctr = tc_ctr + 1; + end + endtask // test_key_256 + + + //---------------------------------------------------------------- + // display_test_result() + // + // Display the accumulated test results. + //---------------------------------------------------------------- + task display_test_result(); + begin + if (error_ctr == 0) + begin + $display("*** All %02d test cases completed successfully", tc_ctr); + end + else + begin + $display("*** %02d tests completed - %02d test cases did not complete successfully.", + tc_ctr, error_ctr); + end + end + endtask // display_test_result + + + //---------------------------------------------------------------- + // aes_key_mem_test + // The main test functionality. + //---------------------------------------------------------------- + initial + begin : aes_key_mem_test + reg [255 : 0] key128_0; + reg [255 : 0] key128_1; + reg [255 : 0] key128_2; + reg [255 : 0] key128_3; + reg [255 : 0] nist_key128; + reg [255 : 0] key256_0; + reg [255 : 0] key256_1; + reg [255 : 0] key256_2; + reg [255 : 0] nist_key256; + + reg [127 : 0] expected_00; + reg [127 : 0] expected_01; + reg [127 : 0] expected_02; + reg [127 : 0] expected_03; + reg [127 : 0] expected_04; + reg [127 : 0] expected_05; + reg [127 : 0] expected_06; + reg [127 : 0] expected_07; + reg [127 : 0] expected_08; + reg [127 : 0] expected_09; + reg [127 : 0] expected_10; + reg [127 : 0] expected_11; + reg [127 : 0] expected_12; + reg [127 : 0] expected_13; + reg [127 : 0] expected_14; + + $display(" -= Testbench for aes key mem started =-"); + $display(" ====================================="); + $display(""); + + init_sim(); + dump_dut_state(); + reset_dut(); + + $display("State after reset:"); + dump_dut_state(); + $display(""); + + #(100 *CLK_PERIOD); + + // AES-128 test case 1 key and expected values. + key128_0 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + expected_00 = 128'h00000000000000000000000000000000; + expected_01 = 128'h62636363626363636263636362636363; + expected_02 = 128'h9b9898c9f9fbfbaa9b9898c9f9fbfbaa; + expected_03 = 128'h90973450696ccffaf2f457330b0fac99; + expected_04 = 128'hee06da7b876a1581759e42b27e91ee2b; + expected_05 = 128'h7f2e2b88f8443e098dda7cbbf34b9290; + expected_06 = 128'hec614b851425758c99ff09376ab49ba7; + expected_07 = 128'h217517873550620bacaf6b3cc61bf09b; + expected_08 = 128'h0ef903333ba9613897060a04511dfa9f; + expected_09 = 128'hb1d4d8e28a7db9da1d7bb3de4c664941; + expected_10 = 128'hb4ef5bcb3e92e21123e951cf6f8f188e; + + test_key_128(key128_0, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10); + + + // AES-128 test case 2 key and expected values. + key128_1 = 256'hffffffffffffffffffffffffffffffff00000000000000000000000000000000; + expected_00 = 128'hffffffffffffffffffffffffffffffff; + expected_01 = 128'he8e9e9e917161616e8e9e9e917161616; + expected_02 = 128'hadaeae19bab8b80f525151e6454747f0; + expected_03 = 128'h090e2277b3b69a78e1e7cb9ea4a08c6e; + expected_04 = 128'he16abd3e52dc2746b33becd8179b60b6; + expected_05 = 128'he5baf3ceb766d488045d385013c658e6; + expected_06 = 128'h71d07db3c6b6a93bc2eb916bd12dc98d; + expected_07 = 128'he90d208d2fbb89b6ed5018dd3c7dd150; + expected_08 = 128'h96337366b988fad054d8e20d68a5335d; + expected_09 = 128'h8bf03f233278c5f366a027fe0e0514a3; + expected_10 = 128'hd60a3588e472f07b82d2d7858cd7c326; + + test_key_128(key128_1, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10); + + + // AES-128 test case 3 key and expected values. + key128_2 = 256'h000102030405060708090a0b0c0d0e0f00000000000000000000000000000000; + expected_00 = 