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//======================================================================
//
// trng.v
// --------
// Top level wrapper for the True Random Number Generator.
//
//
// Author: Joachim Strombergson
// Copyright (c) 2014, 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.
//
//======================================================================
module trng(
// Clock and reset.
input wire clk,
input wire reset_n,
input wire avalanche_noise,
input wire cs,
input wire we,
input wire [7 : 0] address,
input wire [31 : 0] write_data,
output wire [31 : 0] read_data,
output wire error,
output wire [7 : 0] debug,
input wire debug_update,
output wire security_error
);
//----------------------------------------------------------------
// Internal constant and parameter definitions.
//----------------------------------------------------------------
parameter ADDR_NAME0 = 8'h00;
parameter ADDR_NAME1 = 8'h01;
parameter ADDR_VERSION = 8'h02;
parameter ADDR_TRNG_CTRL = 8'h10;
parameter TRNG_CTRL_ENABLE_BIT = 0;
parameter TRNG_CTRL_ENT0_ENABLE_BIT = 1;
parameter TRNG_CTRL_ENT1_ENABLE_BIT = 2;
parameter TRNG_CTRL_ENT2_ENABLE_BIT = 3;
parameter TRNG_CTRL_SEED_BIT = 8;
parameter ADDR_TRNG_STATUS = 8'h11;
parameter ADDR_TRNG_RND_DATA = 8'h20;
parameter ADDR_TRNG_RND_DATA_VALID = 8'h21;
parameter TRNG_RND_VALID_BIT = 0;
parameter ADDR_CSPRNG_NUM_ROUNDS = 8'h30;
parameter ADDR_CSPRNG_NUM_BLOCKS_LOW = 8'h31;
parameter ADDR_CSPRNG_NUM_BLOCKS_HIGH = 8'h32;
parameter ADDR_ENTROPY0_RAW = 8'h40;
parameter ADDR_ENTROPY0_STATS = 8'h41;
parameter ADDR_ENTROPY1_RAW = 8'h50;
parameter ADDR_ENTROPY1_STATS = 8'h51;
parameter ADDR_ENTROPY2_RAW = 8'h60;
parameter ADDR_ENTROPY2_STATS = 8'h61;
parameter ADDR_ENTROPY2_OP_A = 8'h68;
parameter ADDR_ENTROPY2_OP_B = 8'h69;
parameter TRNG_NAME0 = 32'h74726e67; // "trng"
parameter TRNG_NAME1 = 32'h20202020; // " "
parameter TRNG_VERSION = 32'h302e3031; // "0.01"
parameter CSPRNG_DEFAULT_NUM_ROUNDS = 5'h18;
parameter CSPRNG_DEFAULT_NUM_BLOCKS = 64'h1000000000000000;
//----------------------------------------------------------------
// Registers including update variables and write enable.
//----------------------------------------------------------------
reg [4 : 0] csprng_num_rounds_reg;
reg [4 : 0] csprng_num_rounds_new;
reg csprng_num_rounds_we;
reg [31 : 0] csprng_num_blocks_low_reg;
reg [31 : 0] csprng_num_blocks_low_new;
reg csprng_num_blocks_low_we;
reg [31 : 0] csprng_num_blocks_high_reg;
reg [31 : 0] csprng_num_blocks_high_new;
reg csprng_num_blocks_high_we;
reg entropy0_enable_reg;
reg entropy0_enable_new;
reg entropy0_enable_we;
reg entropy1_enable_reg;
reg entropy1_enable_new;
reg entropy1_enable_we;
reg entropy2_enable_reg;
reg entropy2_enable_new;
reg entropy2_enable_we;
reg [31 : 0] entropy2_op_a_reg;
reg [31 : 0] entropy2_op_a_new;
reg entropy2_op_a_we;
reg [31 : 0] entropy2_op_b_reg;
reg [31 : 0] entropy2_op_b_new;
reg entropy2_op_b_we;
reg enable_reg;
reg enable_new;
reg enable_we;
reg csprng_seed_reg;
reg csprng_seed_new;
reg csprng_rnd_ack_reg;
reg csprng_rnd_ack_new;
//----------------------------------------------------------------
// Wires.
