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|
//======================================================================
//
// trng_csprng.v
// -------------
// CSPRNG for the TRNG.
//
//
// 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_csprng(
// Clock and reset.
input wire clk,
input wire reset_n,
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,
input wire discard,
input wire test_mode,
output wire more_seed,
output wire security_error,
input [511 : 0] seed_data,
input wire seed_syn,
output wire seed_ack,
output wire [7 : 0] debug,
input wire debug_update
);
//----------------------------------------------------------------
// Internal constant and parameter definitions.
//----------------------------------------------------------------
localparam ADDR_NAME0 = 8'h00;
localparam ADDR_NAME1 = 8'h01;
localparam ADDR_VERSION = 8'h02;
localparam ADDR_CTRL = 8'h08;
localparam CTRL_ENABLE_BIT = 0;
localparam CTRL_SEED_BIT = 1;
localparam ADDR_STATUS = 8'h09;
localparam STATUS_RND_VALID_BIT = 1;
localparam ADDR_STAT_BLOCKS_LOW = 8'h14;
localparam ADDR_STAT_BLOCKS_HIGH = 8'h15;
localparam ADDR_STAT_RESEEDS = 8'h16;
localparam ADDR_RND_DATA = 8'h20;
localparam ADDR_NUM_ROUNDS = 8'h40;
localparam ADDR_NUM_BLOCKS_LOW = 8'h41;
localparam ADDR_NUM_BLOCKS_HIGH = 8'h42;
localparam ADDR_TEST_SEED_W00 = 8'h80;
localparam ADDR_TEST_SEED_W01 = 8'h81;
localparam ADDR_TEST_SEED_W02 = 8'h82;
localparam ADDR_TEST_SEED_W03 = 8'h83;
localparam ADDR_TEST_SEED_W04 = 8'h84;
localparam ADDR_TEST_SEED_W05 = 8'h85;
localparam ADDR_TEST_SEED_W06 = 8'h86;
localparam ADDR_TEST_SEED_W07 = 8'h87;
localparam ADDR_TEST_SEED_W08 = 8'h88;
localparam ADDR_TEST_SEED_W09 = 8'h89;
localparam ADDR_TEST_SEED_W10 = 8'h8a;
localparam ADDR_TEST_SEED_W11 = 8'h8b;
localparam ADDR_TEST_SEED_W12 = 8'h8c;
localparam ADDR_TEST_SEED_W13 = 8'h8d;
localparam ADDR_TEST_SEED_W14 = 8'h8e;
localparam ADDR_TEST_SEED_W15 = 8'h8f;
localparam CIPHER_KEYLEN256 = 1'b1; // 256 bit key.
localparam CIPHER_MAX_BLOCKS = 64'h0000000100000000;
localparam CTRL_IDLE = 4'h0;
localparam CTRL_SEED0 = 4'h1;
localparam CTRL_NSYN = 4'h2;
localparam CTRL_SEED1 = 4'h3;
localparam CTRL_INIT0 = 4'h4;
localparam CTRL_INIT1 = 4'h5;
localparam CTRL_NEXT0 = 4'h6;
localparam CTRL_NEXT1 = 4'h7;
localparam CTRL_MORE = 4'h8;
localparam CTRL_CANCEL = 4'hf;
localparam DEFAULT_NUM_ROUNDS = 5'h18;
localparam DEFAULT_NUM_BLOCKS = 64'h0000000001000000;
parameter CORE_NAME0 = 32'h63737072; // "cspr"
parameter CORE_NAME1 = 32'h6e672020; // "ng "
parameter CORE_VERSION = 32'h302e3530; // "0.50"
//----------------------------------------------------------------
// Registers including update variables and write enable.
//----------------------------------------------------------------
reg [255 : 0] cipher_key_reg;
reg [255 : 0] cipher_key_new;
reg cipher_key_we;
reg [63 : 0] cipher_iv_reg;
reg [63 : 0] cipher_iv_new;
reg cipher_iv_we;
reg [63 : 0] cipher_ctr_reg;
reg [63 : 0] cipher_ctr_new;
reg cipher_ctr_we;
reg [511 : 0] cipher_block_reg;
reg [511 : 0] cipher_block_new;
reg cipher_block_we;
reg [63 : 0] block_ctr_reg;
reg [63 : 0] block_ctr_new;
reg block_ctr_inc;
reg block_ctr_rst;
reg block_ctr_we;
reg block_ctr_max;
reg [63 : 0] block_stat_ctr_reg;
reg [63 : 0] block_stat_ctr_new;
reg block_stat_ctr_we;
reg [31 : 0] reseed_stat_ctr_reg;
reg [31 : 0] reseed_stat_ctr_new;
reg reseed_stat_ctr_inc;
reg reseed_stat_ctr_we;
reg ready_reg;
reg ready_new;
reg ready_we;
reg more_seed_reg;
reg more_seed_new;
reg seed_ack_reg;
reg seed_ack_new;
reg enable_reg;
reg enable_new;
reg enable_we;
reg seed_reg;
reg seed_new;
reg [4 : 0] num_rounds_reg;
reg [4 : 0] num_rounds_new;
reg num_rounds_we;
reg [31 : 0] num_blocks_low_reg;
reg [31 : 0] num_blocks_low_new;
reg num_blocks_low_we;
reg [31 : 0] num_blocks_high_reg;
reg [31 : 0] num_blocks_high_new;
reg num_blocks_high_we;
reg [3 : 0] csprng_ctrl_reg;
reg [3 : 0] csprng_ctrl_new;
reg csprng_ctrl_we;
//----------------------------------------------------------------
// Wires.
