//======================================================================
//
// tb_sha512.v
// -----------
// Testbench for the SHA-512 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/10ps
//------------------------------------------------------------------
// Test module.
//------------------------------------------------------------------
module tb_sha512();
//----------------------------------------------------------------
// Internal constant and parameter definitions.
//----------------------------------------------------------------
parameter DEBUG = 0;
parameter CLK_PERIOD = 2;
parameter CLK_HALF_PERIOD = CLK_PERIOD / 2;
// The 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_MODE_LOW_BIT = 2;
parameter CTRL_MODE_HIGH_BIT = 3;
parameter CTRL_WORK_FACTOR_BIT = 7;
parameter ADDR_STATUS = 8'h09;
parameter STATUS_READY_BIT = 0;
parameter STATUS_VALID_BIT = 1;
parameter ADDR_WORK_FACTOR_NUM = 8'h0a;
parameter ADDR_BLOCK0 = 8'h10;
parameter ADDR_BLOCK1 = 8'h11;
parameter ADDR_BLOCK2 = 8'h12;
parameter ADDR_BLOCK3 = 8'h13;
parameter ADDR_BLOCK4 = 8'h14;
parameter ADDR_BLOCK5 = 8'h15;
parameter ADDR_BLOCK6 = 8'h16;
parameter ADDR_BLOCK7 = 8'h17;
parameter ADDR_BLOCK8 = 8'h18;
parameter ADDR_BLOCK9 = 8'h19;
parameter ADDR_BLOCK10 = 8'h1a;
parameter ADDR_BLOCK11 = 8'h1b;
parameter ADDR_BLOCK12 = 8'h1c;
parameter ADDR_BLOCK13 = 8'h1d;
parameter ADDR_BLOCK14 = 8'h1e;
parameter ADDR_BLOCK15 = 8'h1f;
parameter ADDR_BLOCK16 = 8'h20;
parameter ADDR_BLOCK17 = 8'h21;
parameter ADDR_BLOCK18 = 8'h22;
parameter ADDR_BLOCK19 = 8'h23;
parameter ADDR_BLOCK20 = 8'h24;
parameter ADDR_BLOCK21 = 8'h25;
parameter ADDR_BLOCK22 = 8'h26;
parameter ADDR_BLOCK23 = 8'h27;
parameter ADDR_BLOCK24 = 8'h28;
parameter ADDR_BLOCK25 = 8'h29;
parameter ADDR_BLOCK26 = 8'h2a;
parameter ADDR_BLOCK27 = 8'h2b;
parameter ADDR_BLOCK28 = 8'h2c;
parameter ADDR_BLOCK29 = 8'h2d;
parameter ADDR_BLOCK30 = 8'h2e;
parameter ADDR_BLOCK31 = 8'h2f;
parameter ADDR_DIGEST0 = 8'h40;
parameter ADDR_DIGEST1 = 8'h41;
parameter ADDR_DIGEST2 = 8'h42;
parameter ADDR_DIGEST3 = 8'h43;
parameter ADDR_DIGEST4 = 8'h44;
parameter ADDR_DIGEST5 = 8'h45;
parameter ADDR_DIGEST6 = 8'h46;
parameter ADDR_DIGEST7 = 8'h47;
parameter ADDR_DIGEST8 = 8'h48;
parameter ADDR_DIGEST9 = 8'h49;
parameter ADDR_DIGEST10 = 8'h4a;
parameter ADDR_DIGEST11 = 8'h4b;
parameter ADDR_DIGEST12 = 8'h4c;
parameter ADDR_DIGEST13 = 8'h4d;
parameter ADDR_DIGEST14 = 8'h4e;
parameter ADDR_DIGEST15 = 8'h4f;
parameter MODE_SHA_512_224 = 2'h0;
parameter MODE_SHA_512_256 = 2'h1;
parameter MODE_SHA_384 = 2'h2;
parameter MODE_SHA_512 = 2'h3;
parameter CTRL_INIT_VALUE = 2'h1;
parameter CTRL_NEXT_VALUE = 2'h2;
parameter CTRL_WORK_FACTOR_VALUE = 1'h1;
//----------------------------------------------------------------
// 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_cs;
reg tb_we;
reg [7 : 0] tb_address;
reg [31 : 0] tb_write_data;
wire [31 : 0] tb_read_data;
wire tb_error;
reg [31 : 0] read_data;
reg [511 : 0] digest_data;
//----------------------------------------------------------------
// Device Under Test.