//----------------------------------------------------------------
wire entropy0_enable;
wire [31 : 0] entropy0_raw;
wire [31 : 0] entropy0_stats;
wire entropy0_enabled;
wire entropy0_syn;
wire [31 : 0] entropy0_data;
wire entropy0_ack;
wire entropy1_enable;
wire [31 : 0] entropy1_raw;
wire [31 : 0] entropy1_stats;
wire entropy1_enabled;
wire entropy1_syn;
wire [31 : 0] entropy1_data;
wire entropy1_ack;
wire entropy2_enable;
wire [31 : 0] entropy2_raw;
wire [31 : 0] entropy2_stats;
wire entropy2_enabled;
wire entropy2_syn;
wire [31 : 0] entropy2_data;
wire entropy2_ack;
wire [7 : 0] entropy2_debug;
wire mixer_enable;
wire [511 : 0] mixer_seed_data;
wire mixer_seed_syn;
wire csprng_enable;
wire csprng_debug_mode;
wire [4 : 0] csprng_num_rounds;
wire [63 : 0] csprng_num_blocks;
wire csprng_seed;
wire csprng_more_seed;
wire csprng_seed_ack;
wire csprng_ready;
wire csprng_error;
wire [31 : 0] csprng_rnd_data;
wire csprng_rnd_syn;
reg [31 : 0] tmp_read_data;
reg tmp_error;
//----------------------------------------------------------------
// Concurrent connectivity for ports etc.
//----------------------------------------------------------------
assign read_data = tmp_read_data;
assign error = tmp_error;
assign security_error = 0;
assign debug = entropy2_debug;
assign csprng_num_blocks = {csprng_num_blocks_high_reg,
csprng_num_blocks_low_reg};
assign entropy0_enable = entropy0_enable_reg;
assign entropy1_enable = entropy1_enable_reg;
assign entropy2_enable = entropy2_enable_reg;
assign mixer_enable = enable_reg;
assign csprng_enable = enable_reg;
assign csprng_seed = csprng_seed_reg;
assign csprng_debug_mode = 0;
// Patches to get our first version to work.
assign entropy0_enabled = 0;
assign entropy0_raw = 32'h00000000;
assign entropy0_stats = 32'h00000000;
assign entropy0_syn = 0;
assign entropy0_data = 32'h00000000;
assign entropy1_enabled = 1;
assign entropy2_enabled = 1;
assign entropy2_stats = 32'h00000000;
//----------------------------------------------------------------
// core instantiations.
//----------------------------------------------------------------
trng_mixer mixer(
.clk(clk),
.reset_n(reset_n),
.enable(mixer_enable),
.more_seed(csprng_more_seed),
.entropy0_enabled(entropy0_enabled),
.entropy0_syn(entropy0_syn),
.entropy0_data(entropy0_data),
.entropy0_ack(entropy0_ack),
.entropy1_enabled(entropy1_enabled),
.entropy1_syn(entropy1_syn),
.entropy1_data(entropy1_data),
.entropy1_ack(entropy1_ack),
.entropy2_enabled(entropy2_enabled),
.entropy2_syn(entropy2_syn),
.entropy2_data(entropy2_data),
.entropy2_ack(entropy2_ack),
.seed_data(mixer_seed_data),
.seed_syn(mixer_seed_syn),
.seed_ack(csprng_seed_ack)
);
trng_csprng csprng(
.clk(clk),
.reset_n(reset_n),
.enable(csprng_enable),
.debug_mode(csprng_debug_mode),
.num_rounds(csprng_num_rounds_reg),
.num_blocks(csprng_num_blocks),
.seed(csprng_seed),
.more_seed(csprng_more_seed),
.ready(csprng_ready),
.error(csprng_error),
.seed_data(mixer_seed_data),
.seed_syn(mixer_seed_syn),
.seed_ack(csprng_seed_ack),
.rnd_data(csprng_rnd_data),
.rnd_syn(csprng_rnd_syn),
.rnd_ack(csprng_rnd_ack_reg)
);
// pseudo_entropy entropy0(
// .clk(clk),
// .reset_n(reset_n),
//
// .enable(entropy0_enable),
//
// .raw_entropy(entropy0_raw),
// .stats(entropy0_stats),
//
// .enabled(entropy0_enabled),
// .entropy_syn(entropy0_syn),
// .entropy_data(entropy0_data),
// .entropy_ack(entropy0_ack)
// );
avalanche_entropy_core entropy1(
.clk(clk),
.reset_n(reset_n),
.noise(avalanche_noise),
.sampled_noise(),
.entropy(),
.entropy_syn(entropy1_syn),
.entropy_data(entropy1_data),
.entropy_ack(entropy1_ack),
.led(),
.debug_data(entropy1_raw),
.debug_clk(),
.delta_data(entropy1_stats),
.delta_clk()
);
rosc_entropy_core entropy2(
.clk(clk),
.reset_n(reset_n),
.enable(entropy2_enable),
.opa(entropy2_op_a_reg),
.opb(entropy2_op_b_reg),
.entropy(entropy2_raw),
.rnd_data(entropy2_data),
.rnd_valid(entropy2_syn),
.rnd_ack(entropy2_ack),
.debug(entropy2_debug),
.debug_update(debug_update)
);
//----------------------------------------------------------------
// reg_update
//
// Update functionality for all registers in the core.
