From 25e338149fdb8e06c82d99600769a8498a85ef2c Mon Sep 17 00:00:00 2001
From: "Pavel V. Shatov (Meister)" <meisterpaul1@yandex.ru>
Date: Mon, 31 Oct 2016 00:14:51 +0300
Subject: Initial commit of base point multiplier core for ECDSA curve P-256.

---
 .../modular_invertor/helper/modinv_helper_init.v   | 172 +++++++++++++++++++++
 1 file changed, 172 insertions(+)
 create mode 100644 rtl/modular/modular_invertor/helper/modinv_helper_init.v

(limited to 'rtl/modular/modular_invertor/helper/modinv_helper_init.v')

diff --git a/rtl/modular/modular_invertor/helper/modinv_helper_init.v b/rtl/modular/modular_invertor/helper/modinv_helper_init.v
new file mode 100644
index 0000000..0468134
--- /dev/null
+++ b/rtl/modular/modular_invertor/helper/modinv_helper_init.v
@@ -0,0 +1,172 @@
+`timescale 1ns / 1ps
+
+module modinv_helper_init
+	(
+		clk, rst_n,
+		ena, rdy,
+		a_addr, a_din,
+		q_addr, q_din,
+		r_addr, r_wren, r_dout,
+		s_addr, s_wren, s_dout,
+		u_addr, u_wren, u_dout,
+		v_addr, v_wren, v_dout
+	);
+	
+	
+		//
+		// Parameters
+		//
+	parameter OPERAND_NUM_WORDS	= 8;
+	parameter OPERAND_ADDR_BITS	= 3;
+	
+	parameter BUFFER_NUM_WORDS		= 9;
+	parameter BUFFER_ADDR_BITS		= 4;
+	
+	
+		//
+		// clog2
+		//
+`include "..\modinv_clog2.v"
+	
+	
+		//
+		// Constants
+		//
+	localparam PROC_NUM_CYCLES	= OPERAND_NUM_WORDS + 3;
+	localparam PROC_CNT_BITS	= clog2(PROC_NUM_CYCLES);
+	
+	
+		//
+		// Ports
+		//
+	input		wire									clk;
+	input		wire									rst_n;
+	input		wire									ena;
+	output	wire									rdy;
+
+	output	wire	[OPERAND_ADDR_BITS-1:0]	a_addr;
+	output	wire	[OPERAND_ADDR_BITS-1:0]	q_addr;
+	output	wire	[ BUFFER_ADDR_BITS-1:0]	r_addr;
+	output	wire	[ BUFFER_ADDR_BITS-1:0]	s_addr;
+	output	wire	[ BUFFER_ADDR_BITS-1:0]	u_addr;
+	output	wire	[ BUFFER_ADDR_BITS-1:0]	v_addr;
+	
+	output	wire									r_wren;
+	output	wire									s_wren;
+	output	wire									u_wren;
+	output	wire									v_wren;
+	
+	input		wire	[                 31:0]	a_din;
+	input		wire	[                 31:0]	q_din;
+	output	wire	[                 31:0]	r_dout;
+	output	wire	[                 31:0]	s_dout;
+	output	wire	[                 31:0]	u_dout;
+	output	wire	[                 31:0]	v_dout;
+
+
+		//
+		// Counter
+		//
+	reg	[PROC_CNT_BITS-1:0]	proc_cnt;
+
+	wire	[PROC_CNT_BITS-1:0]	proc_cnt_max	= PROC_NUM_CYCLES - 1;
+	wire	[PROC_CNT_BITS-1:0]	proc_cnt_zero	= {PROC_CNT_BITS{1'b0}};
+	wire	[PROC_CNT_BITS-1:0]	proc_cnt_next	= (proc_cnt < proc_cnt_max) ?
+																	proc_cnt + 1'b1 : proc_cnt_zero;
+	
+		//
+		// Addresses
+		//
+	reg	[OPERAND_ADDR_BITS-1:0]	addr_aq;
+