//----------------------------------------------------------------
sha512 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)
);
//----------------------------------------------------------------
// clk_gen
//
// Clock generator process.
//----------------------------------------------------------------
always
begin : clk_gen
#CLK_HALF_PERIOD tb_clk = !tb_clk;
end // clk_gen
//----------------------------------------------------------------
// sys_monitor
//
// Generates a cycle counter and displays information about
// the dut as needed.
//----------------------------------------------------------------
always
begin : sys_monitor
#(2 * CLK_HALF_PERIOD);
cycle_ctr = cycle_ctr + 1;
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("cs = 0x%01x, we = 0x%01x",
dut.cs, dut.we);
$display("address = 0x%02x", dut.address);
$display("write_data = 0x%08x, read_data = 0x%08x",
dut.write_data, dut.read_data);
$display("tmp_read_data = 0x%08x", dut.tmp_read_data);
$display("");
$display("Control and status:");
$display("ctrl = 0x%02x, status = 0x%02x",
{dut.next_reg, dut.init_reg},
{dut.digest_valid_reg, dut.ready_reg});
$display("");
$display("Message block:");
$display("block0 = 0x%08x, block1 = 0x%08x, block2 = 0x%08x, block3 = 0x%08x",
dut.block0_reg, dut.block1_reg, dut.block2_reg, dut.block3_reg);
$display("block4 = 0x%08x, block5 = 0x%08x, block6 = 0x%08x, block7 = 0x%08x",
dut.block4_reg, dut.block5_reg, dut.block6_reg, dut.block7_reg);
$display("block8 = 0x%08x, block9 = 0x%08x, block10 = 0x%08x, block11 = 0x%08x",
dut.block8_reg, dut.block9_reg, dut.block10_reg, dut.block11_reg);
$display("block12 = 0x%08x, block13 = 0x%08x, block14 = 0x%08x, block15 = 0x%08x",
dut.block12_reg, dut.block13_reg, dut.block14_reg, dut.block15_reg);
$display("block16 = 0x%08x, block17 = 0x%08x, block18 = 0x%08x, block19 = 0x%08x",
dut.block16_reg, dut.block17_reg, dut.block18_reg, dut.block19_reg);
$display("block20 = 0x%08x, block21 = 0x%08x, block22 = 0x%08x, block23 = 0x%08x",
dut.block20_reg, dut.block21_reg, dut.block22_reg, dut.block23_reg);
$display("block24 = 0x%08x, block25 = 0x%08x, block26 = 0x%08x, block27 = 0x%08x",
dut.block24_reg, dut.block25_reg, dut.block26_reg, dut.block27_reg);
$display("block28 = 0x%08x, block29 = 0x%08x, block30 = 0x%08x, block31 = 0x%08x",
dut.block28_reg, dut.block29_reg, dut.block30_reg, dut.block31_reg);
$display("");
$display("Digest:");
$display("digest = 0x%0128x", dut.digest_reg);
$display("");
end
endtask // dump_dut_state
//----------------------------------------------------------------
// reset_dut()
//
// Toggles reset to force the DUT into a well defined state.