//----------------------------------------------------------------
reg tmp_error;
reg cipher_init;
reg cipher_next;
wire [511 : 0] cipher_data_out;
wire cipher_data_out_valid;
wire cipher_ready;
wire fifo_more_data;
reg fifo_discard;
wire rnd_syn;
wire [31 : 0] rnd_data;
reg rnd_ack;
reg fifo_cipher_data_valid;
wire muxed_rnd_ack;
reg [31 : 0] tmp_read_data;
//----------------------------------------------------------------
// Concurrent connectivity for ports etc.
//----------------------------------------------------------------
assign read_data = tmp_read_data;
assign error = tmp_error;
assign seed_ack = seed_ack_reg;
assign more_seed = more_seed_reg;
assign debug = rnd_data[7 : 0];
assign security_error = 0;
assign muxed_rnd_ack = rnd_ack | debug_update;
//----------------------------------------------------------------
// core instantiation.
//----------------------------------------------------------------
chacha_core cipher_inst(
.clk(clk),
.reset_n(reset_n),
.init(cipher_init),
.next(cipher_next),
.key(cipher_key_reg),
.keylen(CIPHER_KEYLEN256),
.iv(cipher_iv_reg),
.ctr(cipher_ctr_reg),
.rounds(num_rounds_reg),
.data_in(cipher_block_reg),
.ready(cipher_ready),
.data_out(cipher_data_out),
.data_out_valid(cipher_data_out_valid)
);
trng_csprng_fifo fifo_inst(
.clk(clk),
.reset_n(reset_n),
.csprng_data(cipher_data_out),
.csprng_data_valid(fifo_cipher_data_valid),
.discard(fifo_discard),
.more_data(fifo_more_data),
.rnd_syn(rnd_syn),
.rnd_data(rnd_data),
.rnd_ack(muxed_rnd_ack)
);
//----------------------------------------------------------------
// reg_update
//
// Update functionality for all registers in the core.
// All registers are positive edge triggered with synchronous
// active low reset. All registers have write enable.
//----------------------------------------------------------------
always @ (posedge clk or negedge reset_n)
begin
if (!reset_n)
begin
cipher_key_reg <= 256'h0;
cipher_iv_reg <= 64'h0;
cipher_ctr_reg <= 64'h0;
cipher_block_reg <= 512'h0;
block_ctr_reg <= 64'h0;
block_stat_ctr_reg <= 64'h0;
reseed_stat_ctr_reg <= 32'h0;
more_seed_reg <= 1'h0;
seed_ack_reg <= 1'h0;
ready_reg <= 1'h0;
enable_reg <= 1'h1;
seed_reg <= 1'h0;
num_rounds_reg <= DEFAULT_NUM_ROUNDS;
num_blocks_low_reg <= DEFAULT_NUM_BLOCKS[31 : 0];
num_blocks_high_reg <= DEFAULT_NUM_BLOCKS[63 : 32];
csprng_ctrl_reg <= CTRL_IDLE;
end
else
begin
more_seed_reg <= more_seed_new;
seed_ack_reg <= seed_ack_new;
seed_reg <= seed_new;
if (enable_we)
enable_reg <= enable_new;
if (cipher_key_we)
cipher_key_reg <= cipher_key_new;
if (cipher_iv_we)
cipher_iv_reg <= cipher_iv_new;
if (cipher_ctr_we)
cipher_ctr_reg <= cipher_ctr_new;
if (cipher_block_we)
cipher_block_reg <= cipher_block_new;
if (block_ctr_we)
begin
block_ctr_reg <= block_ctr_new;
end
if (block_stat_ctr_we)
begin
block_stat_ctr_reg <= block_stat_ctr_new;
end
if (reseed_stat_ctr_we)
reseed_stat_ctr_reg <= reseed_stat_ctr_new;
if (ready_we)
ready_reg <= ready_new;
if (csprng_ctrl_we)
csprng_ctrl_reg <= csprng_ctrl_new;
if (num_rounds_we)
num_rounds_reg <= num_rounds_new;
if (num_blocks_low_we)
num_blocks_low_reg <= num_blocks_low_new;
if (num_blocks_high_we)
num_blocks_high_reg <= num_blocks_high_new;
end
end // reg_update
//----------------------------------------------------------------
// csprng_api_logic
//----------------------------------------------------------------
always @*
begin : csprng_api_logic
enable_new = 0;
enable_we = 0;
seed_new = 0;
num_rounds_new = 5'h00;
num_rounds_we = 0;
num_blocks_low_new = 32'h00000000;
num_blocks_low_we = 0;
num_blocks_high_new = 32'h00000000;
num_blocks_high_we = 0;
rnd_ack = 0;
tmp_read_data = 32'h00000000;
tmp_error = 0;
if (cs)
begin
if (we)
begin
// Write operations.
