//====================================================================== // // tb_modexp.v // ----------- // Testbench modular exponentiation core. // // // Author: Joachim Strombergson, Peter Magnusson // Copyright (c) 2015, NORDUnet A/S All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // - Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // - 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. // // - Neither the name of the NORDUnet nor the names of its contributors may // be used to endorse or promote products derived from this software // without specific prior written permission. // // 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 // HOLDER 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_modexp(); //---------------------------------------------------------------- // Internal constant and parameter definitions. //---------------------------------------------------------------- // Debug output control. parameter DEBUG = 0; parameter DEBUG_EI = 0; parameter DEBUG_RESULT = 0; parameter DISPLAY_TEST_CYCLES = 1; // Clock defines. localparam CLK_HALF_PERIOD = 1; localparam CLK_PERIOD = 2 * CLK_HALF_PERIOD; // The DUT address map. localparam GENERAL_PREFIX = 4'h0; localparam ADDR_NAME0 = 8'h00; localparam ADDR_NAME1 = 8'h01; localparam ADDR_VERSION = 8'h02; localparam ADDR_CTRL = 8'h08; localparam CTRL_START_BIT = 0; localparam ADDR_STATUS = 8'h09; localparam STATUS_READY_BIT = 0; localparam ADDR_MODULUS_LENGTH = 8'h20; localparam ADDR_EXPONENT_LENGTH = 8'h21; localparam ADDR_LENGTH = 8'h22; localparam ADDR_MODULUS_PTR_RST = 8'h30; localparam ADDR_MODULUS_DATA = 8'h31; localparam ADDR_EXPONENT_PTR_RST = 8'h40; localparam ADDR_EXPONENT_DATA = 8'h41; localparam ADDR_MESSAGE_PTR_RST = 8'h50; localparam ADDR_MESSAGE_DATA = 8'h51; localparam ADDR_RESULT_PTR_RST = 8'h60; localparam ADDR_RESULT_DATA = 8'h61; //---------------------------------------------------------------- // Register and Wire declarations. //---------------------------------------------------------------- reg [31 : 0] test_cycle_ctr; reg test_cycle_ctr_rst; reg test_cycle_ctr_inc; 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 [11 : 0] tb_address; reg [31 : 0] tb_write_data; wire [31 : 0] tb_read_data; wire tb_error; //---------------------------------------------------------------- // Device Under Test. //---------------------------------------------------------------- modexp 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) ); //---------------------------------------------------------------- // 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 //---------------------------------------------------------------- // test_cycle_counter // // Used to measure the number of cycles it takes to perform // a given test case. //---------------------------------------------------------------- always @ (posedge tb_clk) begin if (test_cycle_ctr_rst) test_cycle_ctr = 64'h0000000000000000; if (test_cycle_ctr_inc) test_cycle_ctr = test_cycle_ctr + 1; end //---------------------------------------------------------------- // start_test_cycle_ctr // // Reset and start the test cycle counter. //---------------------------------------------------------------- task start_test_cycle_ctr(); begin test_cycle_ctr_rst = 1; #(CLK_PERIOD); test_cycle_ctr_rst = 0; test_cycle_ctr_inc = 1; end endtask // start_test_cycle_ctr() //---------------------------------------------------------------- // stop_test_cycle_ctr() // // Stop the test cycle counter and optionally display the // result. //---------------------------------------------------------------- task stop_test_cycle_ctr(); begin test_cycle_ctr_inc = 0; #(CLK_PERIOD); if (DISPLAY_TEST_CYCLES) $display("*** Number of cycles performed during test: 0x%016x", test_cycle_ctr); end endtask // stop_test_cycle_ctr() //---------------------------------------------------------------- // ei_monitor() // // Displays ei_new, the most important variable for determining // what modexp will do (i.e. should Z=MONTPROD( Z, P, M) be // performed //---------------------------------------------------------------- always @* begin : ei_monitor if (DEBUG_EI) if (dut.modexp_ctrl_reg == dut.CTRL_ITERATE_Z_P) $display("loop counter %d: ei = %d", dut.loop_counter_reg, dut.ei_reg); end //---------------------------------------------------------------- // z_monitor() // // Displays the contents of the result_mem. //---------------------------------------------------------------- always @* begin : result_monitor if (DEBUG_RESULT) $display("result_mem[0][1] = %x %x",dut.result_mem.mem[0],dut.result_mem.mem[1]); 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("Inputs and outputs:"); $display("cs = 0x%01x, we = 0x%01x", tb_cs, tb_we); $display("addr = 0x%08x, read_data = 0x%08x, write_data = 0x%08x", tb_address, tb_read_data, tb_write_data); $display(""); $display("State:"); $display("ready_reg = 0x%01x, start_reg = 0x%01x, start_new = 0x%01x", dut.core_inst.ready_reg, dut.start_reg, dut.start_new); $display("residue_valid = 0x%01x", dut.core_inst.residue_valid_reg); $display("loop_counter_reg = 0x%08x", dut.core_inst.loop_counter_reg); $display("exponent_length_reg = 0x%02x exponent_length_m1 = 0x%02x modulus_length_reg = 0x%02x modulus_length_m1 = 0x%02x", dut.exponent_length_reg, dut.core_inst.exponent_length_m1, dut.modulus_length_reg, dut.core_inst.modulus_length_m1); $display("ctrl_reg = 0x%04x", dut.core_inst.modexp_ctrl_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 //---------------------------------------------------------------- // 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("*** (read_word) Reading 0x%08x from 0x%02x.", read_data, address); $display(""); end end endtask // read_word //---------------------------------------------------------------- // 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("*** (write_word) Writing 0x%08x to 0x%02x.", word, address); $display(""); end tb_address = address; tb_write_data = word; tb_cs = 1; tb_we = 1; #(CLK_PERIOD); tb_cs = 0; tb_we = 0; end endtask // write_word //---------------------------------------------------------------- // wait_ready() // // Wait until the ready flag in the core is set. //---------------------------------------------------------------- task wait_ready(); begin while (tb_read_data != 32'h00000001) read_word({GENERAL_PREFIX, ADDR_STATUS}); if (DEBUG) $display("*** (wait_ready) Ready flag has been set."); end endtask // wait_ready //---------------------------------------------------------------- // dump_message_mem() // // Dump the contents of the message memory. //---------------------------------------------------------------- task dump_message_mem(); reg [8 : 0] i; begin $display("Contents of the message memory:"); for (i = 0 ; i < 256 ; i = i + 8) begin $display("message_mem[0x%02x .. 