//----------------------------------------------------------------
task reset_dut();
begin
$display("*** Toggle reset.");
tb_reset_n = 0;
#(4 * CLK_HALF_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 = 32'h00000000;
error_ctr = 32'h00000000;
tc_ctr = 32'h00000000;
tb_clk = 0;
tb_reset_n = 0;
tb_cs = 0;
tb_we = 0;
tb_address = 6'h00;
tb_write_data = 32'h00000000;
end
endtask // init_dut
//----------------------------------------------------------------
// 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 test cases completed.", tc_ctr);
$display("*** %02d errors detected during testing.", error_ctr);
end
end
endtask // display_test_result
//----------------------------------------------------------------
// wait_ready()
//
// Wait for the ready flag in the dut to be set.
// (Actually we wait for either ready or valid 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
read_data = 0;
while (read_data == 0)
begin
read_word(ADDR_STATUS);
end
end
endtask // wait_ready
//----------------------------------------------------------------
// write_word()
//
// Write the given word to the DUT using the DUT interface.
//----------------------------------------------------------------
task write_word(input [7 : 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_HALF_PERIOD);
tb_cs = 0;
tb_we = 0;
end
endtask // write_word
//----------------------------------------------------------------
// write_block()
//
// Write the given block to the dut.
//----------------------------------------------------------------
task write_block(input [1023 : 0] block);
begin
write_word(ADDR_BLOCK0, block[1023 : 992]);
write_word(ADDR_BLOCK1, block[991 : 960]);
write_word(ADDR_BLOCK2, block[959 : 928]);
write_word(ADDR_BLOCK3, block[927 : 896]);
write_word(ADDR_BLOCK4, block[895 : 864]);
write_word(ADDR_BLOCK5, block[863 : 832]);
write_word(ADDR_BLOCK6, block[831 : 800]);
write_word(ADDR_BLOCK7, block[799 : 768]);
write_word(ADDR_BLOCK8, block[767 : 736]);
write_word(ADDR_BLOCK9, block[735 : 704]);
write_word(ADDR_BLOCK10, block[703 : 672]);
write_word(ADDR_BLOCK11, block[671 : 640]);
write_word(ADDR_BLOCK12, block[639 : 608]);
write_word(ADDR_BLOCK13, block[607 : 576]);
write_word(ADDR_BLOCK14, block[575 : 544]);
write_word(ADDR_BLOCK15, block[543 : 512]);
write_word(ADDR_BLOCK16, block[511 : 480]);
write_word(ADDR_BLOCK17, block[479 : 448]);
write_word(ADDR_BLOCK18, block[447 : 416]);
write_word(ADDR_BLOCK19, block[415 : 384]);
write_word(ADDR_BLOCK20, block[383 : 352]);
write_word(ADDR_BLOCK21, block[351 : 320]);
write_word(ADDR_BLOCK22, block[319 : 288]);
write_word(ADDR_BLOCK23, block[287 : 256]);
write_word(ADDR_BLOCK24, block[255 : 224]);
write_word(ADDR_BLOCK25, block[223 : 192]);
write_word(ADDR_BLOCK26, block[191 : 160]);
write_word(ADDR_BLOCK27, block[159 : 128]);
write_word(ADDR_BLOCK28, block[127 : 96]);
write_word(ADDR_BLOCK29, block[95 : 64]);
write_word(ADDR_BLOCK30, block[63 : 32]);
write_word(ADDR_BLOCK31, 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 [7 : 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
//----------------------------------------------------------------
// check_name_version()
//
// Read the name and version from the DUT.
//----------------------------------------------------------------
task check_name_version();
reg [31 : 0] name0;
reg [31 : 0] name1;
reg [31 : 0] version;
begin
read_word(ADDR_NAME0);
name0 = read_data;
read_word(ADDR_NAME1);
name1 = read_data;
read_word(ADDR_VERSION);
version = read_data;
$display("DUT name: %c%c%c%c%c%c%c%c",
name0[31 : 24], name0[23 : 16], name0[15 : 8], name0[7 : 0],
name1[31 : 24], name1[23 : 16], name1[15 : 8], name1[7 : 0]);
$display("DUT version: %c%c%c%c",
version[31 : 24], version[23 : 16], version[15 : 8], version[7 : 0]);
end
endtask // check_name_version
//----------------------------------------------------------------
// read_digest()
//
// Read the digest in the dut. The resulting digest will be
// available in the global variable digest_data.