case (address)
// Write operations.
ADDR_CTRL:
begin
enable_new = write_data[CTRL_ENABLE_BIT];
enable_we = 1;
seed_new = write_data[CTRL_SEED_BIT];
end
ADDR_NUM_ROUNDS:
begin
num_rounds_new = write_data[4 : 0];
num_rounds_we = 1;
end
ADDR_NUM_BLOCKS_LOW:
begin
num_blocks_low_new = write_data;
num_blocks_low_we = 1;
end
ADDR_NUM_BLOCKS_HIGH:
begin
num_blocks_high_new = write_data;
num_blocks_high_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:
tmp_read_data = CORE_NAME0;
ADDR_NAME1:
tmp_read_data = CORE_NAME1;
ADDR_VERSION:
tmp_read_data = CORE_VERSION;
ADDR_CTRL:
tmp_read_data = {30'h00000000, seed_reg, enable_reg};
ADDR_STATUS:
tmp_read_data = {30'h00000000, rnd_syn, ready_reg};
ADDR_STAT_BLOCKS_LOW:
tmp_read_data = block_stat_ctr_reg[31 : 0];
ADDR_STAT_BLOCKS_HIGH:
tmp_read_data = block_stat_ctr_reg[63 : 32];
ADDR_STAT_RESEEDS:
tmp_read_data = reseed_stat_ctr_reg;
ADDR_RND_DATA:
begin
tmp_read_data = rnd_data;
rnd_ack = 1;
end
ADDR_NUM_ROUNDS:
tmp_read_data = {27'h0000000, num_rounds_reg};
ADDR_NUM_BLOCKS_LOW:
tmp_read_data = num_blocks_low_reg;
ADDR_NUM_BLOCKS_HIGH:
tmp_read_data = num_blocks_high_reg;
default:
begin
tmp_error = 1;
end
endcase // case (address)
end
end
end // cspng_api_logic
//----------------------------------------------------------------
// block_ctr
//
// Logic to implement the block counter. This includes the
// ability to detect that maximum allowed number of blocks
// has been reached. Either as defined by the application
// or the hard coded CIPHER_MAX_BLOCKS value.
//
// The stat counter is a sepatate block counter updated in
// sync with the block counter. It is only used to track the
// number of blocks generated from the cipher as a metric
// provided to the system. The stat counter is never reset.
//----------------------------------------------------------------
always @*
begin : block_ctr
block_ctr_new = {2{32'h00000000}};
block_ctr_we = 1'b0;
block_ctr_max = 1'b0;
block_stat_ctr_new = {2{32'h00000000}};
block_stat_ctr_we = 1'b0;
if (block_ctr_rst)
begin
block_ctr_new = {2{32'h00000000}};
block_ctr_we = 1'b1;
end
if (block_ctr_inc)
begin
block_ctr_new = block_ctr_reg + 1'b1;
block_ctr_we = 1;
block_stat_ctr_new = block_stat_ctr_reg + 1'b1;
block_stat_ctr_we = 1;
end
if ((block_ctr_reg == {num_blocks_high_reg, num_blocks_low_reg}) ||
(block_ctr_reg == CIPHER_MAX_BLOCKS))
begin
block_ctr_max = 1'b1;
end
end // block_ctr
//----------------------------------------------------------------
// reseed_ctr
//
// A simple monotonically increasing counter that counts the
// number of times the CSPRNG has been reseeded. is reseeded.
// Note that the counter is 32-bit and it is up to SW to handle
// wrap around issues.