0x%02x] = 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x", i[7 : 0], (i[7 : 0] + 8'h07), dut.core_inst.message_mem.mem[(i[7 : 0] + 0)], dut.core_inst.message_mem.mem[(i[7 : 0] + 1)], dut.core_inst.message_mem.mem[(i[7 : 0] + 2)], dut.core_inst.message_mem.mem[(i[7 : 0] + 3)], dut.core_inst.message_mem.mem[(i[7 : 0] + 4)], dut.core_inst.message_mem.mem[(i[7 : 0] + 5)], dut.core_inst.message_mem.mem[(i[7 : 0] + 6)], dut.core_inst.message_mem.mem[(i[7 : 0] + 7)], ); end $display(""); end endtask // dump_message_mem //---------------------------------------------------------------- // dump_exponent_mem() // // Dump the contents of the exponent memory. //---------------------------------------------------------------- task dump_exponent_mem(); reg [8 : 0] i; begin $display("Contents of the exponent memory:"); for (i = 0 ; i < 256 ; i = i + 8) begin $display("exponent_mem[0x%02x .. 0x%02x] = 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x", i[7 : 0], (i[7 : 0] + 8'h07), dut.core_inst.exponent_mem.mem[(i[7 : 0] + 0)], dut.core_inst.exponent_mem.mem[(i[7 : 0] + 1)], dut.core_inst.exponent_mem.mem[(i[7 : 0] + 2)], dut.core_inst.exponent_mem.mem[(i[7 : 0] + 3)], dut.core_inst.exponent_mem.mem[(i[7 : 0] + 4)], dut.core_inst.exponent_mem.mem[(i[7 : 0] + 5)], dut.core_inst.exponent_mem.mem[(i[7 : 0] + 6)], dut.core_inst.exponent_mem.mem[(i[7 : 0] + 7)], ); end $display(""); end endtask // dump_exponent_mem //---------------------------------------------------------------- // dump_modulus_mem() // // Dump the contents of the modulus memory. //---------------------------------------------------------------- task dump_modulus_mem(); reg [8 : 0] i; begin $display("Contents of the modulus memory:"); for (i = 0 ; i < 256 ; i = i + 8) begin $display("modulus_mem[0x%02x .. 0x%02x] = 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x", i[7 : 0], (i[7 : 0] + 8'h07), dut.core_inst.modulus_mem.mem[(i[7 : 0] + 0)], dut.core_inst.modulus_mem.mem[(i[7 : 0] + 1)], dut.core_inst.modulus_mem.mem[(i[7 : 0] + 2)], dut.core_inst.modulus_mem.mem[(i[7 : 0] + 3)], dut.core_inst.modulus_mem.mem[(i[7 : 0] + 4)], dut.core_inst.modulus_mem.mem[(i[7 : 0] + 5)], dut.core_inst.modulus_mem.mem[(i[7 : 0] + 6)], dut.core_inst.modulus_mem.mem[(i[7 : 0] + 7)], ); end $display(""); end endtask // dump_modulus_mem //---------------------------------------------------------------- // dump_residue_mem() // // Dump the contents of the residue memory. //---------------------------------------------------------------- task dump_residue_mem(); reg [8 : 0] i; begin $display("Contents of the residue memory:"); for (i = 0 ; i < 256 ; i = i + 8) begin $display("residue_mem[0x%02x .. 0x%02x] = 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x", i[7 : 0], (i[7 : 0] + 8'h07), dut.core_inst.residue_mem.mem[(i[7 : 0] + 0)], dut.core_inst.residue_mem.mem[(i[7 : 0] + 1)], dut.core_inst.residue_mem.mem[(i[7 : 0] + 2)], dut.core_inst.residue_mem.mem[(i[7 : 0] + 3)], dut.core_inst.residue_mem.mem[(i[7 : 0] + 4)], dut.core_inst.residue_mem.mem[(i[7 : 0] + 5)], dut.core_inst.residue_mem.mem[(i[7 : 0] + 6)], dut.core_inst.residue_mem.mem[(i[7 : 0] + 7)], ); end $display(""); end endtask // dump_residue_mem //---------------------------------------------------------------- // dump_result_mem() // // Dump the contents of the result memory. //---------------------------------------------------------------- task dump_result_mem(); reg [8 : 0] i; begin $display("Contents of the result memory:"); for (i = 0 ; i < 256 ; i = i + 8) begin $display("result_mem[0x%02x .. 0x%02x] = 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x", i[7 : 0], (i[7 : 0] + 8'h07), dut.core_inst.result_mem.mem[(i[7 : 0] + 0)], dut.core_inst.result_mem.mem[(i[7 : 0] + 1)], dut.core_inst.result_mem.mem[(i[7 : 0] + 2)], dut.core_inst.result_mem.mem[(i[7 : 0] + 3)], dut.core_inst.result_mem.mem[(i[7 : 0] + 4)], dut.core_inst.result_mem.mem[(i[7 : 0] + 5)], dut.core_inst.result_mem.mem[(i[7 : 0] + 6)], dut.core_inst.result_mem.mem[(i[7 : 0] + 7)], ); end $display(""); end endtask // dump_result_mem //---------------------------------------------------------------- // dump_memories() // // Dump the contents of the memories in the dut. //---------------------------------------------------------------- task dump_memories(); begin dump_message_mem(); dump_exponent_mem(); dump_modulus_mem(); dump_residue_mem(); dump_result_mem(); end endtask // dump_memories //---------------------------------------------------------------- // tc1 // // A first, very simple testcase where we want to do: // c = m ** e % N with the following (decimal) test values: // m = 3 // e = 7 // n = 11 // c = 3 ** 7 % 11 = 9 //---------------------------------------------------------------- task tc1(); reg [31 : 0] read_data; begin tc_ctr = tc_ctr + 1; $display("TC1: Trying to calculate 3**7 mod 11 = 9"); // Write 3 to message memory. write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000003); // Write 7 to exponent memory and set length to one word. write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000007); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); // Write 11 to modulus memory and set length to one word. write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h0000000b); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000001); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); // Read