//----------------------------------------------------------------
task read_digest();
begin
read_word(ADDR_DIGEST0);
digest_data[511 : 480] = read_data;
read_word(ADDR_DIGEST1);
digest_data[479 : 448] = read_data;
read_word(ADDR_DIGEST2);
digest_data[447 : 416] = read_data;
read_word(ADDR_DIGEST3);
digest_data[415 : 384] = read_data;
read_word(ADDR_DIGEST4);
digest_data[383 : 352] = read_data;
read_word(ADDR_DIGEST5);
digest_data[351 : 320] = read_data;
read_word(ADDR_DIGEST6);
digest_data[319 : 288] = read_data;
read_word(ADDR_DIGEST7);
digest_data[287 : 256] = read_data;
read_word(ADDR_DIGEST8);
digest_data[255 : 224] = read_data;
read_word(ADDR_DIGEST9);
digest_data[223 : 192] = read_data;
read_word(ADDR_DIGEST10);
digest_data[191 : 160] = read_data;
read_word(ADDR_DIGEST11);
digest_data[159 : 128] = read_data;
read_word(ADDR_DIGEST12);
digest_data[127 : 96] = read_data;
read_word(ADDR_DIGEST13);
digest_data[95 : 64] = read_data;
read_word(ADDR_DIGEST14);
digest_data[63 : 32] = read_data;
read_word(ADDR_DIGEST15);
digest_data[31 : 0] = read_data;
end
endtask // read_digest
//----------------------------------------------------------------
// get_mask()
//
// Create the mask needed for a given mode.
//----------------------------------------------------------------
function [511 : 0] get_mask(input [1 : 0] mode);
begin
case (mode)
MODE_SHA_512_224:
begin
if (DEBUG)
begin
$display("Mode MODE_SHA_512_224");
end
get_mask = {{7{32'hffffffff}}, {9{32'h00000000}}};
end
MODE_SHA_512_256:
begin
if (DEBUG)
begin
$display("Mode MODE_SHA_512_256");
end
get_mask = {{8{32'hffffffff}}, {8{32'h00000000}}};
end
MODE_SHA_384:
begin
if (DEBUG)
begin
$display("Mode MODE_SHA_512_384");
end
get_mask = {{12{32'hffffffff}}, {4{32'h00000000}}};
end
MODE_SHA_512:
begin
if (DEBUG)
begin
$display("Mode MODE_SHA_512");
end
get_mask = {16{32'hffffffff}};
end
endcase // case (mode)
end
endfunction // get_mask
//----------------------------------------------------------------
// single_block_test()
//
//
// Perform test of a single block digest.
//----------------------------------------------------------------
task single_block_test(input [7 : 0] tc_number,
input [1 : 0] mode,
input [1023 : 0] block,
input [511 : 0] expected);
reg [511 : 0] mask;
reg [511 : 0] masked_data;
begin
$display("*** TC%01d - Single block test started.", tc_ctr);
write_block(block);
write_word(ADDR_CTRL, {28'h0000000, mode, CTRL_INIT_VALUE});
#(CLK_PERIOD);
wait_ready();
read_digest();
mask = get_mask(mode);
masked_data = digest_data & mask;
if (DEBUG)
begin
$display("masked_data = 0x%0128x", masked_data);
end
if (masked_data == expected)
begin
$display("TC%01d: OK.", tc_ctr);
end
else
begin
$display("TC%01d: ERROR.", tc_ctr);
$display("TC%01d: Expected: 0x%0128x", tc_ctr, expected);
$display("TC%01d: Got: 0x%0128x", tc_ctr, masked_data);
error_ctr = error_ctr + 1;
end
$display("*** TC%01d - Single block test done.", tc_ctr);
tc_ctr = tc_ctr + 1;
end
endtask // single_block_test
//----------------------------------------------------------------
// double_block_test()
//
//
// Perform test of a double block digest. Note that we check
// the digests for both the first and final block.