// All registers are positive edge triggered with asynchronous
// active low reset. All registers have write enable.
//----------------------------------------------------------------
always @ (posedge clk or negedge reset_n)
begin
if (!reset_n)
begin
entropy0_enable_reg <= 1;
entropy1_enable_reg <= 1;
entropy2_enable_reg <= 1;
entropy2_op_a_reg <= 32'h01010101;
entropy2_op_a_reg <= 32'h10101010;
enable_reg <= 1;
csprng_rnd_ack_reg <= 0;
csprng_seed_reg <= 0;
csprng_num_rounds_reg <= CSPRNG_DEFAULT_NUM_ROUNDS;
csprng_num_blocks_low_reg <= CSPRNG_DEFAULT_NUM_BLOCKS[31 : 0];
csprng_num_blocks_high_reg <= CSPRNG_DEFAULT_NUM_BLOCKS[63 : 32];
end
else
begin
csprng_rnd_ack_reg <= csprng_rnd_ack_new;
csprng_seed_reg <= csprng_seed_new;
if (entropy0_enable_we)
begin
entropy0_enable_reg <= entropy0_enable_new;
end
if (entropy1_enable_we)
begin
entropy1_enable_reg <= entropy1_enable_new;
end
if (entropy2_enable_we)
begin
entropy2_enable_reg <= entropy2_enable_new;
end
if (entropy2_op_a_we)
begin
entropy2_op_a_reg <= entropy2_op_a_new;
end
if (entropy2_op_b_we)
begin
entropy2_op_b_reg <= entropy2_op_b_new;
end
if (enable_we)
begin
enable_reg <= enable_new;
end
if (csprng_num_rounds_we)
begin
csprng_num_rounds_reg <= csprng_num_rounds_new;
end
if (csprng_num_blocks_low_we)
begin
csprng_num_blocks_low_reg <= csprng_num_blocks_low_new;
end
if (csprng_num_blocks_high_we)
begin
csprng_num_blocks_high_reg <= csprng_num_blocks_high_new;
end
end
end // reg_update
//----------------------------------------------------------------
// api_logic
//
// Implementation of the api logic. If cs is enabled will either
// try to write to or read from the internal registers.
//----------------------------------------------------------------
always @*
begin : api_logic
entropy0_enable_new = 0;
entropy0_enable_we = 0;
entropy1_enable_new = 0;
entropy1_enable_we = 0;
entropy2_enable_new = 0;
entropy2_enable_we = 0;
entropy2_op_a_new = 32'h00000000;
entropy2_op_a_we = 0;
entropy2_op_b_new = 32'h00000000;
entropy2_op_b_we = 0;
enable_new = 0;
enable_we = 0;
csprng_seed_new = 0;
csprng_rnd_ack_new = 0;
csprng_seed_new = 0;
csprng_num_rounds_new = 5'h00;
csprng_num_rounds_we = 0;
csprng_num_blocks_low_new = 32'h00000000;
csprng_num_blocks_low_we = 0;
csprng_num_blocks_high_new = 32'h00000000;
csprng_num_blocks_high_we = 0;
tmp_read_data = 32'h00000000;
tmp_error = 0;
if (cs)
begin
if (we)
begin
// Write operations.
case (address)
// Write operations.