out result word and check result. write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; if (read_data == 32'h00000009) begin $display("*** TC1 successful."); $display(""); end else begin $display("*** ERROR: TC1 NOT successful."); $display("Expected: 0x09, got 0x%08x", read_data); error_ctr = error_ctr + 1; dump_memories(); end end endtask // tc1 //---------------------------------------------------------------- // tc2 // // c = m ** e % N with the following (decimal) test values: // m = 251 // e = 251 // n = 257 // c = 251 ** 251 % 257 = 183 //---------------------------------------------------------------- task tc2(); reg [31 : 0] read_data; begin tc_ctr = tc_ctr + 1; $display("TC2: Trying to calculate 251**251 mod 257 = 183"); // Write 13 to message memory. write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h000000fb); // Write 11 to exponent memory and set length to one word. write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h000000fb); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); // Write 7 to modulus memory and set length to one word. write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000101); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000001); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); // Read out result word and check result. write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; if (read_data == 32'h000000b7) begin $display("*** TC2 successful."); $display(""); end else begin $display("*** ERROR: TC2 NOT successful."); $display("Expected: 0x000000b7, got 0x%08x", read_data); error_ctr = error_ctr + 1; end end endtask // tc2 //---------------------------------------------------------------- // tc3 // // c = m ** e % N with the following (decimal) test values: // m = 0x81 // e = 0x41 // n = 0x87 // c = 0x81 ** 0x41 % 0x87 = 0x36 //---------------------------------------------------------------- task tc3(); reg [31 : 0] read_data; begin tc_ctr = tc_ctr + 1; $display("TC3: Trying to calculate 0x81 ** 0x41 mod 0x87 = 0x36"); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000081); // Write 11 to exponent memory and set length to one word. write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000041); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); // Write 7 to modulus memory and set length to one word. write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000087); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000001); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); // Read out result word and check result. write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; if (read_data == 32'h00000036) begin $display("*** TC3 successful."); $display(""); end else begin $display("*** ERROR: TC3 NOT successful."); $display("Expected: 0x06, got 0x%08x", read_data); error_ctr = error_ctr + 1; end end endtask // tc3 //---------------------------------------------------------------- // assertEquals //---------------------------------------------------------------- function assertEquals( input [31:0] expected, input [31:0] actual ); begin if (expected === actual) begin assertEquals = 1; // success end else begin $display("Expected: 0x%08x, got 0x%08x", expected, actual); assertEquals = 0; // failure end end endfunction // assertEquals integer success; //---------------------------------------------------------------- // autogenerated_BASIC_33bit() // // Task that tests modexp with 33 bit oprerands. //---------------------------------------------------------------- task autogenerated_BASIC_33bit(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("autogenerated_BASIC_33bit: 00000001946473e1 ** h000000010e85e74f mod 0000000170754797 "); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h946473e1); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h0e85e74f); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h70754797); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000002); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000002); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h7761ed4f, read_data); if (success !== 1) begin $display("*** ERROR: autogenerated_BASIC_33bit was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** autogenerated_BASIC_33bit success."); end endtask // autogenerated_BASIC_33bit //---------------------------------------------------------------- // autogenerated_BASIC_128bit() // // Task that tests modexp with 128 bit operands. //---------------------------------------------------------------- task autogenerated_BASIC_128bit(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("autogenerated_BASIC_128bit"); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h3285c343); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h2acbcb0f); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h4d023228); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h2ecc73db); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h29462882); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h12caa2d5); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hb80e1c66); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h1006807f); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h267d2f2e); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h51c216a7); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hda752ead); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h48d22d89); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000004); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000005); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h0ddc404d, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h91600596, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h7425a8d8, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha066ca56, read_data); if (success !