//----------------------------------------------------------------
always @*
begin : reseed_ctr
reseed_stat_ctr_new = 32'h00000000;
reseed_stat_ctr_we = 0;
if (reseed_stat_ctr_inc)
begin
reseed_stat_ctr_new = reseed_stat_ctr_reg + 1'b1;
reseed_stat_ctr_we = 1;
end
end // reseed_ctr
//----------------------------------------------------------------
// csprng_ctrl_fsm
//
// Control FSM for the CSPRNG.
//----------------------------------------------------------------
always @*
begin : csprng_ctrl_fsm
cipher_key_new = {8{32'h00000000}};
cipher_key_we = 0;
cipher_iv_new = {2{32'h00000000}};
cipher_iv_we = 0;
cipher_ctr_new = {2{32'h00000000}};
cipher_ctr_we = 0;
cipher_block_new = {16{32'h00000000}};
cipher_block_we = 0;
cipher_init = 0;
cipher_next = 0;
block_ctr_rst = 0;
block_ctr_inc = 0;
ready_new = 0;
ready_we = 0;
seed_ack_new = 0;
more_seed_new = 0;
fifo_discard = 0;
fifo_cipher_data_valid = 0;
reseed_stat_ctr_inc = 0;
csprng_ctrl_new = CTRL_IDLE;
csprng_ctrl_we = 0;
case (csprng_ctrl_reg)
CTRL_IDLE:
begin
if (!enable_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else if (fifo_more_data)
begin
more_seed_new = 1;
csprng_ctrl_new = CTRL_SEED0;
csprng_ctrl_we = 1;
end
end
CTRL_SEED0:
begin
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else if (seed_syn)
begin
seed_ack_new = 1;
cipher_block_new = seed_data;
cipher_block_we = 1;
csprng_ctrl_new = CTRL_NSYN;
csprng_ctrl_we = 1;
end
end
CTRL_NSYN:
begin
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else
begin
more_seed_new = 1;
csprng_ctrl_new = CTRL_SEED1;
csprng_ctrl_we = 1;
end
end
CTRL_SEED1:
begin
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else if (seed_syn)
begin
seed_ack_new = 1;
cipher_key_new = seed_data[255 : 0];
cipher_key_we = 1;
cipher_iv_new = seed_data[319 : 256];
cipher_iv_we = 1;
cipher_ctr_new = seed_data[383 : 320];
cipher_ctr_we = 1;
csprng_ctrl_new = CTRL_INIT0;
csprng_ctrl_we = 1;
end
else
begin
more_seed_new = 1;
end
end
CTRL_INIT0:
begin
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else
begin
reseed_stat_ctr_inc = 1;
cipher_init = 1;
block_ctr_rst = 1;
csprng_ctrl_new = CTRL_INIT1;
csprng_ctrl_we = 1;
end
end
CTRL_INIT1:
begin
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else if (cipher_ready)
begin
csprng_ctrl_new = CTRL_NEXT0;
csprng_ctrl_we = 1;
end
end
CTRL_NEXT0:
begin
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else
begin
cipher_next = 1;
csprng_ctrl_new = CTRL_NEXT1;
csprng_ctrl_we = 1;
end
end
CTRL_NEXT1:
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else if (cipher_ready && cipher_data_out_valid)
begin
block_ctr_inc = 1;
fifo_cipher_data_valid = 1;
csprng_ctrl_new = CTRL_MORE;
csprng_ctrl_we = 1;
end
CTRL_MORE:
begin
if ((!enable_reg) || seed_reg || discard)
begin
csprng_ctrl_new = CTRL_CANCEL;
csprng_ctrl_we = 1;
end
else if (fifo_more_data)
begin
if (block_ctr_max)
begin
more_seed_new = 1;
csprng_ctrl_new = CTRL_SEED0;
csprng_ctrl_we = 1;
end
else
begin
csprng_ctrl_new = CTRL_NEXT0;
csprng_ctrl_we = 1;
end
end
end
CTRL_CANCEL:
begin
fifo_discard = 1;
cipher_key_new = {8{32'h00000000}};
cipher_key_we = 1;
cipher_iv_new = {2{32'h00000000}};
cipher_iv_we = 1;
cipher_ctr_new = {2{32'h00000000}};
cipher_ctr_we = 1;
cipher_block_new = {16{32'h00000000}};
cipher_block_we = 1;
block_ctr_rst = 1;
csprng_ctrl_new = CTRL_IDLE;
csprng_ctrl_we = 1;
end
default:
begin
end
endcase // case (cspng_ctrl_reg)
end // csprng_ctrl_fsm
endmodule // trng_csprng
//======================================================================
// EOF trng_csprng.v
//======================================================================
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