//----------------------------------------------------------------
task double_block_test(input [7 : 0] tc_number,
input [1 : 0] mode,
input [1023 : 0] block0,
input [1023 : 0] block1,
input [511 : 0] expected0,
input [511 : 0] expected1
);
reg [511 : 0] mask;
reg [511 : 0] masked_data1;
reg [31 : 0] ctrl_cmd;
begin
$display("*** TC%01d - Double block test started.", tc_ctr);
// First block
write_block(block0);
write_word(ADDR_CTRL, {28'h0000000, mode, CTRL_INIT_VALUE});
#(CLK_PERIOD);
wait_ready();
read_digest();
if (digest_data == expected0)
begin
$display("TC%01d first block: OK.", tc_ctr);
end
else
begin
$display("TC%01d: ERROR in first digest", tc_ctr);
$display("TC%01d: Expected: 0x%064x", tc_ctr, expected0);
$display("TC%01d: Got: 0x%064x", tc_ctr, digest_data);
error_ctr = error_ctr + 1;
end
// Final block
write_block(block1);
write_word(ADDR_CTRL, {28'h0000000, mode, CTRL_NEXT_VALUE});
#(CLK_PERIOD);
wait_ready();
read_digest();
mask = get_mask(mode);
masked_data1 = digest_data & mask;
if (masked_data1 == expected1)
begin
$display("TC%01d final block: OK.", tc_ctr);
end
else
begin
$display("TC%01d: ERROR in final digest", tc_ctr);
$display("TC%01d: Expected: 0x%0128x", tc_ctr, expected1);
$display("TC%01d: Got: 0x%0128x", tc_ctr, masked_data1);
error_ctr = error_ctr + 1;
end
$display("*** TC%01d - Double block test done.", tc_ctr);
tc_ctr = tc_ctr + 1;
end
endtask // double_block_test
//----------------------------------------------------------------
// state_restore_test()
//
// Perform test of state restore followed by block processing.
//----------------------------------------------------------------
task state_restore_test(input [7 : 0] tc_number,
input [1 : 0] mode,
input [511 : 0] state,
input [1023 : 0] block,
input [511 : 0] expected
);
reg [511 : 0] mask;
reg [511 : 0] masked_data;
begin
$display("*** TC%01d - State restore test started.", tc_ctr);
// Write state.
write_word(ADDR_DIGEST0, state[511 : 480]);
write_word(ADDR_DIGEST0, state[479 : 448]);
write_word(ADDR_DIGEST0, state[447 : 416]);
write_word(ADDR_DIGEST0, state[415 : 384]);
write_word(ADDR_DIGEST0, state[383 : 352]);
write_word(ADDR_DIGEST0, state[351 : 320]);
write_word(ADDR_DIGEST0, state[319 : 288]);
write_word(ADDR_DIGEST0, state[287 : 256]);
write_word(ADDR_DIGEST0, state[255 : 224]);
write_word(ADDR_DIGEST0, state[223 : 192]);
write_word(ADDR_DIGEST0, state[191 : 160]);
write_word(ADDR_DIGEST0, state[159 : 128]);
write_word(ADDR_DIGEST0, state[127 : 096]);
write_word(ADDR_DIGEST0, state[095 : 064]);
write_word(ADDR_DIGEST0, state[063 : 032]);
write_word(ADDR_DIGEST0, state[031 : 000]);
// Final block
write_block(block);
write_word(ADDR_CTRL, {28'h0000000, mode, CTRL_NEXT_VALUE});
#(CLK_PERIOD);
wait_ready();
read_digest();
mask = get_mask(mode);
masked_data = digest_data & mask;
if (masked_data == expected)
begin
$display("TC%01d final block: OK.", tc_ctr);
end
else
begin
$display("TC%01d: ERROR in final digest", tc_ctr);
$display("TC%01d: Expected: 0x%0128x", tc_ctr, expected);
$display("TC%01d: Got: 0x%0128x", tc_ctr, masked_data);
error_ctr = error_ctr + 1;
end
$display("*** TC%01d - Double block test done.", tc_ctr);
tc_ctr = tc_ctr + 1;
end
endtask // state_restore_test
//----------------------------------------------------------------
// work_factor_test()
//
// Perform test of the work factor function.