== 1) begin $display("*** ERROR: autogenerated_BASIC_128bit was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** autogenerated_BASIC_128bit success."); end endtask // autogenerated_BASIC_128bit //---------------------------------------------------------------- // e64bit_64bit_modulus() //---------------------------------------------------------------- task e64bit_64bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with 64 bit exponent and 64 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h12345678); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h97543211); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hfeababab); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hdeadbeef); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffee); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hbeefbeef); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000002); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000003); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'he52c5b9f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h85de87eb, read_data); if (success !== 1) begin $display("*** ERROR: 64 bit exponent and 64 bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** 64 bit exponent and 64 bit modulus success."); end endtask // e64bit_64bit_modulus //---------------------------------------------------------------- // e65537_64bit_modulus() //---------------------------------------------------------------- task e65537_64bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 64 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hf077656f); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h3bf9e69b); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hb6684dc3); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h79a5824b); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000003); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h132d8e17, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hdd4d85a4, read_data); if (success !== 1) begin $display("*** ERROR: e65537_64bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_64bit_modulus success."); end endtask // e65537_64bit_modulus //---------------------------------------------------------------- // e65537_64bit_modulus_elength() //---------------------------------------------------------------- task e65537_64bit_modulus_elength(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 64 bit modulus, explicit exponent length."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hf077656f); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h3bf9e69b); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hb6684dc3); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h79a5824b); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000003); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h132d8e17, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hdd4d85a4, read_data); if (success !== 1) begin $display("*** ERROR: e65537_64bit_modulus with explicit elength was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_64bit_modulus success."); end endtask // e65537_64bit_modulus_elength //---------------------------------------------------------------- // e65537_128bit_modulus() //---------------------------------------------------------------- task e65537_128bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 128 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hf5e8eee0); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hc06b048a); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h964b2105); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h2c36ad6b); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h956e61b3); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h27997bc4); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h94e7e5c9); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hb53585cf); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000005); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h9c6d322c, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h25ab8bd3, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4aa80100, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf0f3a02c, read_data); if (success !== 1) begin $display("*** ERROR: e65537_128bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_128bit_modulus success."); end endtask // e65537_128bit_modulus //---------------------------------------------------------------- // e65537_256bit_modulus() // // Task that tests modexp with small exponent and 256 bit modulus. //---------------------------------------------------------------- task e65537_256bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 256 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hf169d36e); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hbe2ce61d); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hc2e87809); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h4fed15c3); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h7c70eac5); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'ha123e643); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h299b36d2); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h788e583b); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hf169d36e); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hbe2ce61d); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hc2e87809); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h4fed15c3); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h7c70eac5); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'ha123e643); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h299b36d2); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h788e583a); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000009); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf169d36e, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hbe2ce61d, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hc2e87809, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4fed15c3, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h7c70eac5, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha123e643, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h299b36d2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h788e583a, read_data); if (success !