128'h000102030405060708090a0b0c0d0e0f; + expected_01 = 128'hd6aa74fdd2af72fadaa678f1d6ab76fe; + expected_02 = 128'hb692cf0b643dbdf1be9bc5006830b3fe; + expected_03 = 128'hb6ff744ed2c2c9bf6c590cbf0469bf41; + expected_04 = 128'h47f7f7bc95353e03f96c32bcfd058dfd; + expected_05 = 128'h3caaa3e8a99f9deb50f3af57adf622aa; + expected_06 = 128'h5e390f7df7a69296a7553dc10aa31f6b; + expected_07 = 128'h14f9701ae35fe28c440adf4d4ea9c026; + expected_08 = 128'h47438735a41c65b9e016baf4aebf7ad2; + expected_09 = 128'h549932d1f08557681093ed9cbe2c974e; + expected_10 = 128'h13111d7fe3944a17f307a78b4d2b30c5; + + test_key_128(key128_2, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10); + + + // AES-128 test case 4 key and expected values. + key128_3 = 256'h6920e299a5202a6d656e636869746f2a00000000000000000000000000000000; + expected_00 = 128'h6920e299a5202a6d656e636869746f2a; + expected_01 = 128'hfa8807605fa82d0d3ac64e6553b2214f; + expected_02 = 128'hcf75838d90ddae80aa1be0e5f9a9c1aa; + expected_03 = 128'h180d2f1488d0819422cb6171db62a0db; + expected_04 = 128'hbaed96ad323d173910f67648cb94d693; + expected_05 = 128'h881b4ab2ba265d8baad02bc36144fd50; + expected_06 = 128'hb34f195d096944d6a3b96f15c2fd9245; + expected_07 = 128'ha7007778ae6933ae0dd05cbbcf2dcefe; + expected_08 = 128'hff8bccf251e2ff5c5c32a3e7931f6d19; + expected_09 = 128'h24b7182e7555e77229674495ba78298c; + expected_10 = 128'hae127cdadb479ba8f220df3d4858f6b1; + + test_key_128(key128_3, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10); + + + // NIST AES-128 test case. + nist_key128 = 256'h2b7e151628aed2a6abf7158809cf4f3c00000000000000000000000000000000; + expected_00 = 128'h2b7e151628aed2a6abf7158809cf4f3c; + expected_01 = 128'ha0fafe1788542cb123a339392a6c7605; + expected_02 = 128'hf2c295f27a96b9435935807a7359f67f; + expected_03 = 128'h3d80477d4716fe3e1e237e446d7a883b; + expected_04 = 128'hef44a541a8525b7fb671253bdb0bad00; + expected_05 = 128'hd4d1c6f87c839d87caf2b8bc11f915bc; + expected_06 = 128'h6d88a37a110b3efddbf98641ca0093fd; + expected_07 = 128'h4e54f70e5f5fc9f384a64fb24ea6dc4f; + expected_08 = 128'head27321b58dbad2312bf5607f8d292f; + expected_09 = 128'hac7766f319fadc2128d12941575c006e; + expected_10 = 128'hd014f9a8c9ee2589e13f0cc8b6630ca6; + + $display("Testing the NIST AES-128 key."); + test_key_128(nist_key128, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10); + + + // AES-256 test case 1 key and expected values. + key256_0 = 256'h000000000000000000000000000000000000000000000000000000000000000; + expected_00 = 128'h00000000000000000000000000000000; + expected_01 = 128'h00000000000000000000000000000000; + expected_02 = 128'h62636363626363636263636362636363; + expected_03 = 128'haafbfbfbaafbfbfbaafbfbfbaafbfbfb; + expected_04 = 128'h6f6c6ccf0d0f0fac6f6c6ccf0d0f0fac; + expected_05 = 128'h7d8d8d6ad77676917d8d8d6ad7767691; + expected_06 = 128'h5354edc15e5be26d31378ea23c38810e; + expected_07 = 128'h968a81c141fcf7503c717a3aeb070cab; + expected_08 = 128'h9eaa8f28c0f16d45f1c6e3e7cdfe62e9; + expected_09 = 128'h2b312bdf6acddc8f56bca6b5bdbbaa1e; + expected_10 = 128'h6406fd52a4f79017553173f098cf1119; + expected_11 = 128'h6dbba90b0776758451cad331ec71792f; + expected_12 = 128'he7b0e89c4347788b16760b7b8eb91a62; + expected_13 = 128'h74ed0ba1739b7e252251ad14ce20d43b; + expected_14 = 128'h10f80a1753bf729c45c979e7cb706385; + + test_key_256(key256_0, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10, expected_11, + expected_12, expected_13, expected_14); + + + // AES-256 test case 2 key and expected values. + key256_1 = 256'hffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff; + expected_00 = 128'hffffffffffffffffffffffffffffffff; + expected_01 = 128'hffffffffffffffffffffffffffffffff; + expected_02 = 128'he8e9e9e917161616e8e9e9e917161616; + expected_03 = 128'h0fb8b8b8f04747470fb8b8b8f0474747; + expected_04 = 128'h4a4949655d5f5f73b5b6b69aa2a0a08c; + expected_05 = 128'h355858dcc51f1f9bcaa7a7233ae0e064; + expected_06 = 128'hafa80ae5f2f755964741e30ce5e14380; + expected_07 = 128'heca0421129bf5d8ae318faa9d9f81acd; + expected_08 = 128'he60ab7d014fde24653bc014ab65d42ca; + expected_09 = 128'ha2ec6e658b5333ef684bc946b1b3d38b; + expected_10 = 128'h9b6c8a188f91685edc2d69146a702bde; + expected_11 = 128'ha0bd9f782beeac9743a565d1f216b65a; + expected_12 = 128'hfc22349173b35ccfaf9e35dbc5ee1e05; + expected_13 = 128'h0695ed132d7b41846ede24559cc8920f; + expected_14 = 128'h546d424f27de1e8088402b5b4dae355e; + + test_key_256(key256_1, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10, expected_11, + expected_12, expected_13, expected_14); + + + // AES-256 test case 3 key and expected values. + key256_2 = 256'h000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f; + expected_00 = 128'h000102030405060708090a0b0c0d0e0f; + expected_01 = 128'h101112131415161718191a1b1c1d1e1f; + expected_02 = 128'ha573c29fa176c498a97fce93a572c09c; + expected_03 = 128'h1651a8cd0244beda1a5da4c10640bade; + expected_04 = 128'hae87dff00ff11b68a68ed5fb03fc1567; + expected_05 = 128'h6de1f1486fa54f9275f8eb5373b8518d; + expected_06 = 128'hc656827fc9a799176f294cec6cd5598b; + expected_07 = 128'h3de23a75524775e727bf9eb45407cf39; + expected_08 = 128'h0bdc905fc27b0948ad5245a4c1871c2f; + expected_09 = 128'h45f5a66017b2d387300d4d33640a820a; + expected_10 = 128'h7ccff71cbeb4fe5413e6bbf0d261a7df; + expected_11 = 128'hf01afafee7a82979d7a5644ab3afe640; + expected_12 = 128'h2541fe719bf500258813bbd55a721c0a; + expected_13 = 128'h4e5a6699a9f24fe07e572baacdf8cdea; + expected_14 = 128'h24fc79ccbf0979e9371ac23c6d68de36; + + test_key_256(key256_2, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10, expected_11, + expected_12, expected_13, expected_14); + + + nist_key256 = 256'h603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4; + expected_00 = 128'h603deb1015ca71be2b73aef0857d7781; + expected_01 = 128'h1f352c073b6108d72d9810a30914dff4; + expected_02 = 128'h9ba354118e6925afa51a8b5f2067fcde; + expected_03 = 128'ha8b09c1a93d194cdbe49846eb75d5b9a; + expected_04 = 128'hd59aecb85bf3c917fee94248de8ebe96; + expected_05 = 128'hb5a9328a2678a647983122292f6c79b3; + expected_06 = 128'h812c81addadf48ba24360af2fab8b464; + expected_07 = 128'h98c5bfc9bebd198e268c3ba709e04214; + expected_08 = 128'h68007bacb2df331696e939e46c518d80; + expected_09 = 128'hc814e20476a9fb8a5025c02d59c58239; + expected_10 = 128'hde1369676ccc5a71fa2563959674ee15; + expected_11 = 128'h5886ca5d2e2f31d77e0af1fa27cf73c3; + expected_12 = 128'h749c47ab18501ddae2757e4f7401905a; + expected_13 = 128'hcafaaae3e4d59b349adf6acebd10190d; + expected_14 = 128'hfe4890d1e6188d0b046df344706c631e; + + test_key_256(nist_key256, + expected_00, expected_01, expected_02, expected_03, + expected_04, expected_05, expected_06, expected_07, + expected_08, expected_09, expected_10, expected_11, + expected_12, expected_13, expected_14); + + + display_test_result(); + $display(""); + $display("*** AES core simulation done. ***"); + $finish; + end // aes_key_mem_test +endmodule // tb_aes_key_mem + +//====================================================================== +// EOF tb_aes_key_mem.v +//====================================================================== -- cgit v1.2.3