//----------------------------------------------------------------
task work_factor_test();
reg [1023 : 0] my_block;
reg [511 : 0] my_digest;
reg [31 : 0] my_ctrl_cmd;
begin
$display("*** TC%01d - Work factor test started.", tc_ctr);
// Read out work factor number.
read_word(ADDR_WORK_FACTOR_NUM);
// Trying to change the work factor number.
write_word(ADDR_WORK_FACTOR_NUM, 32'h00000003);
read_word(ADDR_WORK_FACTOR_NUM);
// Set block to all zero
my_block = {16{64'h0000000000000000}};
write_block(my_block);
// Set init+ work factor. We use SHA-512 mode.
my_ctrl_cmd = 32'h00000000 + (CTRL_WORK_FACTOR_VALUE << 7) +
(MODE_SHA_512 << 2) + CTRL_INIT_VALUE;
write_word(ADDR_CTRL, my_ctrl_cmd);
#(CLK_PERIOD);
wait_ready();
read_digest();
$display("*** TC%01d - Work factor test done.", tc_ctr);
tc_ctr = tc_ctr + 1;
end
endtask // work_factor_test
//----------------------------------------------------------------
// sha512_test
// The main test functionality.
//
// Test cases taken from:
// http://csrc.nist.gov/groups/ST/toolkit/documents/Examples/SHA_All.pdf
//----------------------------------------------------------------
initial
begin : sha512_test
reg [1024 : 0] single_block;
reg [511 : 0] tc1_expected;
reg [511 : 0] tc2_expected;
reg [511 : 0] tc3_expected;
reg [511 : 0] tc4_expected;
reg [1024 : 0] double_block_one;
reg [1024 : 0] double_block_two;
reg [511 : 0] tc5_expected;
reg [511 : 0] tc6_expected;
reg [511 : 0] tc7_expected;
reg [511 : 0] tc8_expected;
reg [511 : 0] tc9_expected;
reg [511 : 0] tc10_expected;
reg [511 : 0] tc11_expected;
reg [511 : 0] tc12_expected;
$display(" -- Testbench for sha512 started --");
init_sim();
reset_dut();
check_name_version();
// dump_dut_state();
// write_word(ADDR_BLOCK0, 32'hdeadbeef);
dump_dut_state();
// read_word(ADDR_BLOCK0);
// dump_dut_state();
// Single block test mesage.
single_block = 1024'h6162638000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000018;
// SHA-512 single block digest and test.
tc1_expected = 512'hDDAF35A193617ABACC417349AE20413112E6FA4E89A97EA20A9EEEE64B55D39A2192992A274FC1A836BA3C23A3FEEBBD454D4423643CE80E2A9AC94FA54CA49F;
single_block_test(8'h01, MODE_SHA_512, single_block, tc1_expected);
// SHA-512_224 single block digest and test.
tc2_expected = {224'h4634270F707B6A54DAAE7530460842E20E37ED265CEEE9A43E8924AA, {9{32'h00000000}}};
single_block_test(8'h02, MODE_SHA_512_224, single_block, tc2_expected);
// SHA-512_256 single block digest and test.