== 1) begin $display("*** ERROR: e65537_256bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_256bit_modulus success."); end endtask // e65537_256bit_modulus //---------------------------------------------------------------- // e65537_1024bit_modulus() // // Task that tests modexp with small exponent and // 2048 bit modulus. //---------------------------------------------------------------- task e65537_1024bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 1024 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000021); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h45d55343, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha0971add, read_data); if (success !== 1) begin $display("*** ERROR: e65537_1024bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_1024bit_modulus success."); end endtask // e65537_1024bit_modulus //---------------------------------------------------------------- // e65537_1536bit_modulus() // // Task that tests modexp with small exponent and // 1536 bit modulus. //---------------------------------------------------------------- task e65537_1536bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 1536 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000031); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4ade4f46, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h02cb4a2f, read_data); if (success !== 1) begin $display("*** ERROR: e65537_1536bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_1536bit_modulus success."); end endtask // e65537_1536bit_modulus //---------------------------------------------------------------- // e65537_1664bit_modulus() // // Task that tests modexp with small exponent and // 1664 bit modulus. //---------------------------------------------------------------- task e65537_1664bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 1664 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000035); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h88671c15, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2aeeb8b2, read_data); if (success !== 1) begin $display("*** ERROR: e65537_1664bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_1664it_modulus success."); end endtask // e65537_1664bit_modulus //---------------------------------------------------------------- // e65537_2048bit_modulus() // // Task that tests modexp with small exponent and // 2048 bit modulus. //---------------------------------------------------------------- task e65537_2048bit_modulus(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Test with e = 65537 and 2048 bit modulus."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hffeeffef); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffaabbcc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hddeeffff); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000001); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000041); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf17521961, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4c36e92f1, read_data); if (success !== 1) begin $display("*** ERROR: e65537_2048bit_modulus was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** e65537_2048bit_modulus success."); end endtask // e65537_2048bit_modulus //---------------------------------------------------------------- // rob_dec_1024() // // Task that tests modexp with 1024 bit decipher/sign with // real RSA key operands. //---------------------------------------------------------------- task rob_dec_1024(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Desipher/Sign Test with Rob 1024 bit operands."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h3ff26c9e); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h32685b93); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h66570228); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hf0603c4e); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h04a717c1); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h8038b116); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'heb48325e); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hcada992a); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h920bb241); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h5aee4afe); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'he2a37e87); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hb35b9519); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hb335775d); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h989553e9); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h1326f46e); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h2cdf6b7b); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h84aabfa9); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hef24c600); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hb56872ad); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h5edb9041); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'he8ecd7f8); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h535133fb); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hdefc92c7); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h42384226); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h7d40e5f5); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hc91bd745); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h9578e460); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hfc858374); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h3172bed3); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h73b6957c); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'hc0d6a68e); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h33156a61); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h0001ffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hffffffff); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00303130); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h0d060960); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h86480165); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h03040201); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h05000420); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h8e36fc9a); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'