ADDR_TRNG_CTRL:
begin
enable_new = write_data[TRNG_CTRL_ENABLE_BIT];
enable_we = 1;
entropy0_enable_new = write_data[TRNG_CTRL_ENT0_ENABLE_BIT];
entropy0_enable_we = 1;
entropy1_enable_new = write_data[TRNG_CTRL_ENT1_ENABLE_BIT];
entropy1_enable_we = 1;
entropy2_enable_new = write_data[TRNG_CTRL_ENT2_ENABLE_BIT];
entropy2_enable_we = 1;
csprng_seed_new = write_data[TRNG_CTRL_SEED_BIT];
end
ADDR_CSPRNG_NUM_ROUNDS:
begin
csprng_num_rounds_new = write_data[4 : 0];
csprng_num_rounds_we = 1;
end
ADDR_CSPRNG_NUM_BLOCKS_LOW:
begin
csprng_num_blocks_low_new = write_data;
csprng_num_blocks_low_we = 1;
end
ADDR_CSPRNG_NUM_BLOCKS_HIGH:
begin
csprng_num_blocks_high_new = write_data;
csprng_num_blocks_high_we = 1;
end
ADDR_ENTROPY2_OP_A:
begin
entropy2_op_a_new = write_data;
entropy2_op_a_we = 1;
end
ADDR_ENTROPY2_OP_B:
begin
entropy2_op_b_new = write_data;
entropy2_op_b_we = 1;
end
default:
begin
tmp_error = 1;
end
endcase // case (address)
end // if (we)
else
begin
// Read operations.
case (address)
// Read operations.
ADDR_NAME0:
begin
tmp_read_data = TRNG_NAME0;
end
ADDR_NAME1:
begin
tmp_read_data = TRNG_NAME1;
end
ADDR_VERSION:
begin
tmp_read_data = TRNG_VERSION;
end
ADDR_TRNG_CTRL:
begin
tmp_read_data[TRNG_CTRL_ENABLE_BIT] = enable_reg;
tmp_read_data[TRNG_CTRL_ENT0_ENABLE_BIT] = entropy0_enable_reg;
tmp_read_data[TRNG_CTRL_ENT1_ENABLE_BIT] = entropy1_enable_reg;
tmp_read_data[TRNG_CTRL_ENT2_ENABLE_BIT] = entropy2_enable_reg;
tmp_read_data[TRNG_CTRL_SEED_BIT] = csprng_seed_reg;
end
ADDR_TRNG_STATUS:
begin
end
ADDR_TRNG_RND_DATA:
begin
csprng_rnd_ack_new = 1;
tmp_read_data = csprng_rnd_data;
end
ADDR_TRNG_RND_DATA_VALID:
begin
tmp_read_data[TRNG_RND_VALID_BIT] = csprng_rnd_syn;
end
ADDR_CSPRNG_NUM_ROUNDS:
begin
tmp_read_data[4 : 0] = csprng_num_rounds_reg;
end
ADDR_CSPRNG_NUM_BLOCKS_LOW:
begin
tmp_read_data = csprng_num_blocks_low_reg;
end
ADDR_CSPRNG_NUM_BLOCKS_HIGH:
begin
tmp_read_data = csprng_num_blocks_high_reg;
end
ADDR_ENTROPY0_RAW:
begin
tmp_read_data = entropy0_raw;
end
ADDR_ENTROPY0_STATS:
begin
tmp_read_data = entropy0_stats;
end
ADDR_ENTROPY1_RAW:
begin
tmp_read_data = entropy1_raw;
end
ADDR_ENTROPY1_STATS:
begin
tmp_read_data = entropy1_stats;
end
ADDR_ENTROPY2_RAW:
begin
tmp_read_data = entropy2_raw;
end
ADDR_ENTROPY2_STATS:
begin
tmp_read_data = entropy2_stats;
end
default:
begin
tmp_error = 1;
end
endcase // case (address)
end
end
end // addr_decoder
endmodule // trng
//======================================================================
// EOF trng.v
//======================================================================
|