tc3_expected = {256'h53048E2681941EF99B2E29B76B4C7DABE4C2D0C634FC6D46E0E2F13107E7AF23, {8{32'h00000000}}};
single_block_test(8'h03, MODE_SHA_512_256, single_block, tc3_expected);
// SHA-384 single block digest and test.
tc4_expected = {384'hCB00753F45A35E8BB5A03D699AC65007272C32AB0EDED1631A8B605A43FF5BED8086072BA1E7CC2358BAECA134C825A7, {4{32'h00000000}}};
single_block_test(8'h04, MODE_SHA_384, single_block, tc4_expected);
// Two block test message.
double_block_one = 1024'h61626364656667686263646566676869636465666768696A6465666768696A6B65666768696A6B6C666768696A6B6C6D6768696A6B6C6D6E68696A6B6C6D6E6F696A6B6C6D6E6F706A6B6C6D6E6F70716B6C6D6E6F7071726C6D6E6F707172736D6E6F70717273746E6F70717273747580000000000000000000000000000000;
double_block_two = 1024'h0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000380;
// SHA-512 two block digests and test.
tc5_expected = 512'h4319017A2B706E69CD4B05938BAE5E890186BF199F30AA956EF8B71D2F810585D787D6764B20BDA2A26014470973692000EC057F37D14B8E06ADD5B50E671C72;
tc6_expected = 512'h8E959B75DAE313DA8CF4F72814FC143F8F7779C6EB9F7FA17299AEADB6889018501D289E4900F7E4331B99DEC4B5433AC7D329EEB6DD26545E96E55B874BE909;
double_block_test(8'h05, MODE_SHA_512, double_block_one, double_block_two, tc5_expected, tc6_expected);
// SHA-512_224 two block digests and test.
tc7_expected = 512'h9606CB2DB7823CE75FE35E2674A8F9EF1417ED9E89C412BB54EA29664586108625852563EED495096DEBAAE2F4737FD75319224B135486F8E6C0F55E700C35B3;
tc8_expected = {224'h23FEC5BB94D60B23308192640B0C453335D664734FE40E7268674AF9, {9{32'h00000000}}};
double_block_test(8'h06, MODE_SHA_512_224, double_block_one, double_block_two, tc7_expected, tc8_expected);
// SHA-512_256 two block digests and test.
tc9_expected = 512'h8DD99EB081311F8BCBBBC42CC7AFB288E8E9408730419D1E953FF7A2B194048DAE24175483C44C7C809B348E8E88E3ECBF2EA614CEED9C5B51807937F11867E1;
tc10_expected = {256'h3928E184FB8690F840DA3988121D31BE65CB9D3EF83EE6146FEAC861E19B563A, {8{32'h00000000}}};
double_block_test(8'h07, MODE_SHA_512_256, double_block_one, double_block_two, tc9_expected, tc10_expected);
// SHA-384 two block digests and test.
tc11_expected = 512'h2A7F1D895FD58E0BEAAE96D1A673C741015A2173796C1A88F6352CA156ACAFF7C662113E9EBB4D6417B61A85E2CCF0A937EB9A6660FEB5198F2EBE9A81E6A2C5;
tc12_expected = {384'h09330C33F71147E83D192FC782CD1B4753111B173B3B05D22FA08086E3B0F712FCC7C71A557E2DB966C3E9FA91746039, {4{32'h00000000}}};
double_block_test(8'h08, MODE_SHA_384, double_block_one, double_block_two, tc11_expected, tc12_expected);
// Work factor test.
// work_factor_test();
// State restore test.
state_restore_test(8'h09, MODE_SHA_512, tc5_expected, double_block_two, tc6_expected);
dump_dut_state();
display_test_result();
$display(" -- Testbench for sha512 done. --");
$finish;
end // sha512_test
endmodule // tb_sha512
//======================================================================
// EOF tb_sha512.v
//======================================================================