ha31724c3); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h2416263c); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h0366a175); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hfabbb92b); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h741ca649); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h6107074d); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h0343b597); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hd075ec0a); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h95048ef8); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hcaa69073); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h8d9d58e9); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h1764b437); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h50b58cad); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h8a6e3199); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h135f80ee); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h84eb2bde); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h58d38ee3); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h5825e91e); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hafdeb1ba); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'ha15a160b); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h0057c47c); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hc7765e31); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h868a3e15); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h5ee57cef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hb008c4dd); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h6a0a89ee); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h98a4ee9c); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h971a07de); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h61e5b0d3); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hcf70e1cd); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hc6a0de5b); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h451f2fb9); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hdb995196); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h9f2f884b); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h4b09749a); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'he6c4ddbe); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h7ee61f79); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h265c6adf); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hb16b3015); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000021); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000021); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h06339a64, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h367db02a, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf41158cc, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h95e76049, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4519c165, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h111184be, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'he41d8ee2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2ae5f5d1, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h1da7f962, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hac93ac88, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h915eee13, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha3350c22, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hf0dfa62e, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hfdfc2b62, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h29f26e27, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hbebdc84e, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h4746df79, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h7b387ad2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h13423c9f, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h98e8a146, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hff486b6c, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h1a85414e, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h73117121, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hb700e547, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hab4e07b2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h21b988b8, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h24dd77c2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h046b0a20, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hcddb986a, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hac75c2f2, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hb044ed59, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hea565879, read_data); if (success !== 1) begin $display("*** ERROR: rob_dec_1024 was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** rob_dec_1024 success."); end endtask // rob_dec_1024 //---------------------------------------------------------------- // rob_enc_1024() // // Task that tests modexp with 1024 bit encipher/verify with // real RSA key operands. //---------------------------------------------------------------- task rob_enc_1024(); reg [31 : 0] read_data; begin success = 32'h1; tc_ctr = tc_ctr + 1; $display("Encipher/Verify Test with Rob 1024 bit operands."); write_word({GENERAL_PREFIX, ADDR_EXPONENT_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_EXPONENT_DATA}, 