+	wire	[OPERAND_ADDR_BITS-1:0]	addr_aq_max		= OPERAND_NUM_WORDS - 1;
+	wire	[OPERAND_ADDR_BITS-1:0]	addr_aq_zero	= {OPERAND_ADDR_BITS{1'b0}};
+	wire	[OPERAND_ADDR_BITS-1:0]	addr_aq_next	= (addr_aq < addr_aq_max) ?
+																		addr_aq + 1'b1 : addr_aq_zero;
+																		
+	reg	[BUFFER_ADDR_BITS-1:0]	addr_rsuv;
+	
+	wire	[BUFFER_ADDR_BITS-1:0]	addr_rsuv_max	= BUFFER_NUM_WORDS - 1;
+	wire	[BUFFER_ADDR_BITS-1:0]	addr_rsuv_zero	= {BUFFER_ADDR_BITS{1'b0}};
+	wire	[BUFFER_ADDR_BITS-1:0]	addr_rsuv_next	= (addr_rsuv < addr_rsuv_max) ?
+																		addr_rsuv + 1'b1 : addr_rsuv_zero;
+																		
+	assign a_addr = addr_aq;
+	assign q_addr = addr_aq;
+	
+	assign r_addr = addr_rsuv;
+	assign s_addr = addr_rsuv;
+	assign u_addr = addr_rsuv;
+	assign v_addr = addr_rsuv;
+	
+		
+		//
+		// Ready Flag
+		//
+	assign rdy = (proc_cnt == proc_cnt_zero);
+	
+	
+		//
+		// Address Increment Logic
+		//
+	wire	inc_addr_aq;
+	wire	inc_addr_rsuv;
+
+	wire	[PROC_CNT_BITS-1:0]	cnt_inc_addr_aq_start	= 1;
+	wire	[PROC_CNT_BITS-1:0]	cnt_inc_addr_aq_stop		= OPERAND_NUM_WORDS;
+	
+	wire	[PROC_CNT_BITS-1:0]	cnt_inc_addr_rsuv_start	= 2;
+	wire	[PROC_CNT_BITS-1:0]	cnt_inc_addr_rsuv_stop	= BUFFER_NUM_WORDS + 1;
+
+	assign inc_addr_aq   = (proc_cnt >= cnt_inc_addr_aq_start)   && (proc_cnt <= cnt_inc_addr_aq_stop);
+	assign inc_addr_rsuv = (proc_cnt >= cnt_inc_addr_rsuv_start) && (proc_cnt <= cnt_inc_addr_rsuv_stop);
+	
+	always @(posedge clk) begin
+		//
+		if (inc_addr_aq)	addr_aq <= addr_aq_next;
+		else					addr_aq <= addr_aq_zero;
+		//
+		if (inc_addr_rsuv)	addr_rsuv <= addr_rsuv_next;
+		else						addr_rsuv <= addr_rsuv_zero;
+		//
+	end
+	
+	
+		//
+		// Write Enable Logic
+		//
+	wire	wren_rsuv;
+
+	wire	[PROC_CNT_BITS-1:0]	cnt_wren_rsuv_start	= 2;
+	wire	[PROC_CNT_BITS-1:0]	cnt_wren_rsuv_stop	= BUFFER_NUM_WORDS + 1;
+
+	assign wren_rsuv = (proc_cnt >= cnt_wren_rsuv_start) && (proc_cnt <= cnt_wren_rsuv_stop);
+
+	assign r_wren = wren_rsuv;
+	assign s_wren = wren_rsuv;
+	assign u_wren = wren_rsuv;
+	assign v_wren = wren_rsuv;
+	
+	
+		//
+		// Data Logic
+		//
+	assign r_dout = 32'd0;
+	assign s_dout = (proc_cnt == cnt_wren_rsuv_start) ? 32'd1 : 32'd0;
+	assign u_dout = (proc_cnt != cnt_wren_rsuv_stop)  ? q_din : 32'd0;
+	assign v_dout = (proc_cnt != cnt_wren_rsuv_stop)  ? a_din : 32'd0;
+	
+	
+		//
+		// Primary Counter Logic
+		//
+	always @(posedge clk or negedge rst_n)
+		//
+		if (rst_n == 1'b0) proc_cnt <= proc_cnt_zero;
+		else begin
+			if (!rdy)		proc_cnt <= proc_cnt_next;
+			else if (ena)	proc_cnt <= proc_cnt_next;
+		end
+
+
+endmodule
-- 
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