32'h00010001); write_word({GENERAL_PREFIX, ADDR_MESSAGE_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h06339a64); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h367db02a); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hf41158cc); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h95e76049); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h4519c165); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h111184be); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'he41d8ee2); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h2ae5f5d1); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h1da7f962); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hac93ac88); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h915eee13); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'ha3350c22); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hf0dfa62e); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hfdfc2b62); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h29f26e27); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hbebdc84e); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h4746df79); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h7b387ad2); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h13423c9f); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h98e8a146); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hff486b6c); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h1a85414e); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h73117121); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hb700e547); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hab4e07b2); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h21b988b8); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h24dd77c2); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'h046b0a20); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hcddb986a); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hac75c2f2); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hb044ed59); write_word({GENERAL_PREFIX, ADDR_MESSAGE_DATA}, 32'hea565879); write_word({GENERAL_PREFIX, ADDR_MODULUS_PTR_RST}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h00000000); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hd075ec0a); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h95048ef8); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hcaa69073); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h8d9d58e9); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h1764b437); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h50b58cad); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h8a6e3199); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h135f80ee); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h84eb2bde); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h58d38ee3); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h5825e91e); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hafdeb1ba); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'ha15a160b); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h0057c47c); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hc7765e31); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h868a3e15); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h5ee57cef); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hb008c4dd); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h6a0a89ee); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h98a4ee9c); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h971a07de); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h61e5b0d3); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hcf70e1cd); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hc6a0de5b); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h451f2fb9); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hdb995196); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h9f2f884b); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h4b09749a); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'he6c4ddbe); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h7ee61f79); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'h265c6adf); write_word({GENERAL_PREFIX, ADDR_MODULUS_DATA}, 32'hb16b3015); write_word({GENERAL_PREFIX, ADDR_EXPONENT_LENGTH}, 32'h00000021); write_word({GENERAL_PREFIX, ADDR_MODULUS_LENGTH}, 32'h00000021); start_test_cycle_ctr(); // Start processing and wait for ready. write_word({GENERAL_PREFIX, ADDR_CTRL}, 32'h00000001); wait_ready(); stop_test_cycle_ctr(); write_word({GENERAL_PREFIX, ADDR_RESULT_PTR_RST}, 32'h00000000); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00000000, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h0001ffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hffffffff, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h00303130, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h0d060960, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h86480165, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h03040201, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h05000420, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h8e36fc9a, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'ha31724c3, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h2416263c, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h0366a175, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'hfabbb92b, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h741ca649, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h6107074d, read_data); read_word({GENERAL_PREFIX, ADDR_RESULT_DATA}); read_data = tb_read_data; success = success & assertEquals(32'h0343b597, read_data); if (success !== 1) begin $display("*** ERROR: rob_enc_1024 was NOT successful."); error_ctr = error_ctr + 1; end else $display("*** rob_enc_1024 success."); end endtask // rob_enc_1024 //---------------------------------------------------------------- // main // // The main test functionality. //---------------------------------------------------------------- initial begin : main $display(" -= Testbench for modexp started =-"); $display(" ================================="); $display(""); init_sim(); dump_dut_state(); reset_dut(); dump_dut_state(); // tc1(); // tc2(); // tc3(); // autogenerated_BASIC_33bit(); // autogenerated_BASIC_128bit(); // e64bit_64bit_modulus(); // e65537_64bit_modulus(); // e65537_64bit_modulus_elength(); // e65537_128bit_modulus(); // e65537_256bit_modulus(); // e65537_1024bit_modulus(); // e65537_1536bit_modulus(); // e65537_1664bit_modulus(); e65537_2048bit_modulus(); // rob_dec_1024(); // rob_enc_1024(); display_test_results(); $display(""); $display("*** modexp simulation done. ***"); $finish; end // main endmodule // tb_modexp //====================================================================== // EOF tb_modexp.v //======================================================================